Experimental and numerical investigation of coupled radial electroosmotic flow and electric field us...

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" Experimental and numerical investigation of coupled radial electroosmotic flow and electric field using pi electrokinetic up-scaled reservoir model "
Ancy Susan Koshy Harid, Noureddine

Document Type	:	Latin Dissertation
Language of Document	:	English
Record Number	:	803688
Doc. No	:	TL48487
Call number	:	‭1732133829;‮ ‬1602287‬
Main Entry	:	Aoudi, Samer
Title & Author	:	Experimental and numerical investigation of coupled radial electroosmotic flow and electric field using pi electrokinetic up-scaled reservoir model\ Ancy Susan KoshyHarid, Noureddine
College	:	The Petroleum Institute (United Arab Emirates)
Date	:	2015
Degree	:	M.S.
field of study	:	Electrical Engineering
student score	:	2015
Page No	:	308
Note	:	Committee members: Al Hammadi, Khalid; Barkat, Braham; Beig, Abdul Rahiman; ElSheakh, Ahmed; Haroun, Mohammed R.
Note	:	Place of publication: United States, Ann Arbor; ISBN=978-1-339-16141-9
Abstract	:	The application of electrokinetic phenomena in the petroleum and environmental engineering has been developing since the last few decades with promising results in both laboratory studies and field pilots. Electrokinetic Enhanced Oil Recovery (EKEOR) is gaining increased popularity due to a number of reservoir-related advantages such as reduced water-cut, reduced HSE concerns, increased reservoir permeability and no depth of limitation. All previous studies have used one-dimensional (1-D) electrode configuration to apply electric field during EK treatment and have consistently proved that recovery enhances 2 to 3 fold owing to electroosmotic mobilization or enhanced viscous drag forces while increasing reservoir permeability. However, there is lack of experimental research conducted on the feasibility of applying multiple electrode configurations in sandstone and carbonate reservoirs to enhance this process. This study closely examines radial electroosmotic flow with the help of an up-scaled laboratory reservoir model designed at the Petroleum Institute to compare the performance of various two-dimensional (2-D) electrode configurations in enhancing electroosmotic flow rate and reservoir permeability while targeting minimum power consumption, induced current density and electrode life.
Subject	:	Electrical engineering
Descriptor	:	Applied sciences;Electric field modeling for ek eor;Electrokinetic eor;Electroosmosis;Radial flow ek eor
Added Entry	:	Harid, Noureddine
Added Entry	:	Electrical EngineeringThe Petroleum Institute (United Arab Emirates)