<--- Back to Details
First PageDocument Content
Materials science / Porous media / Oilfield terminology / Hydrology / Steam-assisted gravity drainage / Reservoir simulation / Relative permeability / Steam injection / Permeability / Petroleum / Soft matter / Petroleum production
Date: 2011-05-17 16:30:42
Materials science
Porous media
Oilfield terminology
Hydrology
Steam-assisted gravity drainage
Reservoir simulation
Relative permeability
Steam injection
Permeability
Petroleum
Soft matter
Petroleum production

Microsoft Word - CIPCPaper.doc

Add to Reading List

Source URL: www.weatherfordlabs.com

Download Document from Source Website

File Size: 458,19 KB

Share Document on Facebook

Similar Documents

Fundamental Analysis of Heterogeneity and Relative Permeability on CO2 Storage and Plume Migration; #)

DocID: 1krRo - View Document

Fluid mechanics / Porous media / Petroleum production / Steam-assisted gravity drainage / Water pollution / Relative permeability / Permeability / Two-phase flow / Heat transfer / Fluid dynamics / Chemistry / Materials science

Thermal effects on two-phase flow in porous media Xuming Shan1 , Tim C. Hooijkaas1 , Cor van Kruijsdijk2 and Garth N. Wells3 1 Delft University of Technology Royal Dutch Shell

DocID: 1glkS - View Document

Oil well / Petroleum reservoir / Relative permeability / Geography of the United Kingdom / Technology / Petroleum production / Materials science / Garn

Microsoft PowerPoint - Kristin140205BroennReservoarWennberg.ppt

DocID: 1fFmo - View Document

LBNL-6533E User’s Guide for Hysteretic Capillary Pressure and Relative Permeability Functions in TOUGH2 Christine Doughty

DocID: 1dno3 - View Document

Fluid mechanics / Calculus / Hydrogeology / Total variation diminishing / Reservoir simulation / Flux limiter / Finite volume method / Crank–Nicolson method / Relative permeability / Computational fluid dynamics / Fluid dynamics / Dynamics

PROCEEDINGS, TOUGH Symposium 2006 Lawrence Berkeley National Laboratory, Berkeley, California, May 15–17, 2006 EFFICIENT SCHEMES FOR REDUCING NUMERICAL DISPERSION IN MODELING MULTIPHASE TRANSPORT THROUGH POROUS AND FRA

DocID: 1aKRG - View Document