precision petrophysical analysis laboratory (ppal)...schematic of ppal . capabilities •simulating...
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Precision Petrophysical Analysis Laboratory (PPAL)
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Precision Petrophysical Analysis Laboratory
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Schematic of PPAL
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Capabilities
• Simulating reservoir conditions such as pore pressure, overburden pressure, and temperature.
• Simulating steady state gas flow through the core plug.
• Measuring permeability with accuracy of nano-darcy.
• Measuring pore volume(~0.1% accuracy for porosity)
• Instantaneous pressure recording with accuracy of 0.001 psi.
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Core Holder Assembly and Core Plug Sample
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Permeability Measurement
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Flow Rate Measurement He - No Sorption
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Flow Rate Measurement CO2 - Sorption
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Permeability Measurements Marcellus Shale
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Klinkenberg Correction
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Pore Size Distribution Obtained Using Nitrogen Adsorption At 77ok
0.00E+00
2.00E-05
4.00E-05
6.00E-05
8.00E-05
1.00E-04
1.20E-04
1.40E-04
1.60E-04
1.80E-04
1 10 100 1000 10000
dV
p/d
Dp
Pore Diameter A°
The Average Pore Size is 3 Nanometer.
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Normalized Permeability vs. Knudsen Number
Kn < 0.001 Continuum Flow
0.001< Kn
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Double-slippage Correction
y = 8E+06x + 154.3 R² = 0.9603
y = 5E+06x + 155.51 R² = 0.9705
y = 2E+06x + 124.06 R² = 0.9731
y = 5E+06x + 122.83 R² = 0.9956
0
100
200
300
400
500
600
700
800
900
0 0.00005 0.0001 0.00015 0.0002 0.00025
Per
mea
bili
ty, n
D
Inverse Pressure Squared, Psia-2
Helium
Nitrogen
CO2-Adsorption
CO2-Desorption
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Effect of Net Stress on the Porosity Measurements with N2
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Effect of Net Stress on the Permeability Measured by N2 and CO2
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