P9005manu Gas Turbine
This document was uploaded by user and they confirmed that they have the permission to share it. If you are author or own the copyright of this book, please report to us by using this DMCA report form. Report DMCA
Overview
Download & View P9005manu Gas Turbine as PDF for free.
More details
- Words: 15,864
- Pages: 232
Loading documents preview...
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 1 of 232
P9005 CUSSONS TWO SHAFT GAS TURBINE UNIT P9008 DATA LOGGING OPTION
ISSUE 15 January, 2004
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 2 of 232
TABLE OF CONTENTS 1
RECEIPT AND UNPACKING ......................................................................................6
2
HEALTH AND SAFETY WARNINGS AND PRECAUTIONS ........................................... 7 2.1
Manufacturers Liability. ..................................................................................... 7
2.2
Safety.................................................................................................................. 7
2.2.1
Electrical Equipment. ........................................................................................ 8
2.2.2
Rotating Equipment. ......................................................................................... 8
2.2.3
High Temperature Equipment............................................................................ 8
2.2.4
Corrosive Chemicals.......................................................................................... 9
2.2.5
Noise............................................................................................................... 9
3
INTRODUCTION......................................................................................................10
4
GENERAL SPECIFICATION .....................................................................................11
5
4.1
General..............................................................................................................11
4.2
Gas Generator...................................................................................................11
4.3
Power Turbine. .................................................................................................11
4.4
Loading Alternator with Silicon Diode Rectifying Circuit................................11
4.5
Instrumentation. ..............................................................................................11
4.5.1
Pressure Measurement.................................................................................... 11
4.5.2
Flow Measurement. ........................................................................................ 11
4.5.3
Temperature Measurement. ............................................................................ 12
4.5.4
Speed Indicators. ........................................................................................... 12
4.5.5
dc Measurement............................................................................................. 12
DESCRIPTION.........................................................................................................13 5.1
General..............................................................................................................13
5.2
Gas Generator...................................................................................................13
5.2.1
Compressor. .................................................................................................. 13
5.2.2
Combustion Chamber. .................................................................................... 13
5.2.3
Turbine. ........................................................................................................ 13
5.3
Power Turbine. .................................................................................................14
5.4
Loading System for Power Turbine..................................................................14
5.5
Starting System. ...............................................................................................14
5.6
Ignition System. ...............................................................................................14
5.7
Lubrication System...........................................................................................14
5.8
Instrumentation. ..............................................................................................15
5.8.1
Temperature.................................................................................................. 15
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 5.8.2
Pressure. ....................................................................................................... 15
5.8.3
Air Flow Rate. ................................................................................................ 15
5.8.4
Fuel Flow Rate. .............................................................................................. 16
5.8.5
Rotational Speeds........................................................................................... 16
5.8.6
Power Output................................................................................................. 16
5.9
Operational Interlocks. ....................................................................................16
5.9.1
Turbine Over Temperature.............................................................................. 17
5.9.2
Loss of Oil Pressure. ....................................................................................... 17
5.9.3
Starter Blower Motor. ..................................................................................... 17
5.9.4
Oil Pump Motor. ............................................................................................. 17
5.9.5
Electrical Power Failure. .................................................................................. 17
5.10 6
Signal Conditioning for Data Logging (P9008 optional extra). ...................17
INSTALLATION, COMMISSIONING, CALIBRATION AND MAINTENANCE.............19 6.1
7
Page 3 of 232
Installation. ......................................................................................................19
6.1.1
Electrical Supply. ............................................................................................ 19
6.1.2
Fuel Supply.................................................................................................... 19
6.1.3
Water Supply. ................................................................................................ 19
6.1.4
Exhaust Provisions.......................................................................................... 19
6.1.5
Lubrication System. ........................................................................................ 19
6.1.6
Air Flow Manometer........................................................................................ 20
6.1.7
P2 - P3 Manometer......................................................................................... 20
6.2
Commissioning. ................................................................................................20
6.3
Calibration. .......................................................................................................20
6.3.1
Speed Measurement. ...................................................................................... 20
6.3.2
Temperature Measurement. ............................................................................ 20
6.3.3
Turbine Inlet Temperature - Over Temperature Trip.......................................... 23
6.4
Maintenance. ....................................................................................................23
6.5
Additional Calibration Procedure for P9008 Option........................................23
6.5.1
Preparatory Work. .......................................................................................... 24
6.5.2
Fuel Flow....................................................................................................... 24
6.5.3
Air Flow......................................................................................................... 24
6.5.4
Alternator Voltage. ......................................................................................... 24
6.5.5
Alternator Current. ......................................................................................... 24
OPERATING INSTRUCTIONS.................................................................................. 25 7.1
General..............................................................................................................25
7.2
Starting. ............................................................................................................25
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 4 of 232
7.3
Operating Limitations.......................................................................................25
7.4
Stopping............................................................................................................26
7.5
Notes on Operating Instructions. ....................................................................26
7.5.1
Starting. ........................................................................................................ 26
7.5.2
Operation. ..................................................................................................... 26
7.5.3
Stopping........................................................................................................ 27
8
APPENDIX I – A FIRST COURSE IN GAS TURBINE TECHNOLOGY ........................47
9
APPENDIX II – POWER TURBINE ........................................................................115
10
APPENDIX III – GAS GENERATOR ....................................................................170
11
APPENDIX IV – LOADING UNIT ........................................................................222
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 5 of 232
ILLUSTRATIONS AND GRAPHS Figure 1
Front Panel Layout of Gas Turbine Unit
Figure 2
Rear View of Gas Turbine Unit
Figure 3
Electrical Component Layout on Control Panel
Figure 4
Inner Combustion Chamber
Figure 5
AC 7 Alternator Calibration
Figure 6
Lubrication System
Figure 7
Gas Generator Compressor Characteristics
Figure 8
Gas Generator Turbine Characteristics
Figure 9
Free Power Turbine Characteristics
Figure 10
Printed Circuit Board CBA 216 (Speed)
Figure 11
P9005 Gas Turbine Test Sheet
Figure 12
Correction Factor Curves for Fuel Flowmeter
Figure 13
Installation Details
Figure 14
Printed Circuit Board CBA 219 (Temperatures)
Figure 15
Printed Circuit Board CBA 220 (Analogue Computing) Optional Extra
Figure 16
Overall Schematic Diagram
APPENDICES App. I
A First Course In Gas Turbine Technology – T.H. Frost Section 1 Section 2 Section 3 Section 4
App. II
Power Turbine
App. III
Gas Generator
App. IV
Loading Unit
cussons
—TECHNOLOGY Ltd—
Fundamental Concepts Types and Arrangements of Engine Components Test Techniques A Complete Test and Analysis Programme
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
1
Page 6 of 232
RECEIPT AND UNPACKING
Irrespective of who has arranged the carriage and insurance of the goods, the carriers and insurers require that claims for loss of damage are submitted within a specified period after receipt of the goods. This period is often as short as 72 hours. It is important therefore for the customer to carry out the following procedure as soon as the equipment is received. a) On receipt, the goods should be signed for “unexamined”. b) Immediately unpack and check the equipment against the dispatch checklist / packing lists enclosed with the equipment. c) Advise the carrier within 72 hours of receipt, of any damaged or missing items, holding them responsible for the damage or loss. A copy of this advice document must also be sent to Cussons Technology Ltd. d) If you have arranged insurance you must advise your insurers of the damage/loss enclosing a copy of the advice document that you have submitted to the carrier. e) If Cussons Technology Ltd. arranged insurance, you must advise the local agent at the address indicated on the original Insurance Certificate in your possession. A copy of this advice document must also be sent to Cussons Technology Ltd. You should retain all evidence of loss or damage. Claims for loss or damage cannot be entertained if the above procedures are not adhered to.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 7 of 232
2
HEALTH AND SAFETY WARNINGS AND PRECAUTIONS
2.1
Manufacturers Liability.
Cussons Technology Ltd. hereby draws the attention of all users of its equipment to the UK. Health and Safety at Work Act, or of any similar provisions relating to health and safety of people at work in other countries and territories, which refer to the liability of manufacturers or suppliers of equipment. Under the U.K. Act manufacturers or suppliers of equipment cannot be liable for the consequence of its use unless it is installed, maintained and operated strictly in accordance with the instructions published by the manufacturers or suppliers. This same limit of liability is hereby assumed by Cussons Technology Ltd. to be valid in all countries or territories. Therefore Cussons Technology Ltd will not be liable for any consequence of failure to heed warnings and precautions, improper installation or maintenance, improper use or incorrect operation of equipment, unless specifically authorised in writing by the Company in advance of their implementation, will invalidate equipment warranty and absolve Cussons Technology Ltd from liability. Cussons Technology Ltd. recognises the need for equipment to be safe to operate and to be fit for the purpose for which it is designed. The Company pays considerable attention to these aspects and designs and manufacturers equipment to the highest safety standards with highly visible quality assurance. Where applicable Cussons products incorporate the CE Mark indicating that the product conforms to relevant EU “New Approach” Directives. Compliance with these requirements can only be assured when the equipment has been properly installed and maintained within the intended environment. It is particularly important that all guards, covers, doors and other protective or screening devices are correctly fitted whilst products are operated. Typically Cussons products are designed for operation in applications designated under the directives as an “industrial environment”. Users intending to install or operate equipment in other environments should seek specific advice concerning additional or alternative measures that should be considered. Any customers requiring further advice on safety aspects concerning installation, and use of Cussons equipment should write to the company at the following address giving full details of the equipment, it’s serial number and the exact details of their enquiry: Cussons Technology Ltd 102 Great Clowes Street, Manchester, M7 1RH, U.K. Telephone +44 (0)161 833 0036 Facsimile +44 (0)161 834 4688 Email: [email protected]
2.2
Safety.
Before proceeding to install, commission or operate this equipment you are directed to read the following safety notes. The notes are intended to help you to be aware of potential hazards and
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 8 of 232
thereby avoid accidents. Where appropriate, further information and recommendations are incorporated in the main body of this manual. In all cases the requirements of relevant local health and safety regulations should be complied with.
2.2.1
Electrical Equipment. This equipment operates from a mains voltage electrical supply. Electrical installation and maintenance must therefore only be carried out by a competent electrical engineer in accordance with local regulations and the following notes. a)
Installation.
Ensure that the electrical supply voltage, frequency and configuration are compatible with this equipment, which requires a single/three phase supply and a reliable protective earth or ground connection. To minimise danger, as the supply is connected by a trailing lead**, it is recommended that a high sensitivity (30mA) residual current device which is designed for personnel protection, should be incorporated in the supply. The electrical supply and connecting cable should be suitably rated with respect to current, temperature and physical protection for the conditions of use. The supply outlet should be suitably labelled and must incorporate an independent means of isolating the supply and be fitted with a suitable over-current protection device. b)
Maintenance.
Always isolate the equipment from the electrical supply when the equipment is not in use. Always isolate the equipment from the electrical supply before removing the front or rear panels to expose any part that in operation, carries a potential in excess of 30V dc. or 50V ac. The equipment should be periodically inspected and tested to ensure continued safety.
2.2.2
Rotating Equipment. This equipment contains rotating parts, which rotate at very high rotational speeds. The equipment is provided with guards and the equipment must therefore only be operated with the guards in position. If for any reason the guards are removed then there is a serious risk of the rotating parts causing the entrapment of loose clothing, hair, items of jewellery or parts of the body etc. Consequently the equipment must not be operated without the guards being properly fitted.
2.2.3
High Temperature Equipment During operation this equipment contains parts and water/air at high temperature. To minimise associated hazards the following precautions must be taken: a)
The equipment must be installed and maintained by a competent engineer in accordance with local regulations and codes of practice.
b)
Before operating read and understand the instructions given. Avoid the dangerous release of hot fluids, e.g. by opening the wrong valves. Leakage’s from valves and joints should be investigated and rectified as soon as possible.
c)
Avoid contact with hot surfaces as serious burns can result. If necessary the operator should wear protective gloves.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine d)
Page 9 of 232
The equipment must be subject to periodic inspection and testing to ensure continued suitability for use. This should include as applicable: i) The Integrity of all vessels, containers, pipe work, and valves ii) The integrity of all guards and insulation iii) The operation of safety devices such as thermostats
e)
2.2.4
Implement any instructions that are designed to minimise corrosion or other deterioration including the proper treatment of boiler feed water and condenser cooling water.
Corrosive Chemicals. When used for pH control experiments this equipment requires the use of dilute aqueous solutions of corrosive chemicals. The equipment is designed for use with dilute sulphuric acid up to a concentration of 1M (2N) and dilute sodium hydroxide up to a concentration of 1M (1N). Use of these chemicals at stronger concentrations can not be recommended and is not approved by Cussons Technology Ltd., similarly the equipment is not intended for use with other chemicals. In practice satisfactory results can be obtained with using 0•05M sulphuric acid and 0•01M sodium hydroxide as the strongest solutions and diluting them down by factors of 10, 100 and a 1000 to obtain weaker solutions. Data sheets on the handling of dilute sulphuric acid solutions and dilute sodium hydroxide solutions are given in Appendix 1.
2.2.5
Noise. Wearing ear defenders is recommended in noisy environment in excess of 85 dBa.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
3
Page 10 of 232
INTRODUCTION
The P9005 Cussons Gas Turbine Unit is a full two shaft machine with built in air starting system and electrical loading unit. All operational instrumentation and controls are to be found on the large coloured schematic diagram panel mounted at a convenient operating height. Light indicators and clear reading instruments enable the operator to be aware of circuit conditions at a glance. The equipment employs an automotive turbocharger together with a gaseous fuelled combustion chamber to form the gas generator section of the engine. The exhaust from the gas generator is directed through a radial power turbine which drives a variable frequency alternator which disipates the generated power in a resistive load bank. From the power turbine the gases pass through a silencer to be discharged into the atmosphere. Since the unit is mobile it can easily be sited adjacent to its required electrical, fuel, water and exhaust facilities, and even when operating at high speed it has only a relatively low noise level. Signal conditioning for data logging purposes can be provided as an optional extra by the factory fitted P9008 Data Logging Option available from serial number 206 onwards. The P9008 option provides 0-10V dc analogue signals for all measured parameters.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
4
GENERAL SPECIFICATION
4.1
General.
Page 11 of 232
Note that from Serial No. 167 onwards, the Gas Turbine Unit has been tropicalised and is generally suitable for use in ambient temperatures of up to 40ºC and ambient conditions of up to 80% relative humidity.
4.2
Gas Generator.
The gas generator consists of a single stage centrifugal compressor, a single gaseous fuelled combustion chamber and a single stage radial turbine. The compressor and turbine are mounted back to back on a short shaft supported in a journal bearing. The compressor impellor has a tip diameter of 72mm whilst the radial turbine has a throat area of 16cm² and a tip diameter of 70mm. The gas generator operates at a pressure ratio of approximately 2:1 and speed range of 500 to 2000 rev/sec. The combustion chamber and the associated instrumentation are designed for use with propane C3H8 but may be used with a mixture of propane and butane C4H10 provided that the pressure in the supply bottle is sufficient to inject the fuel into the combustion chamber.
4.3
Power Turbine.
90mm diameter, single stage radial turbine operating over the range 170 to 600 rps and developing a maximum power of approximately 4 kW.
4.4
Loading Alternator with Silicon Diode Rectifying Circuit.
3 phase alternator with manually controlled excitation supplying a 3 phase bridge rectifier circuit giving a variable dc output of up to 75 volts with a current rating of up to 35 amps (approximately).
4.5
Instrumentation.
4.5.1 Pressure Measurement. 0 – 1600 KPa (0 – 16 bar)
Gas Bottle supply indicator
0 – 400 KPa (0 – 4 bar)
Combustion chamber inlet gas pressure
0 – 250 KPa (0 – 2 bar)
Combustion chamber pressure
p3
0 – 40 KPa (0 – 0.4 bar)
Power Turbine inlet pressure
p4
0 – 10 cmHg
Combustion chamber pressure loss (p2 is compressor outlet pressure)
p2 - p3
0 – 1000 KPa (0 – 10 bar)
Lubricating oil pressure
4.5.2 Flow Measurement. 0.4 – 3.3 g/s
Fuel flow (propane 15°C, 1.5 bar g)
0 – 200 mmH2O
Inlet air flow
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 4.5.3
Page 12 of 232
Temperature Measurement.
All temperatures are measured using NiCr/NiAl type K thermocouples 0 – (16 x 10)°C
Inlet air temperature
T1
Compressor outlet temperature
T2
Fuel inlet temperature
Tg
0 – (10 x 100)°C to measure : Gas generator turbine inlet temperature
T3
Power turbine inlet temperature
T4
Power turbine exhaust temperature
T5
0 – 40/120°C to measure : Lubricating oil temperature
4.5.4
T0
Speed Indicators.
0 – 2000 rps
Gas generator speed
0 – 800 rps
Power turbine speed
The tachometers are electronic, direct reading.
4.5.5
dc Measurement.
Mean dc ammeter
0 – 50 amps
de Voltmeter
0 – 100 volts
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
5
DESCRIPTION
5.1
General.
Page 13 of 232
Cussons P9005 Two Shaft Gas Turbine Unit is a self contained equipment with the gas generator, power turbine, loading unit, instrumentation and controls all housed on a castor mounted framework, giving a degree of mobility. Thus the Unit can be tidily stored when not in use and then readily positioned near the required services, when it is required to be run. The services required are : a)
The Unit requires to be positioned under an exhaust duct so that the gas turbine exhaust products can be extracted if prolonged running is contemplated.
b)
A cooling water supply is required for the oil cooler.
c)
A drain is required to cater for the oil cooling water.
d)
A single phase electrical power supply.
e)
A suitable gaseous fuel supply.
The instrumentation and controls for the Unit are incorporated in a large coloured schematic diagram of the system - see Fig. 1 Front Panel Layout of Gas Turbine Unit. This diagram is invaluable as an aid to understanding the complete functioning of the Gas Turbine Unit. Fig. 2 Rear View of Gas Turbine Unit illustrates the physical disposition of all the major components.
5.2
Gas Generator.
The single shaft gas generator comprises a centrifugal compressor, a tubular combustion chamber and a radial turbine (Fig. 2, Refs. B, C and D). The compressor and gas generator turbine are close coupled with the shaft located in a central housing by hydrodynamic bearings (see Appendix 2 for further details).
5.2.1
Compressor.
The compressor is a single sided centrifugal type with a multi-bladed aluminium alloy impeller, and an unbladed diffuser volute casing with tangential exit.
5.2.2
Combustion Chamber.
The single vertical combustion chamber is of conventional design, incorporating a flame tube with central fuel injector for gaseous fuels. The combustion chamber is shown in Fig. 4 Inner Combustion Chamber. The flame tube divides the incoming air flow into ‘primary’ and ‘secondary’ air, with a stabilised combustion zone and tertiary dilution air. A spark igniter is mounted in the side of the combustion chamber for starting purposes. To allow a compressor air bleed to be taken from the chamber an air valve is incorporated in the top of the combustion chamber outer casing.
5.2.3
Turbine.
The gas generator turbine is a single inward flow radial design with a volute type inlet casing.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 5.3
Page 14 of 232
Power Turbine.
The power turbine is also, as with the gas generator, based on an automotive turbocharger, but in this case the compressor has been replaced with a toothed pinion to provide a belt drive to the electric generator unit (see Appendix I for further details).
5.4
Loading System for Power Turbine.
The power turbine drives a separately excited 3 phase alternator via a toothed belt having a 4½ to 1 speed reduction. The alternator incorporates an internal 3 phase bridge rectifying circuit which gives a dc output of 75 volts. The tension of the toothed driving belt is automatically controlled by the hydraulic ram (Fig. 6 Lubrication System), which is fed from the lubricating oil system. The dc output of the rectifying circuit is resistively loaded - thus imposing a load on the alternator and hence the driving turbine. The output voltage of the alternator can be varied by adjustment of the excitation voltage applied to the alternator field coils. This causes the power loading on the alternator (and hence the turbine) to be easily variable over the required operating range. Readings of mean dc output voltage and current can be used to calculate the dc power loading and using Fig. 5 AC 7 Alternator Calibration, an “Efficiency” figure which takes into account drive, alternator, and rectifier circuit efficiencies can be determined. The power loading on the turbine is then given by : calculated dc power loading % efficiency figure
5.5
Starting System.
The gas generator is started by blowing air from a centrifugal fan onto the compressor of the gas generator. Two butterfly valves, ganged together and operated by a start-run control from the front panel, are used to close off the normal air inlet silencer connection and direct air from the fan onto the compressor. The fan is used throughout the starting sequence until self-sustaining speed is reached. It is also used to obtain assisted cooling after shut down in order to reduce the cool down time.
5.6
Ignition System.
A high energy ignition system is used to provide a continuous spark between the electrodes of a conventional automotive sparking plug mounted on the combustion chamber casing and positioned so that the electrodes are just inside the flame tube at the edge of the primary combustion zone.
5.7
Lubrication System.
The gas generator compressor-turbine and the power turbine bearings are lubricated by a continuous circulation lubricating system, which is shown schematically in Fig. 6. The system comprises an oil tank, separately driven gear pump, oil filter and a water cooled oil cooler. The pump draws oil from the tank and passes it through the full flow oil filter and oil cooler, directly to the main bearings from which free flowing drain pipes lead back to the oil tank. The system is protected by an oil pressure switch to shut down the gas turbine in the event of low oil pressure. A small oil bleed from the main pressure supply pipe is taken to supply the belt tensioning hydraulic ram. The recommended lubricant is Burmah Castrol “Assurnn T + 10” which is a low viscosity monograde mineral based detergent oil with an anti-oxidant additive formulated for use
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 15 of 232
with turbocharged Diesel engines. The normal operating pressure of the lubrication system is 400 to 450 Kpa (4 – 4.5 bar) on starting from cold with the pressure dropping towards 200 Kpa (2 bar) as the working temperature in the oil tank rises. The oil cooler ensures that the temperature of the oil fed to the bearings is maintained at approx. 80ºC.
5.8
Instrumentation.
Instrumentation for both operational and experimental measurement is integrated into the coloured schematic diagram on the instrument and control panel.
5.8.1
Temperature.
From serial number 206 all seven temperatures are measured using type K NiCr/NiAl thermocouples, whereas previous models used diodes for low temperatures and thermocouples for high temperatures. The seven temperature channels are : T1
Air inlet temperature
T2
Gas generator compressor exit temperature
T3
Gas generators turbine inlet temperature
T4
Power turbine inlet temperature
T5
Power turbine exit temperature
Tg
Gas (fuel) temperature
To
Oil (lubricant) temperature
All the thermocouples are connected via a cold junction compensation unit and break-out unit to Cussons eight channel thermocouple printed circuit board CBA 219. For each channel there are two independent outputs, one is for the front panel instrumentation while the other is a 0 - 10V dc analogue output available for input to a data logger, computer input or chart recorder. Three front panel analogue temperature indicators are provided. The three high temperatures T3, T4 and T5 are connected to a 1000°C meter, via cascaded push buttons to read T4 and T5. With neither button depressed the meter reads T3. Similarly T1, T2 and Tg are connected to a 120°C meter which normally reads T2 unless either the T1 or Tg button is pressed. The oil thermocouple is permanently connected to the 120°C oil meter.
5.8.2
Pressure.
Conventional Bourdon tube pressure gauges are used to measure all pressures other than the combustion chamber pressure loss (p2 – p3) which is obtained from a differential mercury manometer. Snubbers are fitted in the P2, P3 and P4 pressure lines.
5.8.3
Air Flow Rate.
The air flow is measured at the inlet to the gas generator compressor by a pitot-reverse pitot tube connected to a differential manometer on the front panel. The air mass flow rate is given by : m& where k ∆h
=
k √∆h g/sec
=
calibration constant (determined by Cussons and engraved on the unit)
=
differential pressure mmH2O
The pitot-reverse pitot method is used as it is not so sensitive as a pitot-static tube to flow pattern distortion effects.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 5.8.4
Page 16 of 232
Fuel Flow Rate.
A conventional tapered tube and float flow meter calibrated for gaseous propane at 150 Kpa.g (1.5 bar.g) and 15°C, is used to measure the fuel flow rate. Readings will need to be corrected for other temperatures by using Fig. 12. If a butane-propane fuel mixture is used then the flow meter readings can be corrected by multiplying by the square root of the quotient of the densities of propane and the mixture of propane/butane, i.e. m& mixture
=
m& reading
ρ propane ρ mixture
If the readings are taken at a pressure of 150 Kpa (1.5 bar) and a temperature of 15°C (which are the calibration conditions for the flow meter) then the multiplicative correction factor is ρ propane ρ mixture
44 44Ρ + 58Β
=
where P = fraction of propane in mixture B = fraction of butane in mixture
5.8.5
P
B
Correction Factor
1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0
0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
1.000 0.984 0.970 0.955 0.942 0.929 0.916 0.904 0.893 0.882 0.871
Rotational Speeds.
The gas generator speed and free power turbine speed are both measured using two channels of a four channel frequency to dc conversion printed circuit board CBA 216. The signal for the gas generator is provided by an inductive pick up sensing a magnetic nut at the compressor eye, whilst the power turbine speed is obtained by sensing the ac voltage output of the alternator.
5.8.6
Power Output.
The turbine power output can be calculated from the dc voltage applied and current flowing to the resistive load bank, together with the curve Fig. 5 giving the relationship between dc power measured and an efficiency factor which takes into account belt, alternator and rectifying circuit efficiencies.
5.9
Operational Interlocks.
A number of operational interlocks or protection devices are built into the service systems to ensure safe operation of the gas turbine. Pressing the RESET button will energise relay R1 and hence make the fuel, ignition and starting systems operational. The RESET button is a
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 17 of 232
momentary switch which will self latch only if the interlocks associated with the oil pressure switch, the over temperature cut-out and the starter blower motor thermal trip are correctly positioned.
5.9.1
Turbine Over Temperature.
A comparator circuit contained within the eight channel temperature printed circuit board continuously monitors the turbine inlet temperature T3. In the event of T3 exceeding the limit set by the comparator circuit, relay R1 will be unlatched thus switching off the ignition system and starting blower. The fuel shut-off solenoid valve will also be de-energised.
5.9.2
Loss of Oil Pressure.
An oil pressure switch monitors the pressure of the oil used to supply the oil circuit and if its pressure falls too low the oil pressure switch opens and unlatches the relay R1, thus shutting down the engine.
5.9.3
Starter Blower Motor.
The induction motor which drives the starter blower is protected by a thermal trip in the blower motor contactor. Auxiliary contacts on the contactor are used to enable relay R1 thus providing protection should the motor trip during operation.
5.9.4
Oil Pump Motor.
The induction motor which drives the oil pump is protected by a thermal trip in the oil pump motor contactor.
5.9.5
Electrical Power Failure.
The system is designed to fail safe in that should electrical power be lost in any part of the protection system or to the unit as a whole, then relay R1 will unlatch and the fuel solenoid valve will close, thus causing the shut down of the equipment.
5.10 Signal Conditioning for Data Logging (P9008 optional extra). Signal conditioning for Data Logging P9008 is an optional extra system which is only available as a factory fitted option for P9005 systems from serial number 206 onwards. The P9008 option comprises four pressure transducers, three differential pressure transducers, fuel orifice, rms voltage and current sensing modules and an additional printed circuit board CBA 220, plus all necessary additional wiring, piping and connections. The outputs, which are all amplified to 0 - 10V dc, unless otherwise stated, are connected to two D type sockets, as listed in the table below. Socket 1
9 Pin D Connector - Services Socket.
Pin
Channel
1
0
2
Common
6
1
cussons
—TECHNOLOGY Ltd—
Description
Mnemonic
Range
Oil temperature
To
0 - 200° C
Analogue ground
-
-
Oil pressure
P
0 - 10 bar
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Socket 2
Page 18 of 232
25 pin D Connector - Analytical Socket. Mnemonic
Range
Analog ground
-
-
0
Air inlet temperature
T1
0 - 50°C
6
8
Power turbine inlet pressure
P4
0 - 400 mbar
7
9
Gas pressure
Pg
0 - 4 bar
8
15
Fuel flow
∆Ρg
0 - 3.2 g/s
9
14
Gas generator speed
Ngg
0 - 2000 rev/s
10
13
Turbine speed
NPT
0 - 800 rev/s
11
12
Alternator current
I
0 - 50 amps
12
11
Alternator volts
V
0 - 100 volts
13
10
Air flow
∆Ρa
0 - 175 g/s
19
1
Compressor exit temperature
T2
0 - 160°C
20
2
Gas generator inlet temperature
T3
0 - 1000°C
21
7
Gas generator inlet pressure
P3
0 - 2 bar
22
3
Power turbine inlet temperature
T4
0 - 1000ºC
23
4
Power turbine exhaust temperatuer
T5
0 - 1000°C
24
5
Gas temperature
Tg
0 - 50°C
25
6
Combustion chamber pressure loss
∆Pcc
0 - 136 mbar
Pin
Channel
1
Common
5
Description
Apart from air flow and fuel flow the analogue outputs are all linear and correspond to the appropriate front panel display.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 19 of 232
6
INSTALLATION, COMMISSIONING, CALIBRATION AND MAINTENANCE
6.1
Installation.
When the unit is required to be operational it should be wheeled into a position where all the necessary ancillary requirements for electrical, fuel and water supplies, together with provisions for the exhaust, are met. (See Fig. 13).
6.1.1
Electrical Supply.
A single phase ac supply of approximately 3.5 KVA is required for normal operation, e.g. 240V 50 Hz. Equipment may be supplied suitable for alternative supply specifications to order. Check rating plate at rear of unit for correct supply specification. The blower motor, used for starting purposes, can take initially high starting currents and hence the supply fuses should be such as to cater for these transient starting conditions. A separate earth lead is also required.
6.1.2
Fuel Supply.
The fuel to be used is Propane (C3H8) a gas in standard gas take-off bottles for which suitable fittings are provided. Short period running is possible from 11 kg (24 lb) net bottles but 45 kg (100 lb) bottles are recommended for normal use. Providing that the ambient temperature is not too low, one of these latter bottles will allow adequate operating periods at full power. Where it is essential to site the propane bottles outside in cold conditions, it may be necessary to couple two bottles in parallel to maintain an adequate supply. Consumption at full load is approximately 7 kg (15 lb) per hour and at no load (idling) 2 kg (5 lb) per hour. Note that the level of liquid remaining in the bottle during running can often be seen from the dew condensing on the outside of the bottle, but for an accurate check on fuel available the bottle must be weighed by weighing platform or spring balance.
6.1.3
Water Supply.
An oil to water heat exchanger is included in the oil circuit and the cooling water should be connected to the at the inlet to the heat exchanger. The cooling water outlet should be connected to waste. The water supply required should be made with a 9 mm (⅜") bore flexible hose and have a minimum flow rate of 10 litres (2 gals) per minute.
6.1.4
Exhaust Provisions.
The exhaust is non-toxic and clean but for extended running, provision should be made for the discharge to take place into a duct leading into the open air. However, there must be a break in the exhaust system, usually in the form of a conical entry, with the turbine exhaust discharging into the centre of the cone. This then ensures that the exhaust gas is diluted and reduces the possibility of the final exhaust gas mixture being inflammable. Incorrect starting procedure can produce inflammable exhaust mixtures and hence the above precautions should be taken.
6.1.5
Lubrication System.
The turbine’s lubricating oil is normally drained before shipment, it is therefore necessary to fill the system with the CRH10 oil supplied.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 6.1.6
Page 20 of 232
Air Flow Manometer.
The air flow manometer has transit plugs fitted to prevent spillage of manometer fluid. Remove these two rubber plugs and connect the two rubber tubes, 1 & 2, noting that their correct orientation is required to measure the pressure differences.
6.1.7
P2 - P3 Manometer.
If the manometer has not been filled with mercury, then remove the two slot head screws from the manometer top plate and fill through the back tube with approximately 35 grams of industrial grade mercury. Ensure that all trapped air has been expelled before replacing the screw. Adjust the zero reading by moving the scale plate to the appropriate position.
6.2
Commissioning.
It is important that the operator should familiarise himself with the operating procedure before attempting to run the unit (see section 7).
6.3 6.3.1
Calibration. Speed Measurement.
The speed measurement circuits on printed circuit board CBA 216 are calibrated prior to dispatch, however, if necessary they can be adjusted without running the gas turbine as follows : a)
Preparatory Work.
Disconnect printed circuit board CBA 216 from its edge connector and re-connect it via a DIN 41612 64 way (rows a and c) extender card. Disconnect the two input co-axial cables from the gas generator and power turbine by unplugging them at the rear of the control box. b)
Gas Generator.
Connect the output from a signal generator to the gas generator speed input socket on the rear of the control box. Adjust the signal generator to produce a sine wave output of one volt peak to peak at a frequency of 2000 Hz. Connect a digital voltmeter between test points TP8 and TP1 and adjust VR10 to give a 10V output signal. Adjust VR11 to span the front panel gas generator speed meter to 2000 rev/sec. c)
Power Turbine.
Connect the signal generator to the power turbine speed input socket on the rear of the control box. Adjust the signal generator to produce a sine wave output of one volt peak to peak at a frequency of 6400 Hz. Connect a digital voltmeter between test points TP4 and TP1 and adjust VR3 to give a 10V output signal. Adjust VR4 to span the front panel gas generator speed meter to 800 rev/sec.
6.3.2
Temperature Measurement.
All the temperature channels are adjusted prior to dispatch and should not require further attention. However, if any channel is found to need to be checked or adjusted the following procedure, which refers to figure 14, should be followed. a)
Preparatory Work.
Disconnect the thermocouple plugs at the rear of the control cubicle. Open the hinge down lid of the control cubicle and pull out the thermocouple printed circuit board CBA 219 from its edge connector and re-connect it via a DIN 41612 64 way (rows a and c) extender card. A calibrated
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 21 of 232
millivolt source will be required to simulate the e.m.f. normally produced by the thermocouple hot junction. A calibrated digital voltmeter will also be required. b)
Pre-amplifier Zero Adjustment.
Set jumpers J1 to J9 on the printed circuit board to position B and adjust the variable resistors, as listed in column 2 of the following table, to give a reading of zero volts at the test points shown in column 3 of the table with respect to test point TP1.
c)
Channel
Adjust
Test Point
1 (T2)
VR1
TP 3
2 (T1)
VRS
TP 5
3 (Tg)
VR9
TP 7
4 (T3)
VR13
TP 9
5 (T4)
VR22
TP 11
6 (T5)
VR26
TP 13
7 (TOil)
VR30
TP 15
8 (spare)
VR34
TP 17
Cold Junction
VR17
TP 2
Pre-Amplifier Full Scale Adjustment.
Set jumpers J1 to J8 to position A. For each channel in turn connect the millivolt source to the thermocouple socket shown in column 2 of the following table and inject the voltage shown in column 3. Adjust the variable resistor listed in column 4 to obtain the voltage shown in column 5 at the test point listed in column 6 (relative to test point TP1). Channel
T/C Socket
mV inject
Adjust
Reading
Test Point
1 (T2)
A
6.54 mV
VR2
-1.6V
TP 3
2 (T1)
B
2.022 mV
VR6
-0.5V
TP 5
3 (Tg)
C
2.022 mV
VR10
-0.5V
TP 7
4 (T3)
D
41.27 mV
VR14
-10V
TP 9
5 (T4)
E
41.27 mV
VR23
-10V
TP 11
6 (T5)
F
41.27 mV
VR27
-10V
TP 13
7 (TOil)
G
8.14 mV
VR31
-2.0V
TP 15
8 (spare)
H
8.14 mV
VR35
-2.0V
TP 17
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine d)
Page 22 of 232
Analogue Output for Data Logging - Full Scale Adjustment.
Set jumpers J1 to J8 to position A. For each channel in turn connect the millivolt source to the thermocouple socket shown in column 2 of the following table and inject the voltage shown in column 3. Adjust the variable resistor listed in column 4 to obtain +10V at the test point listed in column 5 (relative to test point TP1).
e)
Channel
T/C Socket
mV inject
Adjust
Reading
1 (T2)
A
6.54 mV
VR3
TP 4
2 (T1)
B
2.022 mV
VR7
TP 6
3 (Tg)
C
2.022 mV
VR11
TP 8
4 (T3)
D
41.27 mV
VR15
TP 10
5 (T4)
E
41.27 mV
VR24
TP 12
6 (T5)
F
41.27 mV
VR28
TP 14
7 (TOil)
G
8.14 mV
VR32
TP 16
8 (spare)
H
8.14 mV
VR36
TP 18
Cold Junction Compensation.
Set jumper link J9 to position A. Measure the voltage across edge connector pins 21c (+ve) and 22a (-ve) and adjust variable resistor VR38 to obtain the same reading between test points TP2 and TP1. f)
Front Panel Meter - Full Scale Adjustment.
With jumper links J1 to J9 in position A, then for each channel in turn connect the millivolt source to the thermocouple socket shown in column 2 of the following table and inject the voltage shown in column 3. Adjust the variable resistor shown in column 4 to obtain the front panel reading shown in column 5. It will be necessary to depress the appropriate temperature selection buttons on the front panel whilst making these adjustments. Adjustment of channel 8 is not required as it is not connected to a front panel instrument.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
6.3.3
Page 23 of 232
Channel
T/C Socket
mV inject
Adjust
Reading
1 (T2)
A
6.54 mV
VR4
160°C
2 (T1)
B
2.022 mV
VR8
50°C
3 (Tg)
C
2.022 mV
VR12
50°C
4 (T3)
D
41.27 mV
VR16
1000°C
5 (T4)
E
41.27 mV
VR25
1000°C
6 (T5)
F
41.27 mV
VR29
1000°C
7 (TOil)
G
8.14 mV
VR33
200°C
8 (spare)
H
8.14 mV
-
-
Turbine Inlet Temperature - Over Temperature Trip.
With jumper links J and J9 in position A, inject 37.6 mV (equivalent to 907°C) into thermocouple socket D and adjust VR21 so that LED 4 is extinguished. Reduce the injected voltage to 37.4 mV (≡902ºC) and check that LED 4 illuminates and that relay D energises. Increase the injected voltage to 37.6 mV again and check that LED 4 goes out and that relay D de-energises.
6.4 a)
Maintenance. Lubricating Oil.
The oil in this system undergoes little deterioration and is only changed if the system has to be dismantled for any reason. Always use the oil specified - oils of higher viscosity, such as normal motor oils, make starting difficult and reduce the turbine’s overall performance. The oil level should only be half way up the oil tank as gas blow-by may cause overflowing if the tank is too full. After initial filling, run the oil pump for a minute to fill the oil filter etc., and then ensure that the correct oil level in the tank is obtained by adding oil if required. b)
Toothed Turbine-Generator Driving Belt.
The tension of this belt is automatically controlled by a hydraulic ram fed from the lubricating oil circuit.
6.5
Additional Calibration Procedure for P9008 Option.
If the signal conditioning option P9008 has been fitted then additional calibration procedures apply. All of the pressure transducers contain integral amplifiers which are pre-calibrated and sealed by the manufacturer and thus require no further attention. The air and fuel flow measurement and the alternator voltage and current measurement utilise Cussons analogue computing board CBA 220 and although these channels have been factory set prior to dispatch, the following procedures can be applied if the output signal voltages do not confirm the front panel analogue instrumentation.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 6.5.1
Page 24 of 232
Preparatory Work.
Open the hinge-down lid of the control cubicle and pull out the analogue computing printed circuit board CBA 220 from its edge connector and reconnect it via a DIN 41612 64-way (rows a and c) extender card. The four measurement channels involved are each spanned by comparison with the front panel instruments whilst the gas turbine is running. Therefore, start the gas turbine following the normal procedure and establish steady state conditions at a near maximum speed and power output. Adjust the gas pressure regulating valve to obtain a pressure at the gas rotameter of 1.5 bar gauge.
6.5.2
Fuel Flow.
The fuel flow is measured by a 0 - 175 mbar differential pressure transducer connected across an orifice placed in series with the fuel front panel rotameter. The 0 - 5V dc output from the integral transducer amplifier is square rooted and amplified on printed circuit board CBA 220 to give a signal scaled 0 – 0.0016m3/s which will correspond with the rotameter measurement range of 0 - 3.2 g/s when the gas conditions are 15°C and 1.5 bar. Connect the digital voltmeter between test points 9 and 1 and adjust VR10 to obtain a voltage reading of 3.125 times the rotameter reading, (i.e. if the gas flow is 2.0 g/s then the voltage at TP9 should be 3.125 x 2.0 = 6.25V).
6.5.3
Air Flow.
Air flow is sensed by a 0 - 20mbar differential pressure transducer connected directly across the pitot-reversed pitot tube. The 0 - 10V dc output from the transducer amplifier is square rooted and amplified by circuits on the CBA 220 printed circuit board to provide a signal which is proportional to air flow rate. The full scale is taken to be equivalent to a differential pressure of 200mm of H2O which will correspond to an air mass flow of k√200 in gram/second where k is the meter constant shown on the engraved meter plate. Connect the digital voltmeter between test K × 200 points 8 and 1. Apply 200mm H2O, set o/p to × 10 = V o/p at TP8 adjusted by VR9. 175
6.5.4
Alternator Voltage.
The alternator output voltage is detected and measured by a hall effect sensor, which is connected to a root mean square to dc circuit and amplifier on printed circuit board CBA 220. Connect a digital voltmeter between test points TP6 and TP1, check that jumper J1 is in position A. With the power turbine running in a steady state, high power condition, adjust VR4 to give a signal at TP6 of one tenth of the front panel voltmeter instrument reading, (i.e. 6V at TP6 corresponds to 60V on the front panel voltmeter).
6.5.5
Alternator Current.
The alternator current is also sensed by a hall effect device coupled into the alternator output circuit by a torroidal transformer. A similar root mean square to dc circuit is used which is scaled to provide 0 - 10V corresponding to an alternator current output of 0 - 50A. The signal conditioner output is adjusted by VR7 so that the voltage at test point TP7 on CBA 220 gives a voltage reading equal to one fifth of the current. (i.e. If the alternator output current is 25A, then the voltage at TP7 should be 5V).
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
7
OPERATING INSTRUCTIONS
7.1
General.
Page 25 of 232
The Cussons Gas Turbine Unit incorporates a gas generator driving a free power turbine which drives an alternator. The gas generator consists of a centrifugal compressor, a single gas fuelled tubular combustion chamber and a radial turbine. The free power turbine is also of radial design, with a belt drive to the alternator. The unit is designed to permit analysis of the performance characteristics of the gas generator, power turbine and combustion chamber using the instrumentation displayed on the front panel. Operation over a wide range of speed and load is possible which, together with the facility for varying the speed ratio between the gas generator and the power turbine, means that a test programme on the Two Shaft Gas Turbine system can be carried out. By carefully controlling the speed ratio of the gas generator and free power turbine to a constant value, a coupled power turbine can be simulated, whereas if the free power turbine speed is held constant, then the gas generator simulates a single spool turbo jet.
7.2
Starting.
1.
Connect the cooling water supply and drain.
2.
Connect the gas bottle.
3.
Connect the electrical supply.
4.
Set the air inlet control to the start position.
5.
Close the gas valve and open the valve on the gas bottle.
6.
Set the dynamometer excitation to maximum.
7.
Start the oil pump.
8.
Press the reset button.
9.
Start the blower.
10.
Set the gas pressure to 200 Kpa (2.0 bar) with the reducing valve.
11.
Press the ignition button and hold it in whilst opening the gas valve to give a gas flow of 0.5 g/s.
12.
If ignition, as shown by an increase in T3, does not occur within 5 seconds of gas flow commencing, close the gas valve to allow unburnt gas to clear the system before continuing from item 11.
13.
Release the ignition button.
14.
Open the gas valve slowly to give a gas generator speed of 1000 rev/s taking care to keep combustion chamber temperature below 900°C (this operation may take some minutes depending on the oil temperature).
15.
Turn the air inlet control to the run position.
16.
Switch off the blower.
7.3 1.
Operating Limitations. During the test programme the following limits must not be exceeded :
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 26 of 232
Gas generator speed 2000 rev/s Power turbine speed 600 rev/s Gas generator turbine inlet temperature 900°C 2.
Set the gas pressure to 150 KPa (1.5 bar) before making fuel flow readings.
3.
The gas turbine unit has certain safety features built into it. If the combustion chamber temperature T3 is allowed to exceed 900°C due to overfuelling, or if the oil pressure falls below 150 KPa (1.5 bar), then the gas supply will be shut off by means of a solenoid valve. To re-start the turbine after operation of the solenoid valve, follow starting instructions 4 - 17.
7.4
Stopping.
1.
Close the valve on the gas bottle.
2.
Close the gas valve.
3.
Once the turbines have stopped reset the air inlet control to the start position.
4.
Re-start the blower.
5.
When T4 has dropped below 80°C and the oil temperatuer drops below 40°C :
7.5 7.5.1
i)
Switch off the blower.
ii)
Switch off the oil pump.
iii)
Turn off the gas supply.
iv)
Turn off the water supply.
v)
Turn off and disconnect the electrical supply.
Notes on Operating Instructions. Starting.
When ignition initially occurs, a slight ‘pop’ is heard, and a sharp rise of combustion chamber temperature (T3) takes place. If the gas valve is then opened too quickly, T3 will rise above 950°C and the over temperature protection will operate. Should this occur, close the gas valve, press the ‘reset’ button and restart the turbine as in 7.2 Starting. Whilst accelerating T3 should be kept below 850°C by ‘slowly’ opening the gas valve as the turbine speed increases. When the gas generator speed reaches 1000 rps, leave the gas valve in this position and turn the air inlet control switch to the run position and switch off the blower.
7.5.2
Operation.
When varying the load on the power turbine, sudden large movements of the dynamometer exciter control should be avoided, so that high transient belt loads (which may cause the belt to jump the pulleys and cause damage) can be avoided. It is convenient when taking a set of readings to first set the fuel flow at the desired level by adjustment of the fuel control valve, and then (if required) trimming the reducing valve to give a fuel supply pressure of 150 KPa (1.5 bar).
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 7.5.3
Page 27 of 232
Stopping.
When the turbine has been stopped and the system is being cooled by operating the blower, it is essential to leave the blower running until the temperature of T4 has dropped to less than 80°C and the oil temperature to less than 40°C.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
Page 28 of 232
FIG. 1
FRONT PANEL LAYOUT OF GAS TURBINE UNIT
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 29 of 232
A - INLET AIR SILENCER B - COMPRESSOR C - COMBUSTION CHAMBER D - GAS GENERATOR TURBINE E - POWER TURBINE F - EXHAUST SILENCER G - STARTING AIR COMPRESSOR H - DYNAMOMETER I - OIL RESERVOIR J - OIL PUMP K - OIL COOLER L - MAINS ELECTRICAL INPUT M - OVER-TEMPERATURE CUT OUT FIG. 2
cussons
—TECHNOLOGY Ltd—
REAR VIEW OF GAS TURBINE UNIT
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 30 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 31 of 232
Flow Patterns in a Single Circular Combustion Chamber.
FIG. 4
cussons
—TECHNOLOGY Ltd—
INNER COMBUSTION CHAMBER DETAILS
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIG. 5
cussons
—TECHNOLOGY Ltd—
Page 32 of 232
AC 7 ALTERNATOR CALIBRATION 102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
Page 33 of 232
FIG. 6
LUBRICATION SYSTEM
(P9005/245 ONWARDS)
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
Page 34 of 232
FIG. 6 LUBRICATION SYSTEM
(UPTO P9005/244)
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 35 of 232
m& C CORRECTED AIR FLOW @ 288 K and 1.01325 bar (kg√K/s bar)
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 36 of 232
Fig 8 - Gas Generator Turbine Characteristic 1.5
Tt3 = Total Turbine Inlet Temp (K) Pt3 = Total Turbine Inlet Pressure (bar Abs)
1.45
Pt4 = Total Turbine Outlet Pressure (bar Abs) & = Mass Flow Rate (kg/sec) m
Turbine Expansion Ratio
1.4
Pt3 = Turbine Expansion Ratio Pt 4 1.35
& Tt 3 m Pt 3
= Semi Dimensional Mass Flow Parameter (kg√K/s)
1.3
1.25
1.2
1.15 2
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
Semi-dimensional Mass Flow Paramater
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
2.9
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 37 of 232
Fig 9 - Free Power Turbine Characteristic 1.16
Tt4 = Total Turbine Inlet Temp (K)
1.15
Pt4 = Total Turbine Inlet Pressure (bar Abs)
Turbine Expansion Ratio
1.14
Pt5 = Total Turbine Outlet Pressure (bar Abs)
1.13
& = Mass Flow Rate (kg/sec) m
1.12
Pt 4 = Turbine Expansion Ratio P5
1.11
& Tt 4 m Pt 4
1.1
= Semi Dimensional Mass Flow Parameter (kg√K/s)
1.09 1.08 1.07 1.06 1.05 2
2.2
2.4
2.6
2.8
3
3.2
3.4
3.6
3.8
Semi-dimensional Mass Flow Parameter
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
4
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIGURE 10
cussons
—TECHNOLOGY Ltd—
Page 38 of 232
PRINTED CIRCUIT BOARD CBA 216 (SPEED) 102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 39 of 232
Two Shaft Gas Turbine Test Results FUEL FLOW
AIR FLOW
Mf
Tg
Pg
gram/sec
ºC
KPa
2.34
18.26
154
2.12
18.47
1.87
g/sec
OIL
PRESSURES
TEMPERATURES
SPEEDS
POWER OUTPUT
P-RP
Toil
P3
P4
P2-P3
T1
T2
T3
T4
T5
G.G
P.T
Voltage
Current
Correct
Power
mm H2O
ºC
bar
bar
mm Hg
ºC
ºC
ºC
ºC
ºC
rev/sec
rev/sec
V
A
Factor
WATTS
148.72
64.40
0.69
0.15
18.99
93.98
726.07
624.76
501.95
1514.16
612.11
64.50
29.80
1922.0
148
134.45
65.63
0.58
0.13
18.77
83.59
713.38
622.31
505.86
1398.44
608.59
54.69
25.62
1401.2
19.06
150
120.53
62.89
0.48
0.10
19.17
74.45
699.71
615.97
500.73
1281.25
602.73
44.78
21.28
952.7
1.69
19.56
152
107.92
60.50
0.40
0.09
19.31
67.07
700.20
618.65
501.95
1179.69
611.33
35.84
17.26
618.6
1.54
19.92
154
96.51
58.64
0.33
0.08
19.25
60.94
712.16
630.13
511.23
1085.45
608.01
27.42
13.35
366.1
1.43
21.09
150
83.91
56.45
0.27
0.06
19.54
55.27
747.31
656.25
529.05
977.05
608.59
14.92
7.30
108.9
T3 OVER TEMPERATURE SETTING
900ºC
PITOT - REVERSE PITOT CONSTANT
DATE TEST COMPLETED
BELT TENSIONING RAM PRESSURE
KPa
AIR FLOW CALIBRATION EQUATION:-
TEST ENGINEERS SIGNATURE
M air
=
11.51{h} 0.5
Remarks
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine FIG. 11
Page 40 of 232
P9005 GAS TURBINE TEST SHEET
SERIAL NUMBER FUEL FLOW
AIR FLOW
Mf
Tg
Pg
gram/sec
ºC
KPa
g/sec
OIL
PRESSURES
TEMPERATURES
SPEEDS
POWER OUTPUT
P-RP
Toil
P3
P4
P2-P3
T1
T2
T3
T4
T5
G.G
P.T
Voltage
Current
Correct
Power
mm H2O
ºC
KPa
KPa
mm Hg
ºC
ºC
ºC
ºC
ºC
rev/sec
rev/sec
V
A
Factor
WATTS
T3 OVER TEMPERATURE SETTING
ºC
PITOT - REVERSE PITOT CONSTANT
DATE TEST COMPLETED
WATER THERMOSTAT SETTING
ºC
AIR FLOW CALIBRATION EQUATION:-
TEST ENGINEERS SIGNATURE
BELT TENSIONING RAM PRESSURE
KPa
M air
=
{h}
0.5
TEST SUPERVISORS SIGNATURE
Remarks
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIG. 12
Page 41 of 232
CORRECTION FACTOR CURVES FOR FUEL FLOWMETER REF. R768146-55 WHEN USED WITH PROPANE
AT 150 KPa (1.5 bar) GAUGE AND VARIOUS TEMPERATURES
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 42 of 232
FIGURE 13
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIGURE 14
cussons
—TECHNOLOGY Ltd—
Page 43 of 232
PRINTED CIRCUIT BOARD 219 (TEMPERATURES) 102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIGURE 15
cussons
—TECHNOLOGY Ltd—
Page 44 of 232
PRINTED CIRCUIT BOARD 220 (ANALOGUE COMPUTING) P9008 OPTIONAL EXTRA
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 45 of 232
FIGURE 16
cussons
—TECHNOLOGY Ltd—
OVERALL SCHEMATIC DIAGRAM 102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 46 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
8
Page 47 of 232
APPENDIX I – A FIRST COURSE IN GAS TURBINE TECHNOLOGY
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 48 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 49 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 50 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 51 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 52 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 53 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 54 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 55 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 56 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 57 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 58 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 59 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 60 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 61 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 62 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 63 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 64 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 65 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 66 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 67 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 68 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 69 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 70 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 71 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 72 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 73 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 74 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 75 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 76 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 77 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 78 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 79 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 80 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 81 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 82 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 83 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 84 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 85 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 86 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 87 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 88 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 89 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 90 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 91 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 92 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 93 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 94 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 95 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 96 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 97 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 98 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 99 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 100 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 101 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 102 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 103 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 104 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 105 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 106 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 107 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 108 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 109 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 110 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 111 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 112 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 113 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 114 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 115 of 232
9
APPENDIX II – POWER TURBINE
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 116 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 117 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 118 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 119 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 120 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 121 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 122 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 123 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 124 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 125 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 126 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 127 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 128 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 129 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 130 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 131 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 132 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 133 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 134 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 135 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 136 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 137 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 138 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 139 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 140 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 141 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 142 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 143 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 144 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 145 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 146 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 147 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 148 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 149 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 150 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 151 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 152 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 153 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 154 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 155 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 156 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 157 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 158 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 159 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 160 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 161 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 162 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 163 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 164 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 165 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 166 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 167 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 168 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 169 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 170 of 232
10
APPENDIX III – GAS GENERATOR
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 171 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 172 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 173 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 174 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 175 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 176 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 177 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 178 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 179 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 180 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 181 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 182 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 183 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 184 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 185 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 186 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 187 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 188 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 189 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 190 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 191 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 192 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 193 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 194 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 195 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 196 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 197 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 198 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 199 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 200 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 201 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 202 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 203 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 204 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 205 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 206 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 207 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 208 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 209 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 210 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 211 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 212 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 213 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 214 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 215 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 216 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 217 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 218 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 219 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 220 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 221 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 222 of 232
11
APPENDIX IV – LOADING UNIT
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 223 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 224 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 225 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 226 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 227 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 228 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 229 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 230 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 231 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 232 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
Page 1 of 232
P9005 CUSSONS TWO SHAFT GAS TURBINE UNIT P9008 DATA LOGGING OPTION
ISSUE 15 January, 2004
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 2 of 232
TABLE OF CONTENTS 1
RECEIPT AND UNPACKING ......................................................................................6
2
HEALTH AND SAFETY WARNINGS AND PRECAUTIONS ........................................... 7 2.1
Manufacturers Liability. ..................................................................................... 7
2.2
Safety.................................................................................................................. 7
2.2.1
Electrical Equipment. ........................................................................................ 8
2.2.2
Rotating Equipment. ......................................................................................... 8
2.2.3
High Temperature Equipment............................................................................ 8
2.2.4
Corrosive Chemicals.......................................................................................... 9
2.2.5
Noise............................................................................................................... 9
3
INTRODUCTION......................................................................................................10
4
GENERAL SPECIFICATION .....................................................................................11
5
4.1
General..............................................................................................................11
4.2
Gas Generator...................................................................................................11
4.3
Power Turbine. .................................................................................................11
4.4
Loading Alternator with Silicon Diode Rectifying Circuit................................11
4.5
Instrumentation. ..............................................................................................11
4.5.1
Pressure Measurement.................................................................................... 11
4.5.2
Flow Measurement. ........................................................................................ 11
4.5.3
Temperature Measurement. ............................................................................ 12
4.5.4
Speed Indicators. ........................................................................................... 12
4.5.5
dc Measurement............................................................................................. 12
DESCRIPTION.........................................................................................................13 5.1
General..............................................................................................................13
5.2
Gas Generator...................................................................................................13
5.2.1
Compressor. .................................................................................................. 13
5.2.2
Combustion Chamber. .................................................................................... 13
5.2.3
Turbine. ........................................................................................................ 13
5.3
Power Turbine. .................................................................................................14
5.4
Loading System for Power Turbine..................................................................14
5.5
Starting System. ...............................................................................................14
5.6
Ignition System. ...............................................................................................14
5.7
Lubrication System...........................................................................................14
5.8
Instrumentation. ..............................................................................................15
5.8.1
Temperature.................................................................................................. 15
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 5.8.2
Pressure. ....................................................................................................... 15
5.8.3
Air Flow Rate. ................................................................................................ 15
5.8.4
Fuel Flow Rate. .............................................................................................. 16
5.8.5
Rotational Speeds........................................................................................... 16
5.8.6
Power Output................................................................................................. 16
5.9
Operational Interlocks. ....................................................................................16
5.9.1
Turbine Over Temperature.............................................................................. 17
5.9.2
Loss of Oil Pressure. ....................................................................................... 17
5.9.3
Starter Blower Motor. ..................................................................................... 17
5.9.4
Oil Pump Motor. ............................................................................................. 17
5.9.5
Electrical Power Failure. .................................................................................. 17
5.10 6
Signal Conditioning for Data Logging (P9008 optional extra). ...................17
INSTALLATION, COMMISSIONING, CALIBRATION AND MAINTENANCE.............19 6.1
7
Page 3 of 232
Installation. ......................................................................................................19
6.1.1
Electrical Supply. ............................................................................................ 19
6.1.2
Fuel Supply.................................................................................................... 19
6.1.3
Water Supply. ................................................................................................ 19
6.1.4
Exhaust Provisions.......................................................................................... 19
6.1.5
Lubrication System. ........................................................................................ 19
6.1.6
Air Flow Manometer........................................................................................ 20
6.1.7
P2 - P3 Manometer......................................................................................... 20
6.2
Commissioning. ................................................................................................20
6.3
Calibration. .......................................................................................................20
6.3.1
Speed Measurement. ...................................................................................... 20
6.3.2
Temperature Measurement. ............................................................................ 20
6.3.3
Turbine Inlet Temperature - Over Temperature Trip.......................................... 23
6.4
Maintenance. ....................................................................................................23
6.5
Additional Calibration Procedure for P9008 Option........................................23
6.5.1
Preparatory Work. .......................................................................................... 24
6.5.2
Fuel Flow....................................................................................................... 24
6.5.3
Air Flow......................................................................................................... 24
6.5.4
Alternator Voltage. ......................................................................................... 24
6.5.5
Alternator Current. ......................................................................................... 24
OPERATING INSTRUCTIONS.................................................................................. 25 7.1
General..............................................................................................................25
7.2
Starting. ............................................................................................................25
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 4 of 232
7.3
Operating Limitations.......................................................................................25
7.4
Stopping............................................................................................................26
7.5
Notes on Operating Instructions. ....................................................................26
7.5.1
Starting. ........................................................................................................ 26
7.5.2
Operation. ..................................................................................................... 26
7.5.3
Stopping........................................................................................................ 27
8
APPENDIX I – A FIRST COURSE IN GAS TURBINE TECHNOLOGY ........................47
9
APPENDIX II – POWER TURBINE ........................................................................115
10
APPENDIX III – GAS GENERATOR ....................................................................170
11
APPENDIX IV – LOADING UNIT ........................................................................222
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 5 of 232
ILLUSTRATIONS AND GRAPHS Figure 1
Front Panel Layout of Gas Turbine Unit
Figure 2
Rear View of Gas Turbine Unit
Figure 3
Electrical Component Layout on Control Panel
Figure 4
Inner Combustion Chamber
Figure 5
AC 7 Alternator Calibration
Figure 6
Lubrication System
Figure 7
Gas Generator Compressor Characteristics
Figure 8
Gas Generator Turbine Characteristics
Figure 9
Free Power Turbine Characteristics
Figure 10
Printed Circuit Board CBA 216 (Speed)
Figure 11
P9005 Gas Turbine Test Sheet
Figure 12
Correction Factor Curves for Fuel Flowmeter
Figure 13
Installation Details
Figure 14
Printed Circuit Board CBA 219 (Temperatures)
Figure 15
Printed Circuit Board CBA 220 (Analogue Computing) Optional Extra
Figure 16
Overall Schematic Diagram
APPENDICES App. I
A First Course In Gas Turbine Technology – T.H. Frost Section 1 Section 2 Section 3 Section 4
App. II
Power Turbine
App. III
Gas Generator
App. IV
Loading Unit
cussons
—TECHNOLOGY Ltd—
Fundamental Concepts Types and Arrangements of Engine Components Test Techniques A Complete Test and Analysis Programme
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
1
Page 6 of 232
RECEIPT AND UNPACKING
Irrespective of who has arranged the carriage and insurance of the goods, the carriers and insurers require that claims for loss of damage are submitted within a specified period after receipt of the goods. This period is often as short as 72 hours. It is important therefore for the customer to carry out the following procedure as soon as the equipment is received. a) On receipt, the goods should be signed for “unexamined”. b) Immediately unpack and check the equipment against the dispatch checklist / packing lists enclosed with the equipment. c) Advise the carrier within 72 hours of receipt, of any damaged or missing items, holding them responsible for the damage or loss. A copy of this advice document must also be sent to Cussons Technology Ltd. d) If you have arranged insurance you must advise your insurers of the damage/loss enclosing a copy of the advice document that you have submitted to the carrier. e) If Cussons Technology Ltd. arranged insurance, you must advise the local agent at the address indicated on the original Insurance Certificate in your possession. A copy of this advice document must also be sent to Cussons Technology Ltd. You should retain all evidence of loss or damage. Claims for loss or damage cannot be entertained if the above procedures are not adhered to.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 7 of 232
2
HEALTH AND SAFETY WARNINGS AND PRECAUTIONS
2.1
Manufacturers Liability.
Cussons Technology Ltd. hereby draws the attention of all users of its equipment to the UK. Health and Safety at Work Act, or of any similar provisions relating to health and safety of people at work in other countries and territories, which refer to the liability of manufacturers or suppliers of equipment. Under the U.K. Act manufacturers or suppliers of equipment cannot be liable for the consequence of its use unless it is installed, maintained and operated strictly in accordance with the instructions published by the manufacturers or suppliers. This same limit of liability is hereby assumed by Cussons Technology Ltd. to be valid in all countries or territories. Therefore Cussons Technology Ltd will not be liable for any consequence of failure to heed warnings and precautions, improper installation or maintenance, improper use or incorrect operation of equipment, unless specifically authorised in writing by the Company in advance of their implementation, will invalidate equipment warranty and absolve Cussons Technology Ltd from liability. Cussons Technology Ltd. recognises the need for equipment to be safe to operate and to be fit for the purpose for which it is designed. The Company pays considerable attention to these aspects and designs and manufacturers equipment to the highest safety standards with highly visible quality assurance. Where applicable Cussons products incorporate the CE Mark indicating that the product conforms to relevant EU “New Approach” Directives. Compliance with these requirements can only be assured when the equipment has been properly installed and maintained within the intended environment. It is particularly important that all guards, covers, doors and other protective or screening devices are correctly fitted whilst products are operated. Typically Cussons products are designed for operation in applications designated under the directives as an “industrial environment”. Users intending to install or operate equipment in other environments should seek specific advice concerning additional or alternative measures that should be considered. Any customers requiring further advice on safety aspects concerning installation, and use of Cussons equipment should write to the company at the following address giving full details of the equipment, it’s serial number and the exact details of their enquiry: Cussons Technology Ltd 102 Great Clowes Street, Manchester, M7 1RH, U.K. Telephone +44 (0)161 833 0036 Facsimile +44 (0)161 834 4688 Email: [email protected]
2.2
Safety.
Before proceeding to install, commission or operate this equipment you are directed to read the following safety notes. The notes are intended to help you to be aware of potential hazards and
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 8 of 232
thereby avoid accidents. Where appropriate, further information and recommendations are incorporated in the main body of this manual. In all cases the requirements of relevant local health and safety regulations should be complied with.
2.2.1
Electrical Equipment. This equipment operates from a mains voltage electrical supply. Electrical installation and maintenance must therefore only be carried out by a competent electrical engineer in accordance with local regulations and the following notes. a)
Installation.
Ensure that the electrical supply voltage, frequency and configuration are compatible with this equipment, which requires a single/three phase supply and a reliable protective earth or ground connection. To minimise danger, as the supply is connected by a trailing lead**, it is recommended that a high sensitivity (30mA) residual current device which is designed for personnel protection, should be incorporated in the supply. The electrical supply and connecting cable should be suitably rated with respect to current, temperature and physical protection for the conditions of use. The supply outlet should be suitably labelled and must incorporate an independent means of isolating the supply and be fitted with a suitable over-current protection device. b)
Maintenance.
Always isolate the equipment from the electrical supply when the equipment is not in use. Always isolate the equipment from the electrical supply before removing the front or rear panels to expose any part that in operation, carries a potential in excess of 30V dc. or 50V ac. The equipment should be periodically inspected and tested to ensure continued safety.
2.2.2
Rotating Equipment. This equipment contains rotating parts, which rotate at very high rotational speeds. The equipment is provided with guards and the equipment must therefore only be operated with the guards in position. If for any reason the guards are removed then there is a serious risk of the rotating parts causing the entrapment of loose clothing, hair, items of jewellery or parts of the body etc. Consequently the equipment must not be operated without the guards being properly fitted.
2.2.3
High Temperature Equipment During operation this equipment contains parts and water/air at high temperature. To minimise associated hazards the following precautions must be taken: a)
The equipment must be installed and maintained by a competent engineer in accordance with local regulations and codes of practice.
b)
Before operating read and understand the instructions given. Avoid the dangerous release of hot fluids, e.g. by opening the wrong valves. Leakage’s from valves and joints should be investigated and rectified as soon as possible.
c)
Avoid contact with hot surfaces as serious burns can result. If necessary the operator should wear protective gloves.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine d)
Page 9 of 232
The equipment must be subject to periodic inspection and testing to ensure continued suitability for use. This should include as applicable: i) The Integrity of all vessels, containers, pipe work, and valves ii) The integrity of all guards and insulation iii) The operation of safety devices such as thermostats
e)
2.2.4
Implement any instructions that are designed to minimise corrosion or other deterioration including the proper treatment of boiler feed water and condenser cooling water.
Corrosive Chemicals. When used for pH control experiments this equipment requires the use of dilute aqueous solutions of corrosive chemicals. The equipment is designed for use with dilute sulphuric acid up to a concentration of 1M (2N) and dilute sodium hydroxide up to a concentration of 1M (1N). Use of these chemicals at stronger concentrations can not be recommended and is not approved by Cussons Technology Ltd., similarly the equipment is not intended for use with other chemicals. In practice satisfactory results can be obtained with using 0•05M sulphuric acid and 0•01M sodium hydroxide as the strongest solutions and diluting them down by factors of 10, 100 and a 1000 to obtain weaker solutions. Data sheets on the handling of dilute sulphuric acid solutions and dilute sodium hydroxide solutions are given in Appendix 1.
2.2.5
Noise. Wearing ear defenders is recommended in noisy environment in excess of 85 dBa.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
3
Page 10 of 232
INTRODUCTION
The P9005 Cussons Gas Turbine Unit is a full two shaft machine with built in air starting system and electrical loading unit. All operational instrumentation and controls are to be found on the large coloured schematic diagram panel mounted at a convenient operating height. Light indicators and clear reading instruments enable the operator to be aware of circuit conditions at a glance. The equipment employs an automotive turbocharger together with a gaseous fuelled combustion chamber to form the gas generator section of the engine. The exhaust from the gas generator is directed through a radial power turbine which drives a variable frequency alternator which disipates the generated power in a resistive load bank. From the power turbine the gases pass through a silencer to be discharged into the atmosphere. Since the unit is mobile it can easily be sited adjacent to its required electrical, fuel, water and exhaust facilities, and even when operating at high speed it has only a relatively low noise level. Signal conditioning for data logging purposes can be provided as an optional extra by the factory fitted P9008 Data Logging Option available from serial number 206 onwards. The P9008 option provides 0-10V dc analogue signals for all measured parameters.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
4
GENERAL SPECIFICATION
4.1
General.
Page 11 of 232
Note that from Serial No. 167 onwards, the Gas Turbine Unit has been tropicalised and is generally suitable for use in ambient temperatures of up to 40ºC and ambient conditions of up to 80% relative humidity.
4.2
Gas Generator.
The gas generator consists of a single stage centrifugal compressor, a single gaseous fuelled combustion chamber and a single stage radial turbine. The compressor and turbine are mounted back to back on a short shaft supported in a journal bearing. The compressor impellor has a tip diameter of 72mm whilst the radial turbine has a throat area of 16cm² and a tip diameter of 70mm. The gas generator operates at a pressure ratio of approximately 2:1 and speed range of 500 to 2000 rev/sec. The combustion chamber and the associated instrumentation are designed for use with propane C3H8 but may be used with a mixture of propane and butane C4H10 provided that the pressure in the supply bottle is sufficient to inject the fuel into the combustion chamber.
4.3
Power Turbine.
90mm diameter, single stage radial turbine operating over the range 170 to 600 rps and developing a maximum power of approximately 4 kW.
4.4
Loading Alternator with Silicon Diode Rectifying Circuit.
3 phase alternator with manually controlled excitation supplying a 3 phase bridge rectifier circuit giving a variable dc output of up to 75 volts with a current rating of up to 35 amps (approximately).
4.5
Instrumentation.
4.5.1 Pressure Measurement. 0 – 1600 KPa (0 – 16 bar)
Gas Bottle supply indicator
0 – 400 KPa (0 – 4 bar)
Combustion chamber inlet gas pressure
0 – 250 KPa (0 – 2 bar)
Combustion chamber pressure
p3
0 – 40 KPa (0 – 0.4 bar)
Power Turbine inlet pressure
p4
0 – 10 cmHg
Combustion chamber pressure loss (p2 is compressor outlet pressure)
p2 - p3
0 – 1000 KPa (0 – 10 bar)
Lubricating oil pressure
4.5.2 Flow Measurement. 0.4 – 3.3 g/s
Fuel flow (propane 15°C, 1.5 bar g)
0 – 200 mmH2O
Inlet air flow
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 4.5.3
Page 12 of 232
Temperature Measurement.
All temperatures are measured using NiCr/NiAl type K thermocouples 0 – (16 x 10)°C
Inlet air temperature
T1
Compressor outlet temperature
T2
Fuel inlet temperature
Tg
0 – (10 x 100)°C to measure : Gas generator turbine inlet temperature
T3
Power turbine inlet temperature
T4
Power turbine exhaust temperature
T5
0 – 40/120°C to measure : Lubricating oil temperature
4.5.4
T0
Speed Indicators.
0 – 2000 rps
Gas generator speed
0 – 800 rps
Power turbine speed
The tachometers are electronic, direct reading.
4.5.5
dc Measurement.
Mean dc ammeter
0 – 50 amps
de Voltmeter
0 – 100 volts
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
5
DESCRIPTION
5.1
General.
Page 13 of 232
Cussons P9005 Two Shaft Gas Turbine Unit is a self contained equipment with the gas generator, power turbine, loading unit, instrumentation and controls all housed on a castor mounted framework, giving a degree of mobility. Thus the Unit can be tidily stored when not in use and then readily positioned near the required services, when it is required to be run. The services required are : a)
The Unit requires to be positioned under an exhaust duct so that the gas turbine exhaust products can be extracted if prolonged running is contemplated.
b)
A cooling water supply is required for the oil cooler.
c)
A drain is required to cater for the oil cooling water.
d)
A single phase electrical power supply.
e)
A suitable gaseous fuel supply.
The instrumentation and controls for the Unit are incorporated in a large coloured schematic diagram of the system - see Fig. 1 Front Panel Layout of Gas Turbine Unit. This diagram is invaluable as an aid to understanding the complete functioning of the Gas Turbine Unit. Fig. 2 Rear View of Gas Turbine Unit illustrates the physical disposition of all the major components.
5.2
Gas Generator.
The single shaft gas generator comprises a centrifugal compressor, a tubular combustion chamber and a radial turbine (Fig. 2, Refs. B, C and D). The compressor and gas generator turbine are close coupled with the shaft located in a central housing by hydrodynamic bearings (see Appendix 2 for further details).
5.2.1
Compressor.
The compressor is a single sided centrifugal type with a multi-bladed aluminium alloy impeller, and an unbladed diffuser volute casing with tangential exit.
5.2.2
Combustion Chamber.
The single vertical combustion chamber is of conventional design, incorporating a flame tube with central fuel injector for gaseous fuels. The combustion chamber is shown in Fig. 4 Inner Combustion Chamber. The flame tube divides the incoming air flow into ‘primary’ and ‘secondary’ air, with a stabilised combustion zone and tertiary dilution air. A spark igniter is mounted in the side of the combustion chamber for starting purposes. To allow a compressor air bleed to be taken from the chamber an air valve is incorporated in the top of the combustion chamber outer casing.
5.2.3
Turbine.
The gas generator turbine is a single inward flow radial design with a volute type inlet casing.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 5.3
Page 14 of 232
Power Turbine.
The power turbine is also, as with the gas generator, based on an automotive turbocharger, but in this case the compressor has been replaced with a toothed pinion to provide a belt drive to the electric generator unit (see Appendix I for further details).
5.4
Loading System for Power Turbine.
The power turbine drives a separately excited 3 phase alternator via a toothed belt having a 4½ to 1 speed reduction. The alternator incorporates an internal 3 phase bridge rectifying circuit which gives a dc output of 75 volts. The tension of the toothed driving belt is automatically controlled by the hydraulic ram (Fig. 6 Lubrication System), which is fed from the lubricating oil system. The dc output of the rectifying circuit is resistively loaded - thus imposing a load on the alternator and hence the driving turbine. The output voltage of the alternator can be varied by adjustment of the excitation voltage applied to the alternator field coils. This causes the power loading on the alternator (and hence the turbine) to be easily variable over the required operating range. Readings of mean dc output voltage and current can be used to calculate the dc power loading and using Fig. 5 AC 7 Alternator Calibration, an “Efficiency” figure which takes into account drive, alternator, and rectifier circuit efficiencies can be determined. The power loading on the turbine is then given by : calculated dc power loading % efficiency figure
5.5
Starting System.
The gas generator is started by blowing air from a centrifugal fan onto the compressor of the gas generator. Two butterfly valves, ganged together and operated by a start-run control from the front panel, are used to close off the normal air inlet silencer connection and direct air from the fan onto the compressor. The fan is used throughout the starting sequence until self-sustaining speed is reached. It is also used to obtain assisted cooling after shut down in order to reduce the cool down time.
5.6
Ignition System.
A high energy ignition system is used to provide a continuous spark between the electrodes of a conventional automotive sparking plug mounted on the combustion chamber casing and positioned so that the electrodes are just inside the flame tube at the edge of the primary combustion zone.
5.7
Lubrication System.
The gas generator compressor-turbine and the power turbine bearings are lubricated by a continuous circulation lubricating system, which is shown schematically in Fig. 6. The system comprises an oil tank, separately driven gear pump, oil filter and a water cooled oil cooler. The pump draws oil from the tank and passes it through the full flow oil filter and oil cooler, directly to the main bearings from which free flowing drain pipes lead back to the oil tank. The system is protected by an oil pressure switch to shut down the gas turbine in the event of low oil pressure. A small oil bleed from the main pressure supply pipe is taken to supply the belt tensioning hydraulic ram. The recommended lubricant is Burmah Castrol “Assurnn T + 10” which is a low viscosity monograde mineral based detergent oil with an anti-oxidant additive formulated for use
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 15 of 232
with turbocharged Diesel engines. The normal operating pressure of the lubrication system is 400 to 450 Kpa (4 – 4.5 bar) on starting from cold with the pressure dropping towards 200 Kpa (2 bar) as the working temperature in the oil tank rises. The oil cooler ensures that the temperature of the oil fed to the bearings is maintained at approx. 80ºC.
5.8
Instrumentation.
Instrumentation for both operational and experimental measurement is integrated into the coloured schematic diagram on the instrument and control panel.
5.8.1
Temperature.
From serial number 206 all seven temperatures are measured using type K NiCr/NiAl thermocouples, whereas previous models used diodes for low temperatures and thermocouples for high temperatures. The seven temperature channels are : T1
Air inlet temperature
T2
Gas generator compressor exit temperature
T3
Gas generators turbine inlet temperature
T4
Power turbine inlet temperature
T5
Power turbine exit temperature
Tg
Gas (fuel) temperature
To
Oil (lubricant) temperature
All the thermocouples are connected via a cold junction compensation unit and break-out unit to Cussons eight channel thermocouple printed circuit board CBA 219. For each channel there are two independent outputs, one is for the front panel instrumentation while the other is a 0 - 10V dc analogue output available for input to a data logger, computer input or chart recorder. Three front panel analogue temperature indicators are provided. The three high temperatures T3, T4 and T5 are connected to a 1000°C meter, via cascaded push buttons to read T4 and T5. With neither button depressed the meter reads T3. Similarly T1, T2 and Tg are connected to a 120°C meter which normally reads T2 unless either the T1 or Tg button is pressed. The oil thermocouple is permanently connected to the 120°C oil meter.
5.8.2
Pressure.
Conventional Bourdon tube pressure gauges are used to measure all pressures other than the combustion chamber pressure loss (p2 – p3) which is obtained from a differential mercury manometer. Snubbers are fitted in the P2, P3 and P4 pressure lines.
5.8.3
Air Flow Rate.
The air flow is measured at the inlet to the gas generator compressor by a pitot-reverse pitot tube connected to a differential manometer on the front panel. The air mass flow rate is given by : m& where k ∆h
=
k √∆h g/sec
=
calibration constant (determined by Cussons and engraved on the unit)
=
differential pressure mmH2O
The pitot-reverse pitot method is used as it is not so sensitive as a pitot-static tube to flow pattern distortion effects.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 5.8.4
Page 16 of 232
Fuel Flow Rate.
A conventional tapered tube and float flow meter calibrated for gaseous propane at 150 Kpa.g (1.5 bar.g) and 15°C, is used to measure the fuel flow rate. Readings will need to be corrected for other temperatures by using Fig. 12. If a butane-propane fuel mixture is used then the flow meter readings can be corrected by multiplying by the square root of the quotient of the densities of propane and the mixture of propane/butane, i.e. m& mixture
=
m& reading
ρ propane ρ mixture
If the readings are taken at a pressure of 150 Kpa (1.5 bar) and a temperature of 15°C (which are the calibration conditions for the flow meter) then the multiplicative correction factor is ρ propane ρ mixture
44 44Ρ + 58Β
=
where P = fraction of propane in mixture B = fraction of butane in mixture
5.8.5
P
B
Correction Factor
1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0
0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
1.000 0.984 0.970 0.955 0.942 0.929 0.916 0.904 0.893 0.882 0.871
Rotational Speeds.
The gas generator speed and free power turbine speed are both measured using two channels of a four channel frequency to dc conversion printed circuit board CBA 216. The signal for the gas generator is provided by an inductive pick up sensing a magnetic nut at the compressor eye, whilst the power turbine speed is obtained by sensing the ac voltage output of the alternator.
5.8.6
Power Output.
The turbine power output can be calculated from the dc voltage applied and current flowing to the resistive load bank, together with the curve Fig. 5 giving the relationship between dc power measured and an efficiency factor which takes into account belt, alternator and rectifying circuit efficiencies.
5.9
Operational Interlocks.
A number of operational interlocks or protection devices are built into the service systems to ensure safe operation of the gas turbine. Pressing the RESET button will energise relay R1 and hence make the fuel, ignition and starting systems operational. The RESET button is a
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 17 of 232
momentary switch which will self latch only if the interlocks associated with the oil pressure switch, the over temperature cut-out and the starter blower motor thermal trip are correctly positioned.
5.9.1
Turbine Over Temperature.
A comparator circuit contained within the eight channel temperature printed circuit board continuously monitors the turbine inlet temperature T3. In the event of T3 exceeding the limit set by the comparator circuit, relay R1 will be unlatched thus switching off the ignition system and starting blower. The fuel shut-off solenoid valve will also be de-energised.
5.9.2
Loss of Oil Pressure.
An oil pressure switch monitors the pressure of the oil used to supply the oil circuit and if its pressure falls too low the oil pressure switch opens and unlatches the relay R1, thus shutting down the engine.
5.9.3
Starter Blower Motor.
The induction motor which drives the starter blower is protected by a thermal trip in the blower motor contactor. Auxiliary contacts on the contactor are used to enable relay R1 thus providing protection should the motor trip during operation.
5.9.4
Oil Pump Motor.
The induction motor which drives the oil pump is protected by a thermal trip in the oil pump motor contactor.
5.9.5
Electrical Power Failure.
The system is designed to fail safe in that should electrical power be lost in any part of the protection system or to the unit as a whole, then relay R1 will unlatch and the fuel solenoid valve will close, thus causing the shut down of the equipment.
5.10 Signal Conditioning for Data Logging (P9008 optional extra). Signal conditioning for Data Logging P9008 is an optional extra system which is only available as a factory fitted option for P9005 systems from serial number 206 onwards. The P9008 option comprises four pressure transducers, three differential pressure transducers, fuel orifice, rms voltage and current sensing modules and an additional printed circuit board CBA 220, plus all necessary additional wiring, piping and connections. The outputs, which are all amplified to 0 - 10V dc, unless otherwise stated, are connected to two D type sockets, as listed in the table below. Socket 1
9 Pin D Connector - Services Socket.
Pin
Channel
1
0
2
Common
6
1
cussons
—TECHNOLOGY Ltd—
Description
Mnemonic
Range
Oil temperature
To
0 - 200° C
Analogue ground
-
-
Oil pressure
P
0 - 10 bar
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Socket 2
Page 18 of 232
25 pin D Connector - Analytical Socket. Mnemonic
Range
Analog ground
-
-
0
Air inlet temperature
T1
0 - 50°C
6
8
Power turbine inlet pressure
P4
0 - 400 mbar
7
9
Gas pressure
Pg
0 - 4 bar
8
15
Fuel flow
∆Ρg
0 - 3.2 g/s
9
14
Gas generator speed
Ngg
0 - 2000 rev/s
10
13
Turbine speed
NPT
0 - 800 rev/s
11
12
Alternator current
I
0 - 50 amps
12
11
Alternator volts
V
0 - 100 volts
13
10
Air flow
∆Ρa
0 - 175 g/s
19
1
Compressor exit temperature
T2
0 - 160°C
20
2
Gas generator inlet temperature
T3
0 - 1000°C
21
7
Gas generator inlet pressure
P3
0 - 2 bar
22
3
Power turbine inlet temperature
T4
0 - 1000ºC
23
4
Power turbine exhaust temperatuer
T5
0 - 1000°C
24
5
Gas temperature
Tg
0 - 50°C
25
6
Combustion chamber pressure loss
∆Pcc
0 - 136 mbar
Pin
Channel
1
Common
5
Description
Apart from air flow and fuel flow the analogue outputs are all linear and correspond to the appropriate front panel display.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 19 of 232
6
INSTALLATION, COMMISSIONING, CALIBRATION AND MAINTENANCE
6.1
Installation.
When the unit is required to be operational it should be wheeled into a position where all the necessary ancillary requirements for electrical, fuel and water supplies, together with provisions for the exhaust, are met. (See Fig. 13).
6.1.1
Electrical Supply.
A single phase ac supply of approximately 3.5 KVA is required for normal operation, e.g. 240V 50 Hz. Equipment may be supplied suitable for alternative supply specifications to order. Check rating plate at rear of unit for correct supply specification. The blower motor, used for starting purposes, can take initially high starting currents and hence the supply fuses should be such as to cater for these transient starting conditions. A separate earth lead is also required.
6.1.2
Fuel Supply.
The fuel to be used is Propane (C3H8) a gas in standard gas take-off bottles for which suitable fittings are provided. Short period running is possible from 11 kg (24 lb) net bottles but 45 kg (100 lb) bottles are recommended for normal use. Providing that the ambient temperature is not too low, one of these latter bottles will allow adequate operating periods at full power. Where it is essential to site the propane bottles outside in cold conditions, it may be necessary to couple two bottles in parallel to maintain an adequate supply. Consumption at full load is approximately 7 kg (15 lb) per hour and at no load (idling) 2 kg (5 lb) per hour. Note that the level of liquid remaining in the bottle during running can often be seen from the dew condensing on the outside of the bottle, but for an accurate check on fuel available the bottle must be weighed by weighing platform or spring balance.
6.1.3
Water Supply.
An oil to water heat exchanger is included in the oil circuit and the cooling water should be connected to the at the inlet to the heat exchanger. The cooling water outlet should be connected to waste. The water supply required should be made with a 9 mm (⅜") bore flexible hose and have a minimum flow rate of 10 litres (2 gals) per minute.
6.1.4
Exhaust Provisions.
The exhaust is non-toxic and clean but for extended running, provision should be made for the discharge to take place into a duct leading into the open air. However, there must be a break in the exhaust system, usually in the form of a conical entry, with the turbine exhaust discharging into the centre of the cone. This then ensures that the exhaust gas is diluted and reduces the possibility of the final exhaust gas mixture being inflammable. Incorrect starting procedure can produce inflammable exhaust mixtures and hence the above precautions should be taken.
6.1.5
Lubrication System.
The turbine’s lubricating oil is normally drained before shipment, it is therefore necessary to fill the system with the CRH10 oil supplied.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 6.1.6
Page 20 of 232
Air Flow Manometer.
The air flow manometer has transit plugs fitted to prevent spillage of manometer fluid. Remove these two rubber plugs and connect the two rubber tubes, 1 & 2, noting that their correct orientation is required to measure the pressure differences.
6.1.7
P2 - P3 Manometer.
If the manometer has not been filled with mercury, then remove the two slot head screws from the manometer top plate and fill through the back tube with approximately 35 grams of industrial grade mercury. Ensure that all trapped air has been expelled before replacing the screw. Adjust the zero reading by moving the scale plate to the appropriate position.
6.2
Commissioning.
It is important that the operator should familiarise himself with the operating procedure before attempting to run the unit (see section 7).
6.3 6.3.1
Calibration. Speed Measurement.
The speed measurement circuits on printed circuit board CBA 216 are calibrated prior to dispatch, however, if necessary they can be adjusted without running the gas turbine as follows : a)
Preparatory Work.
Disconnect printed circuit board CBA 216 from its edge connector and re-connect it via a DIN 41612 64 way (rows a and c) extender card. Disconnect the two input co-axial cables from the gas generator and power turbine by unplugging them at the rear of the control box. b)
Gas Generator.
Connect the output from a signal generator to the gas generator speed input socket on the rear of the control box. Adjust the signal generator to produce a sine wave output of one volt peak to peak at a frequency of 2000 Hz. Connect a digital voltmeter between test points TP8 and TP1 and adjust VR10 to give a 10V output signal. Adjust VR11 to span the front panel gas generator speed meter to 2000 rev/sec. c)
Power Turbine.
Connect the signal generator to the power turbine speed input socket on the rear of the control box. Adjust the signal generator to produce a sine wave output of one volt peak to peak at a frequency of 6400 Hz. Connect a digital voltmeter between test points TP4 and TP1 and adjust VR3 to give a 10V output signal. Adjust VR4 to span the front panel gas generator speed meter to 800 rev/sec.
6.3.2
Temperature Measurement.
All the temperature channels are adjusted prior to dispatch and should not require further attention. However, if any channel is found to need to be checked or adjusted the following procedure, which refers to figure 14, should be followed. a)
Preparatory Work.
Disconnect the thermocouple plugs at the rear of the control cubicle. Open the hinge down lid of the control cubicle and pull out the thermocouple printed circuit board CBA 219 from its edge connector and re-connect it via a DIN 41612 64 way (rows a and c) extender card. A calibrated
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 21 of 232
millivolt source will be required to simulate the e.m.f. normally produced by the thermocouple hot junction. A calibrated digital voltmeter will also be required. b)
Pre-amplifier Zero Adjustment.
Set jumpers J1 to J9 on the printed circuit board to position B and adjust the variable resistors, as listed in column 2 of the following table, to give a reading of zero volts at the test points shown in column 3 of the table with respect to test point TP1.
c)
Channel
Adjust
Test Point
1 (T2)
VR1
TP 3
2 (T1)
VRS
TP 5
3 (Tg)
VR9
TP 7
4 (T3)
VR13
TP 9
5 (T4)
VR22
TP 11
6 (T5)
VR26
TP 13
7 (TOil)
VR30
TP 15
8 (spare)
VR34
TP 17
Cold Junction
VR17
TP 2
Pre-Amplifier Full Scale Adjustment.
Set jumpers J1 to J8 to position A. For each channel in turn connect the millivolt source to the thermocouple socket shown in column 2 of the following table and inject the voltage shown in column 3. Adjust the variable resistor listed in column 4 to obtain the voltage shown in column 5 at the test point listed in column 6 (relative to test point TP1). Channel
T/C Socket
mV inject
Adjust
Reading
Test Point
1 (T2)
A
6.54 mV
VR2
-1.6V
TP 3
2 (T1)
B
2.022 mV
VR6
-0.5V
TP 5
3 (Tg)
C
2.022 mV
VR10
-0.5V
TP 7
4 (T3)
D
41.27 mV
VR14
-10V
TP 9
5 (T4)
E
41.27 mV
VR23
-10V
TP 11
6 (T5)
F
41.27 mV
VR27
-10V
TP 13
7 (TOil)
G
8.14 mV
VR31
-2.0V
TP 15
8 (spare)
H
8.14 mV
VR35
-2.0V
TP 17
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine d)
Page 22 of 232
Analogue Output for Data Logging - Full Scale Adjustment.
Set jumpers J1 to J8 to position A. For each channel in turn connect the millivolt source to the thermocouple socket shown in column 2 of the following table and inject the voltage shown in column 3. Adjust the variable resistor listed in column 4 to obtain +10V at the test point listed in column 5 (relative to test point TP1).
e)
Channel
T/C Socket
mV inject
Adjust
Reading
1 (T2)
A
6.54 mV
VR3
TP 4
2 (T1)
B
2.022 mV
VR7
TP 6
3 (Tg)
C
2.022 mV
VR11
TP 8
4 (T3)
D
41.27 mV
VR15
TP 10
5 (T4)
E
41.27 mV
VR24
TP 12
6 (T5)
F
41.27 mV
VR28
TP 14
7 (TOil)
G
8.14 mV
VR32
TP 16
8 (spare)
H
8.14 mV
VR36
TP 18
Cold Junction Compensation.
Set jumper link J9 to position A. Measure the voltage across edge connector pins 21c (+ve) and 22a (-ve) and adjust variable resistor VR38 to obtain the same reading between test points TP2 and TP1. f)
Front Panel Meter - Full Scale Adjustment.
With jumper links J1 to J9 in position A, then for each channel in turn connect the millivolt source to the thermocouple socket shown in column 2 of the following table and inject the voltage shown in column 3. Adjust the variable resistor shown in column 4 to obtain the front panel reading shown in column 5. It will be necessary to depress the appropriate temperature selection buttons on the front panel whilst making these adjustments. Adjustment of channel 8 is not required as it is not connected to a front panel instrument.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
6.3.3
Page 23 of 232
Channel
T/C Socket
mV inject
Adjust
Reading
1 (T2)
A
6.54 mV
VR4
160°C
2 (T1)
B
2.022 mV
VR8
50°C
3 (Tg)
C
2.022 mV
VR12
50°C
4 (T3)
D
41.27 mV
VR16
1000°C
5 (T4)
E
41.27 mV
VR25
1000°C
6 (T5)
F
41.27 mV
VR29
1000°C
7 (TOil)
G
8.14 mV
VR33
200°C
8 (spare)
H
8.14 mV
-
-
Turbine Inlet Temperature - Over Temperature Trip.
With jumper links J and J9 in position A, inject 37.6 mV (equivalent to 907°C) into thermocouple socket D and adjust VR21 so that LED 4 is extinguished. Reduce the injected voltage to 37.4 mV (≡902ºC) and check that LED 4 illuminates and that relay D energises. Increase the injected voltage to 37.6 mV again and check that LED 4 goes out and that relay D de-energises.
6.4 a)
Maintenance. Lubricating Oil.
The oil in this system undergoes little deterioration and is only changed if the system has to be dismantled for any reason. Always use the oil specified - oils of higher viscosity, such as normal motor oils, make starting difficult and reduce the turbine’s overall performance. The oil level should only be half way up the oil tank as gas blow-by may cause overflowing if the tank is too full. After initial filling, run the oil pump for a minute to fill the oil filter etc., and then ensure that the correct oil level in the tank is obtained by adding oil if required. b)
Toothed Turbine-Generator Driving Belt.
The tension of this belt is automatically controlled by a hydraulic ram fed from the lubricating oil circuit.
6.5
Additional Calibration Procedure for P9008 Option.
If the signal conditioning option P9008 has been fitted then additional calibration procedures apply. All of the pressure transducers contain integral amplifiers which are pre-calibrated and sealed by the manufacturer and thus require no further attention. The air and fuel flow measurement and the alternator voltage and current measurement utilise Cussons analogue computing board CBA 220 and although these channels have been factory set prior to dispatch, the following procedures can be applied if the output signal voltages do not confirm the front panel analogue instrumentation.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 6.5.1
Page 24 of 232
Preparatory Work.
Open the hinge-down lid of the control cubicle and pull out the analogue computing printed circuit board CBA 220 from its edge connector and reconnect it via a DIN 41612 64-way (rows a and c) extender card. The four measurement channels involved are each spanned by comparison with the front panel instruments whilst the gas turbine is running. Therefore, start the gas turbine following the normal procedure and establish steady state conditions at a near maximum speed and power output. Adjust the gas pressure regulating valve to obtain a pressure at the gas rotameter of 1.5 bar gauge.
6.5.2
Fuel Flow.
The fuel flow is measured by a 0 - 175 mbar differential pressure transducer connected across an orifice placed in series with the fuel front panel rotameter. The 0 - 5V dc output from the integral transducer amplifier is square rooted and amplified on printed circuit board CBA 220 to give a signal scaled 0 – 0.0016m3/s which will correspond with the rotameter measurement range of 0 - 3.2 g/s when the gas conditions are 15°C and 1.5 bar. Connect the digital voltmeter between test points 9 and 1 and adjust VR10 to obtain a voltage reading of 3.125 times the rotameter reading, (i.e. if the gas flow is 2.0 g/s then the voltage at TP9 should be 3.125 x 2.0 = 6.25V).
6.5.3
Air Flow.
Air flow is sensed by a 0 - 20mbar differential pressure transducer connected directly across the pitot-reversed pitot tube. The 0 - 10V dc output from the transducer amplifier is square rooted and amplified by circuits on the CBA 220 printed circuit board to provide a signal which is proportional to air flow rate. The full scale is taken to be equivalent to a differential pressure of 200mm of H2O which will correspond to an air mass flow of k√200 in gram/second where k is the meter constant shown on the engraved meter plate. Connect the digital voltmeter between test K × 200 points 8 and 1. Apply 200mm H2O, set o/p to × 10 = V o/p at TP8 adjusted by VR9. 175
6.5.4
Alternator Voltage.
The alternator output voltage is detected and measured by a hall effect sensor, which is connected to a root mean square to dc circuit and amplifier on printed circuit board CBA 220. Connect a digital voltmeter between test points TP6 and TP1, check that jumper J1 is in position A. With the power turbine running in a steady state, high power condition, adjust VR4 to give a signal at TP6 of one tenth of the front panel voltmeter instrument reading, (i.e. 6V at TP6 corresponds to 60V on the front panel voltmeter).
6.5.5
Alternator Current.
The alternator current is also sensed by a hall effect device coupled into the alternator output circuit by a torroidal transformer. A similar root mean square to dc circuit is used which is scaled to provide 0 - 10V corresponding to an alternator current output of 0 - 50A. The signal conditioner output is adjusted by VR7 so that the voltage at test point TP7 on CBA 220 gives a voltage reading equal to one fifth of the current. (i.e. If the alternator output current is 25A, then the voltage at TP7 should be 5V).
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
7
OPERATING INSTRUCTIONS
7.1
General.
Page 25 of 232
The Cussons Gas Turbine Unit incorporates a gas generator driving a free power turbine which drives an alternator. The gas generator consists of a centrifugal compressor, a single gas fuelled tubular combustion chamber and a radial turbine. The free power turbine is also of radial design, with a belt drive to the alternator. The unit is designed to permit analysis of the performance characteristics of the gas generator, power turbine and combustion chamber using the instrumentation displayed on the front panel. Operation over a wide range of speed and load is possible which, together with the facility for varying the speed ratio between the gas generator and the power turbine, means that a test programme on the Two Shaft Gas Turbine system can be carried out. By carefully controlling the speed ratio of the gas generator and free power turbine to a constant value, a coupled power turbine can be simulated, whereas if the free power turbine speed is held constant, then the gas generator simulates a single spool turbo jet.
7.2
Starting.
1.
Connect the cooling water supply and drain.
2.
Connect the gas bottle.
3.
Connect the electrical supply.
4.
Set the air inlet control to the start position.
5.
Close the gas valve and open the valve on the gas bottle.
6.
Set the dynamometer excitation to maximum.
7.
Start the oil pump.
8.
Press the reset button.
9.
Start the blower.
10.
Set the gas pressure to 200 Kpa (2.0 bar) with the reducing valve.
11.
Press the ignition button and hold it in whilst opening the gas valve to give a gas flow of 0.5 g/s.
12.
If ignition, as shown by an increase in T3, does not occur within 5 seconds of gas flow commencing, close the gas valve to allow unburnt gas to clear the system before continuing from item 11.
13.
Release the ignition button.
14.
Open the gas valve slowly to give a gas generator speed of 1000 rev/s taking care to keep combustion chamber temperature below 900°C (this operation may take some minutes depending on the oil temperature).
15.
Turn the air inlet control to the run position.
16.
Switch off the blower.
7.3 1.
Operating Limitations. During the test programme the following limits must not be exceeded :
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 26 of 232
Gas generator speed 2000 rev/s Power turbine speed 600 rev/s Gas generator turbine inlet temperature 900°C 2.
Set the gas pressure to 150 KPa (1.5 bar) before making fuel flow readings.
3.
The gas turbine unit has certain safety features built into it. If the combustion chamber temperature T3 is allowed to exceed 900°C due to overfuelling, or if the oil pressure falls below 150 KPa (1.5 bar), then the gas supply will be shut off by means of a solenoid valve. To re-start the turbine after operation of the solenoid valve, follow starting instructions 4 - 17.
7.4
Stopping.
1.
Close the valve on the gas bottle.
2.
Close the gas valve.
3.
Once the turbines have stopped reset the air inlet control to the start position.
4.
Re-start the blower.
5.
When T4 has dropped below 80°C and the oil temperatuer drops below 40°C :
7.5 7.5.1
i)
Switch off the blower.
ii)
Switch off the oil pump.
iii)
Turn off the gas supply.
iv)
Turn off the water supply.
v)
Turn off and disconnect the electrical supply.
Notes on Operating Instructions. Starting.
When ignition initially occurs, a slight ‘pop’ is heard, and a sharp rise of combustion chamber temperature (T3) takes place. If the gas valve is then opened too quickly, T3 will rise above 950°C and the over temperature protection will operate. Should this occur, close the gas valve, press the ‘reset’ button and restart the turbine as in 7.2 Starting. Whilst accelerating T3 should be kept below 850°C by ‘slowly’ opening the gas valve as the turbine speed increases. When the gas generator speed reaches 1000 rps, leave the gas valve in this position and turn the air inlet control switch to the run position and switch off the blower.
7.5.2
Operation.
When varying the load on the power turbine, sudden large movements of the dynamometer exciter control should be avoided, so that high transient belt loads (which may cause the belt to jump the pulleys and cause damage) can be avoided. It is convenient when taking a set of readings to first set the fuel flow at the desired level by adjustment of the fuel control valve, and then (if required) trimming the reducing valve to give a fuel supply pressure of 150 KPa (1.5 bar).
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine 7.5.3
Page 27 of 232
Stopping.
When the turbine has been stopped and the system is being cooled by operating the blower, it is essential to leave the blower running until the temperature of T4 has dropped to less than 80°C and the oil temperature to less than 40°C.
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
Page 28 of 232
FIG. 1
FRONT PANEL LAYOUT OF GAS TURBINE UNIT
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 29 of 232
A - INLET AIR SILENCER B - COMPRESSOR C - COMBUSTION CHAMBER D - GAS GENERATOR TURBINE E - POWER TURBINE F - EXHAUST SILENCER G - STARTING AIR COMPRESSOR H - DYNAMOMETER I - OIL RESERVOIR J - OIL PUMP K - OIL COOLER L - MAINS ELECTRICAL INPUT M - OVER-TEMPERATURE CUT OUT FIG. 2
cussons
—TECHNOLOGY Ltd—
REAR VIEW OF GAS TURBINE UNIT
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 30 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 31 of 232
Flow Patterns in a Single Circular Combustion Chamber.
FIG. 4
cussons
—TECHNOLOGY Ltd—
INNER COMBUSTION CHAMBER DETAILS
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIG. 5
cussons
—TECHNOLOGY Ltd—
Page 32 of 232
AC 7 ALTERNATOR CALIBRATION 102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
Page 33 of 232
FIG. 6
LUBRICATION SYSTEM
(P9005/245 ONWARDS)
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
Page 34 of 232
FIG. 6 LUBRICATION SYSTEM
(UPTO P9005/244)
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 35 of 232
m& C CORRECTED AIR FLOW @ 288 K and 1.01325 bar (kg√K/s bar)
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 36 of 232
Fig 8 - Gas Generator Turbine Characteristic 1.5
Tt3 = Total Turbine Inlet Temp (K) Pt3 = Total Turbine Inlet Pressure (bar Abs)
1.45
Pt4 = Total Turbine Outlet Pressure (bar Abs) & = Mass Flow Rate (kg/sec) m
Turbine Expansion Ratio
1.4
Pt3 = Turbine Expansion Ratio Pt 4 1.35
& Tt 3 m Pt 3
= Semi Dimensional Mass Flow Parameter (kg√K/s)
1.3
1.25
1.2
1.15 2
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
Semi-dimensional Mass Flow Paramater
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
2.9
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 37 of 232
Fig 9 - Free Power Turbine Characteristic 1.16
Tt4 = Total Turbine Inlet Temp (K)
1.15
Pt4 = Total Turbine Inlet Pressure (bar Abs)
Turbine Expansion Ratio
1.14
Pt5 = Total Turbine Outlet Pressure (bar Abs)
1.13
& = Mass Flow Rate (kg/sec) m
1.12
Pt 4 = Turbine Expansion Ratio P5
1.11
& Tt 4 m Pt 4
1.1
= Semi Dimensional Mass Flow Parameter (kg√K/s)
1.09 1.08 1.07 1.06 1.05 2
2.2
2.4
2.6
2.8
3
3.2
3.4
3.6
3.8
Semi-dimensional Mass Flow Parameter
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
4
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIGURE 10
cussons
—TECHNOLOGY Ltd—
Page 38 of 232
PRINTED CIRCUIT BOARD CBA 216 (SPEED) 102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 39 of 232
Two Shaft Gas Turbine Test Results FUEL FLOW
AIR FLOW
Mf
Tg
Pg
gram/sec
ºC
KPa
2.34
18.26
154
2.12
18.47
1.87
g/sec
OIL
PRESSURES
TEMPERATURES
SPEEDS
POWER OUTPUT
P-RP
Toil
P3
P4
P2-P3
T1
T2
T3
T4
T5
G.G
P.T
Voltage
Current
Correct
Power
mm H2O
ºC
bar
bar
mm Hg
ºC
ºC
ºC
ºC
ºC
rev/sec
rev/sec
V
A
Factor
WATTS
148.72
64.40
0.69
0.15
18.99
93.98
726.07
624.76
501.95
1514.16
612.11
64.50
29.80
1922.0
148
134.45
65.63
0.58
0.13
18.77
83.59
713.38
622.31
505.86
1398.44
608.59
54.69
25.62
1401.2
19.06
150
120.53
62.89
0.48
0.10
19.17
74.45
699.71
615.97
500.73
1281.25
602.73
44.78
21.28
952.7
1.69
19.56
152
107.92
60.50
0.40
0.09
19.31
67.07
700.20
618.65
501.95
1179.69
611.33
35.84
17.26
618.6
1.54
19.92
154
96.51
58.64
0.33
0.08
19.25
60.94
712.16
630.13
511.23
1085.45
608.01
27.42
13.35
366.1
1.43
21.09
150
83.91
56.45
0.27
0.06
19.54
55.27
747.31
656.25
529.05
977.05
608.59
14.92
7.30
108.9
T3 OVER TEMPERATURE SETTING
900ºC
PITOT - REVERSE PITOT CONSTANT
DATE TEST COMPLETED
BELT TENSIONING RAM PRESSURE
KPa
AIR FLOW CALIBRATION EQUATION:-
TEST ENGINEERS SIGNATURE
M air
=
11.51{h} 0.5
Remarks
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine FIG. 11
Page 40 of 232
P9005 GAS TURBINE TEST SHEET
SERIAL NUMBER FUEL FLOW
AIR FLOW
Mf
Tg
Pg
gram/sec
ºC
KPa
g/sec
OIL
PRESSURES
TEMPERATURES
SPEEDS
POWER OUTPUT
P-RP
Toil
P3
P4
P2-P3
T1
T2
T3
T4
T5
G.G
P.T
Voltage
Current
Correct
Power
mm H2O
ºC
KPa
KPa
mm Hg
ºC
ºC
ºC
ºC
ºC
rev/sec
rev/sec
V
A
Factor
WATTS
T3 OVER TEMPERATURE SETTING
ºC
PITOT - REVERSE PITOT CONSTANT
DATE TEST COMPLETED
WATER THERMOSTAT SETTING
ºC
AIR FLOW CALIBRATION EQUATION:-
TEST ENGINEERS SIGNATURE
BELT TENSIONING RAM PRESSURE
KPa
M air
=
{h}
0.5
TEST SUPERVISORS SIGNATURE
Remarks
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIG. 12
Page 41 of 232
CORRECTION FACTOR CURVES FOR FUEL FLOWMETER REF. R768146-55 WHEN USED WITH PROPANE
AT 150 KPa (1.5 bar) GAUGE AND VARIOUS TEMPERATURES
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 42 of 232
FIGURE 13
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIGURE 14
cussons
—TECHNOLOGY Ltd—
Page 43 of 232
PRINTED CIRCUIT BOARD 219 (TEMPERATURES) 102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
FIGURE 15
cussons
—TECHNOLOGY Ltd—
Page 44 of 232
PRINTED CIRCUIT BOARD 220 (ANALOGUE COMPUTING) P9008 OPTIONAL EXTRA
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
Page 45 of 232
FIGURE 16
cussons
—TECHNOLOGY Ltd—
OVERALL SCHEMATIC DIAGRAM 102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 46 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
8
Page 47 of 232
APPENDIX I – A FIRST COURSE IN GAS TURBINE TECHNOLOGY
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 48 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 49 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 50 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 51 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 52 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 53 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 54 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 55 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 56 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 57 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 58 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 59 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 60 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 61 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 62 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 63 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 64 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 65 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 66 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 67 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 68 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 69 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 70 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 71 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 72 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 73 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 74 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 75 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 76 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 77 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 78 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 79 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 80 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 81 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 82 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 83 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 84 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 85 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 86 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 87 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 88 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 89 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 90 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 91 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 92 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 93 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 94 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 95 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 96 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 97 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 98 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine
cussons
—TECHNOLOGY Ltd—
Page 99 of 232
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 100 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 101 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 102 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 103 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 104 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 105 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 106 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 107 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 108 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 109 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 110 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 111 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 112 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 113 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 114 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 115 of 232
9
APPENDIX II – POWER TURBINE
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 116 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 117 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 118 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 119 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 120 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 121 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 122 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 123 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 124 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 125 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 126 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 127 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 128 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 129 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 130 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 131 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 132 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 133 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 134 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 135 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 136 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 137 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 138 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 139 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 140 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 141 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 142 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 143 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 144 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 145 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 146 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 147 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 148 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 149 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 150 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 151 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 152 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 153 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 154 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 155 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 156 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 157 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 158 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 159 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 160 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 161 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 162 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 163 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 164 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 165 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 166 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 167 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 168 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 169 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 170 of 232
10
APPENDIX III – GAS GENERATOR
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 171 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 172 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 173 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 174 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 175 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 176 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 177 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 178 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 179 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 180 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 181 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 182 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 183 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 184 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 185 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 186 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 187 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 188 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 189 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 190 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 191 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 192 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 193 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 194 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 195 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 196 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 197 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 198 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 199 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 200 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 201 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 202 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 203 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 204 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 205 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 206 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 207 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 208 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 209 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 210 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 211 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 212 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 213 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 214 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 215 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 216 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 217 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 218 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 219 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 220 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 221 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 222 of 232
11
APPENDIX IV – LOADING UNIT
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 223 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 224 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 225 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 226 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 227 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 228 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 229 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 230 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 231 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
P9005_8 – Cussons Technology – Two Shaft Gas Turbine Page 232 of 232
cussons
—TECHNOLOGY Ltd—
102, Great Clowes Street. Manchester M7 1RH. U.K. Phone +44 161 833 0036 email [email protected]
Related Documents
P9005manu Gas Turbine
January 2021 1
Gas Turbine Acceptance Test
January 2021 1
Gas Turbine Operating Manule
February 2021 1
Gas Turbine Manual
January 2021 1
Understanding Gas Turbine Performance
January 2021 0
Gas Turbine - Wikipedia
March 2021 0More Documents from "YudhistiraPerdanaPutra"