NDLI: Approximate Solutions for Pressure Buildup During CO$

Content Provider	Springer Nature Link
Author	Mathias, Simon A. Hardisty, Paul E. Trudell, Mark R. Zimmerman, Robert W.
Copyright Year	2008
Abstract	If geo-sequestration of CO $_{2}$ is to be employed as a key emissions reduction method in the global effort to mitigate against climate change, simple yet robust screening of the risks of disposal in brine aquifers will be needed. There has been significant development of simple analytical and semi-analytical techniques to support screening analysis and performance assessment for potential carbon sequestration sites. These techniques have generally been used to estimate the size of CO $_{2}$ plumes for the purpose of leakage rate estimation. A common assumption is that both the fluids and the geological formation are incompressible. Consequently, calculation of pressure distribution requires the specification of an arbitrary radius of influence. In this article, a new similarity solution is derived using the method of matched asymptotic expansions. A large time approximation of this solution is then extended to account for inertial effects using the Forchheimer equation. By allowing for slight compressibility in the fluids and formation, the solutions improve on previous work by not requiring the specification of an arbitrary radius of influence. The validity of both solutions is explored by comparison with equivalent finite difference solutions, revealing that the new method can provide robust and mathematically rigorous solutions for screening level analysis, where numerical simulations may not be justified or cost effective.
Starting Page	265
Ending Page	284
Page Count	20
File Format	PDF
ISSN	01693913
Journal	Transport in Porous Media
Volume Number	79
Issue Number	2
e-ISSN	15731634
Language	English
Publisher	Springer Netherlands
Publisher Date	2008-12-23
Publisher Place	Dordrecht
Access Restriction	One Nation One Subscription (ONOS)
Subject Keyword	CO $_{2}$ injection Forchheimer’s equation Matched asymptotic expansions Pressure buildup Mechanics, Fluids, Thermodynamics Hydrogeology Civil Engineering Industrial Chemistry/Chemical Engineering Geotechnical Engineering
Content Type	Text
Resource Type	Article
Subject	Catalysis

Sl.	Authority	Responsibilities	Communication Details
1	Ministry of Education (GoI), Department of Higher Education	Sanctioning Authority	https://www.education.gov.in/ict-initiatives
2	Indian Institute of Technology Kharagpur	Host Institute of the Project: The host institute of the project is responsible for providing infrastructure support and hosting the project	https://www.iitkgp.ac.in
3	National Digital Library of India Office, Indian Institute of Technology Kharagpur	The administrative and infrastructural headquarters of the project	Dr. B. Sutradhar bsutra@ndl.gov.in
4	Project PI / Joint PI	Principal Investigator and Joint Principal Investigators of the project	Dr. B. Sutradhar bsutra@ndl.gov.in Prof. Saswat Chakrabarti will be added soon
5	Website/Portal (Helpdesk)	Queries regarding NDLI and its services	support@ndl.gov.in
6	Contents and Copyright Issues	Queries related to content curation and copyright issues	content@ndl.gov.in
7	National Digital Library of India Club (NDLI Club)	Queries related to NDLI Club formation, support, user awareness program, seminar/symposium, collaboration, social media, promotion, and outreach	clubsupport@ndl.gov.in
8	Digital Preservation Centre (DPC)	Assistance with digitizing and archiving copyright-free printed books	dpc@ndl.gov.in
9	IDR Setup or Support	Queries related to establishment and support of Institutional Digital Repository (IDR) and IDR workshops	idr@ndl.gov.in

Pressure Buildup During CO$_{2}$ Injection into a Closed Brine Aquifer

Injection and Storage of CO$_{2}$ in Deep Saline Aquifers: Analytical Solution for CO$_{2}$ Plume Evolution During Injection

Derivation of the Forchheimer Law Via Matched Asymptotic Expansions

Analytical Model for CO$_{2}$ Injection into Brine Aquifers-Containing Residual CH$_{4}$

Impact of Capillary Pressure, Salinity and In situ Conditions on CO$_{2}$ Injection into Saline Aquifers

CO$_{2}$ Injection in Geological Formations: Determining Macroscale Coefficients from Pore Scale Processes

Well Test Solutions for Vertically Fractured Injection Wells

CO$_{2}$ Plume Evolution and Pressure Buildup of Large-scale CO$_{2}$ Injection into Saline Aquifers in Sanzhao Depression, Songliao Basin, China

Inertia Effects in High-Rate Flow Through Heterogeneous Porous Media

Approximate Solutions for Pressure Buildup During CO$_{2}$ Injection in Brine Aquifers

Similar Documents

Pressure Buildup During CO$_{2}$ Injection into a Closed Brine Aquifer

Injection and Storage of CO$_{2}$ in Deep Saline Aquifers: Analytical Solution for CO$_{2}$ Plume Evolution During Injection

Derivation of the Forchheimer Law Via Matched Asymptotic Expansions

Analytical Model for CO$_{2}$ Injection into Brine Aquifers-Containing Residual CH$_{4}$

Impact of Capillary Pressure, Salinity and In situ Conditions on CO$_{2}$ Injection into Saline Aquifers

CO$_{2}$ Injection in Geological Formations: Determining Macroscale Coefficients from Pore Scale Processes

Well Test Solutions for Vertically Fractured Injection Wells

CO$_{2}$ Plume Evolution and Pressure Buildup of Large-scale CO$_{2}$ Injection into Saline Aquifers in Sanzhao Depression, Songliao Basin, China

Inertia Effects in High-Rate Flow Through Heterogeneous Porous Media

Approximate Solutions for Pressure Buildup During CO$_{2}$ Injection in Brine Aquifers