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A GENERAL COMPUTATIONAL METHOD FOR MASS-TRANSPORT PROBLEMS INVOLVING WALL JET ELECTRODES AND ITS APPLICATION TO SIMPLE ELECTRON-TRANSFER, ECE AND DISP1 REACTIONS

Abstract:

A computational procedure based on the Backwards Implicit Method is shown to be a powerful and general method of solving problems of mass transport to a wall-jet electrode. Conventional numerical methods based on a Cartesian grid are unsatisfactory because the electrode is very non-uniformly accessible. An expanding grid which increases in size in proportion to the diffusion layer thickness across the electrode surface, is shown to be effective in computing the limiting current-flow rate beha...

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Publication status:
Published

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Publisher copy:
10.1007/BF01008866

Authors


Publisher:
Kluwer Academic Publishers
Journal:
JOURNAL OF APPLIED ELECTROCHEMISTRY
Volume:
20
Issue:
4
Pages:
575-585
Publication date:
1990-07-05
DOI:
EISSN:
1572-8838
ISSN:
0021-891X
URN:
uuid:3aeca2dd-7b70-48e7-9c0b-69ce7c3f06f2
Source identifiers:
43359
Local pid:
pubs:43359
Language:
English

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