Current Distributions and Electrode Shape Changes in Electrochemical Systems: Lecture Notes in Engineering, cartea 75
Autor Johan Deconincken Limba Engleză Paperback – 30 mar 1992
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Specificații
ISBN-13: 9783540551041
ISBN-10: 3540551042
Pagini: 304
Ilustrații: XV, 281 p. 8 illus.
Dimensiuni: 170 x 242 x 17 mm
Greutate: 0.52 kg
Ediția:Softcover reprint of the original 1st ed. 1992
Editura: Springer
Colecția Lecture Notes in Engineering
Seria Lecture Notes in Engineering
Locul publicării:Berlin, Heidelberg, Germany
ISBN-10: 3540551042
Pagini: 304
Ilustrații: XV, 281 p. 8 illus.
Dimensiuni: 170 x 242 x 17 mm
Greutate: 0.52 kg
Ediția:Softcover reprint of the original 1st ed. 1992
Editura: Springer
Colecția Lecture Notes in Engineering
Seria Lecture Notes in Engineering
Locul publicării:Berlin, Heidelberg, Germany
Public țintă
ResearchCuprins
1. The Current Distribution in Electro-Chemical Systems.- 1.1. Introduction.- 1.2. The electrode-electrolyte interphase.- 1.3. Transport equations in dilute solutions.- 1.4. Solution of the transport equations in dilute solutions.- 1.5. The boundary conditions of the potential model.- 1.6. Types of current distributions.- 1.7. The Wagner number.- 1.8. Electrode shape change.- 1.9. Conclusion.- 2. Solution of the Potential Model.- 2.1. Introduction.- 2.2. Hypotheses and definitions.- 2.3. Weighted residual statements for the Laplace equation.- 2.4. Solution of current distributions with trial functions satisfying the field equations.- 2.5. Solution of current distributions with trial functions not satisfying the field equations.- 2.6. Solution of current distributions based on weight functions satisfying the field equation.- 2.7. The physical interpretation of the integral equation.- 2.8. The outer normal convention..- 2.9. Indirect and regular boundary methods.- 2.10. Comparison of the treated weighted residual methods.- 2.11. Solution of current distributions by electric simulation.- 2.12. Conclusion.- 3. The Boundary Element Method to Solve Current Distributions.- 3.1. Introduction.- 3.2. Concretization of the boundary element method.- 3.3. The overvoltage equations.- 3.4. Solution of the non-linear system of equations.- 3.5. Examples.- 3.6. Copper electrorefining: numerical and experimental results.- 3.7. Conclusion.- 4. Electrode Shape Change.- 4.1. Introduction.- 4.2. The discretization with respect to time.- 4.3. The electrode shape change algorithm.- 4.4. Examples.- 4.5. Electrodeposition and electrode dissolution in copper electrorefining. Numerical and experimental results.- 4.6. Conclusion.- 5. General Conclusion.- References.- Appendices.- A.1.1 Primary current distribution along a free cathode in parallel with an anode and perpendicular to an insulating boundary.- A.1.2 Primary current distribution along an L-shaped cathode.- A.1.3 Primary current distribution along a cathode being in line with an insulating boundary.- A.2 Solution of the potential model using trial functions satisfying the field equation: example.- A.3.1 Analytic integration of integrals involved by the two-dimensional boundary element method using straight elements.- A.3.2 Evaluation of integrals involved by the boundary element method used to solve axisymmetric potential problems.- A.4 The global Newton convergence of the potential problem with non-linear boundary conditions.