Environmental Engineering Reference
In-Depth Information
PGEC = Produced gas energy content
pH
= Hydrogen ion activity
R
= Resistance
RF = Radio Frequency
SCFGPD = Standard cubic feet gas per day
SAGD
= Steam Assisted Gravity Drainage
USC
= University of Southern California
US$
= Dollars, U.S.
ΔV
= Circuit element voltage drop
∇
= Vector gradient operator
⊕
= Dot (inner) vector product
∫∫∫
= Volume integral with no limits
| |
= Magnitude
μ
= Fluid viscosity
σ
= Local electrical conductivity tensor
ρ
= Local electrical resistivity tensor
Ø
= Electrical potential field
Ø
j
= Generalized potential field
References
Anon., 1966, Electro-Osmosis Stabilizes Earth Dam's Tricky Foundation,
Engineering News-Record
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Acar, Y. B., and Alashawabkeh, A. N., 1993, Principles of Electrokinetic
Remediation,
Environ. Sci., Technol.,
27 (13): 2638-2647.
Acar, Y. B., and Gale, R. J., 1992, Electrochemical Decontamination of Soils or
Slurries,
United States Patent No. 5,137,608.
Ace, A. G., 1955,
An Investigation of the influence of Applied Electrical Potential
Gradients on Flow of Fluids in Porous Media,
M. S. Thesis, Department of
Petroleum Engineering, The University of Southern California.
Al Shalabi, E. W., Haroun, M., Ghosh, B., and Pamukcu, S, 2012, The Stimulation of
Sandstone Reservoirs, Using DC Potential
,
Petroleum Science and Technology
,
30 (20): 2137-2147.
Amba, S. A., Chilingar, G. V., and Beeson, C. M., 1964a, Use of Direct Electrical
Current for Increasing the Flow Rate of Reservoir Fluids During Petroleum
Recovery
,
J. Canadian Petrol. Technol.
, 3 (1): 8 - 14.
Amba, S. A., Chilingar, G. V., and Beeson, C. M., 1964b, Application of
Electrokinetic Phenomena in Civil and Petroleum Engineering,
Annals of the
New York Academy of Sciences
, 3 (1): 8 - 14.
Amba, S. A., Chilingar, G. V., and Beeson, C. M., 1965, Use of Direct Electrical
Current for Increasing the Flow Rate of Oil and Water in a Porous Medium:
J. Canadian Petrol. Technol.
, 4 (1): 8 1-88.
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