Petrov-Galerkin formulations for electrochemical processes

D. K. Ganjoo; T. E. Tezduyar

doi:10.1016/0045-7825(87)90183-6

Petrov-Galerkin formulations for electrochemical processes

D. K. Ganjoo, T. E. Tezduyar

研究成果: Article › 査読

5 被引用数 (Scopus)

抄録

A numerical simulation capability has been developed for electrochemical processes, in particular for electrophoresis separation techniques. The numerical method employed is based on the streamline upwind/Petrov-Galerkin formulations which have desirable stability and accuracy properties for the convection-diffusion-reaction type equations that govern these problems. Simulations are performed for various electrophoresis separation types in one and two dimensions. The results obtained are very satisfactory and show the potential of the numerical method to be a useful tool in understanding the physics involved and in helping the design of reliable and efficient separation techniques.

本文言語	English
ページ（範囲）	61-83
ページ数	23
ジャーナル	Computer Methods in Applied Mechanics and Engineering
巻	65
号	1
DOI	https://doi.org/10.1016/0045-7825(87)90183-6
出版ステータス	Published - 1987 11
外部発表	はい

ASJC Scopus subject areas

Computational Mechanics
Mechanics of Materials
Mechanical Engineering
Physics and Astronomy(all)
Computer Science Applications

文献へのアクセス

10.1016/0045-7825(87)90183-6

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引用スタイル

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title = "Petrov-Galerkin formulations for electrochemical processes",

abstract = "A numerical simulation capability has been developed for electrochemical processes, in particular for electrophoresis separation techniques. The numerical method employed is based on the streamline upwind/Petrov-Galerkin formulations which have desirable stability and accuracy properties for the convection-diffusion-reaction type equations that govern these problems. Simulations are performed for various electrophoresis separation types in one and two dimensions. The results obtained are very satisfactory and show the potential of the numerical method to be a useful tool in understanding the physics involved and in helping the design of reliable and efficient separation techniques.",

author = "Ganjoo, {D. K.} and Tezduyar, {T. E.}",

note = "Funding Information: * This research was sponsored under grant MSM-8552479. Funding Information: Space Center under contract NAS-9-17380 and by NSF Funding Information: This researchw as sponsoredb y NASA under contractN AS-9-17380a nd NSF under grant MSM-8552479.W e are grateful for the computing resourcesm ade available by the Aeros-cience Branch of the NASA-Johnson SpaceC enter. We are also thankful to Dr. W. Goodrich of NASA-JSC for his guidance and encouragement.D r. A.K.M.F. Hussain and Dr. R. Pollard of the University of Houston provided valuable comments. Copyright: Copyright 2014 Elsevier B.V., All rights reserved.",

year = "1987",

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doi = "10.1016/0045-7825(87)90183-6",

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AU - Tezduyar, T. E.

N1 - Funding Information: * This research was sponsored under grant MSM-8552479. Funding Information: Space Center under contract NAS-9-17380 and by NSF Funding Information: This researchw as sponsoredb y NASA under contractN AS-9-17380a nd NSF under grant MSM-8552479.W e are grateful for the computing resourcesm ade available by the Aeros-cience Branch of the NASA-Johnson SpaceC enter. We are also thankful to Dr. W. Goodrich of NASA-JSC for his guidance and encouragement.D r. A.K.M.F. Hussain and Dr. R. Pollard of the University of Houston provided valuable comments. Copyright: Copyright 2014 Elsevier B.V., All rights reserved.

PY - 1987/11

Y1 - 1987/11

N2 - A numerical simulation capability has been developed for electrochemical processes, in particular for electrophoresis separation techniques. The numerical method employed is based on the streamline upwind/Petrov-Galerkin formulations which have desirable stability and accuracy properties for the convection-diffusion-reaction type equations that govern these problems. Simulations are performed for various electrophoresis separation types in one and two dimensions. The results obtained are very satisfactory and show the potential of the numerical method to be a useful tool in understanding the physics involved and in helping the design of reliable and efficient separation techniques.

AB - A numerical simulation capability has been developed for electrochemical processes, in particular for electrophoresis separation techniques. The numerical method employed is based on the streamline upwind/Petrov-Galerkin formulations which have desirable stability and accuracy properties for the convection-diffusion-reaction type equations that govern these problems. Simulations are performed for various electrophoresis separation types in one and two dimensions. The results obtained are very satisfactory and show the potential of the numerical method to be a useful tool in understanding the physics involved and in helping the design of reliable and efficient separation techniques.

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