DocumentCode
3198105
Title
Technology variability and product design implications
Author
Fried, David M.
Author_Institution
IBM Systems & Technology Group, Hopewell Junction, NY
fYear
2011
fDate
16-20 Oct. 2011
Firstpage
22
Lastpage
22
Abstract
Summary form only given. Scaling laws of laboratory imbibition experiments are very important to be used to predict oil recovery from matrix blocks. The importance of this concept being the oil recovery from reservoir matrix blocks in the field can be predicted experimentally from tests on small samples in laboratory. Laboratory results of oil recovery are commonly represented as a function of dimensionless time which in turn is a universal parameter including several physical parameters of fluids and rocks. It is considered as a good scaling group if the measured oil recovery is represented in a single universal curve with sharing less primary physical parameters. In the present work, we introduce a new dimensionless time formula in terms of characteristic velocity (e.g. injection velocity) which in turn is very important of some enhanced oil recovery (EOR) mechanisms such as water injection stage. We derive a power-law formula for dimensionless time that reduces the number of complexities in characterizing two-phase imbibition through a porous medium. The theory and characteristic velocity function is tested against some oil recovery experimental data for oil-water system from the literature. Through a comprehensive evaluation of available time scaling formulas, a simplified tool is provided for characterizing two-phase flow, through the use of a reference capillary number. In this context, we introduce a theoretical analysis and numerical computations of the counter-current imbibition. The one-dimensional macroscopic governing equation is transformed into a non-dimensional form which includes the dimensionless physical parameters (capillary number Ca and Darcy number Da). Additionally, numerical experiments are performed for wide ranges of values of capillary and Darcy numbers to illustrate their influences on water saturation as well as r
fLanguage
English
Publisher
ieee
Conference_Titel
Integrated Reliability Workshop Final Report (IRW), 2011 IEEE International
Conference_Location
South Lake Tahoe, CA
ISSN
1930-8841
Print_ISBN
978-1-4577-0113-9
Type
conf
DOI
10.1109/IIRW.2011.6142579
Filename
6142579
Link To Document