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Saturation
• • • •
Volume of phase to pore volume Wettability Tortuosity Mobile vs immobile
1) Swir -irreducible water saturation, below which water cannot flow. 2) Swc -connate water saturation existing on discovery of the reservoir. It may or may not be irreducible. 3) Swi -may mean irreducible, connate, or interstitial, which means saturation among the interstices, or pores. Interstitial may or may not signify irreducible. It may be the value on discovery of the reservoir, or the value at any time thereafter. Swi may also mean initial or original, which truly means the water saturation on discovery, but it may or may not be irreducible.
Saturation Saturation distribution in a reservoir
Saturation
Factors affecting fluid saturations
• Fluid invasion • Release of confining pressure • Thermal affects
Factors affecting fluid saturations
Factors affecting fluid saturations Influence of mud type on saturations
Oil 67.6%
Oil 53.4%
Gas 34.8%
Oil 32.9%
Oil 50.9%
Filtrate18%
Oil 26.7%
Gas 25.6% Oil 26.7%
Wtr 32.4%
Wtr 46.6%
67.6% Wtr 38.5%
Wtr 49.1%
Wtr 49.1%
Wtr 47.7%
Original
After flushing
At surface
Original
After flushing
At surface
Water-based Muds
Oil-based Muds
Measurement of Fluid Saturation
1. Retort method - evaporation of the fluids in the pore space 2. Dean-Stark extraction method - the leaching of fluids in the pore space
Measurement of Fluid Saturation
Retort method •
sample is sealed inside an aluminum cell and then heated in stages from 400 F to 1100 F
•
Advantages: fast, multiple samples run
Picture of a conventional retort [CoreLab,1983]
Measurement of Fluid Saturation Disadvantages of Retort method • Coking effect - heating process burns oil to the pore surfaces. • results in oil recovery less than the initial amount in the sample. • Empirical correction
• removal of both pore water and water of crystallization. • Results in high water recovery
Volume of water in pores
Retort oil correction curve [CoreLab, 1983]
Crystallized water
Retort water calibration curves [CoreLab,1983]
Measurement of Fluid Saturation
Dean-Stark extraction method • • • •
• •
vapor of a solvent rises through the core and leaches out the oil and water. water condenses and is collected in a graduated cylinder. solvent and oil continuously cycle through the extraction process. A typical solvent is toluene, miscible with the oil but not the water. Advantage: accurate Disadvantage: long time Wwet Wdry Wwtr So Vp* o
Measurement of Fluid Saturation Example of Dean-Stark extraction method to determine saturations • • • •
• •
Obtain the mass of the saturated sample = 57 gms. Determine the bulk volume by nondestructive means = 25 cc Determine the oil density = 0.88 gm/cc Place the sample in the extraction apparatus and heat the solvent. Record the volume of water collected and when the reading becomes constant – stop. Vw = 1.4 ml After cooling, remove the core and dry, obtain dry weight = 53 gms. Using the saturation method, resaturate the sample with fresh water ( = 1.00 gm/cc) and weigh. = 58 gms.
Measurement of Fluid Saturation Example of Dean-Stark extraction method to determine saturations •
Calculate the pore volume and porosity,
•
Calculate the water saturation
•
Calculate the oil saturation
•
Calculate the gas saturation
58 53 Vp 5cc 1.00 5 20% 25
Sw
1.4 28% 5
So
57 53 1.4 *1.00 59% 5 * 0.88
S 1 0.28 0.59 13% g