Non-Linear Mass Transfer and Hydrodynamic Stability
C.B. Boyadjiev, V.N. Babak, "Non-Linear Mass Transfer and Hydrodynamic Stability"
Elsevier Science 2000 | ISBN-10: 0444504281 | 516 Pages | PDF | 15,7 MB
Surveyed in this book are the kinetics of non-linear mass transfer and its effects on hydrodynamic stability in systems with intensive interphase mass transfer, in electrochemical systems with high current density and in chemically reacting systems. In Part 1 the non-linear mass transfer as a result of an intensive interphase mass transfer in the gas (liquid)-solid surface, gas-liquid and liquid-liquid systems is considered in the duffusion boundary layer approximation as well as in flat channel taking the longitudinal diffusion into account. The influence of the direction of the intensive interphase mass transfer on heat transfer and multi-component mass transfer is illustrated. Part 2 discusses non-linear mass transfer in electrochemical systems with high current density using the examples of the anode dissolving of metals in the electrolyte flow and the electro-separation of metals out of concentrated solutions.
links
http://depositfiles.com/files/twdj515ql
or
http://rapidshare.com/files/262128902/0444504281_Non_Linear.rar
C.B. Boyadjiev, V.N. Babak, "Non-Linear Mass Transfer and Hydrodynamic Stability"
Elsevier Science 2000 | ISBN-10: 0444504281 | 516 Pages | PDF | 15,7 MB
Surveyed in this book are the kinetics of non-linear mass transfer and its effects on hydrodynamic stability in systems with intensive interphase mass transfer, in electrochemical systems with high current density and in chemically reacting systems. In Part 1 the non-linear mass transfer as a result of an intensive interphase mass transfer in the gas (liquid)-solid surface, gas-liquid and liquid-liquid systems is considered in the duffusion boundary layer approximation as well as in flat channel taking the longitudinal diffusion into account. The influence of the direction of the intensive interphase mass transfer on heat transfer and multi-component mass transfer is illustrated. Part 2 discusses non-linear mass transfer in electrochemical systems with high current density using the examples of the anode dissolving of metals in the electrolyte flow and the electro-separation of metals out of concentrated solutions.
links
http://depositfiles.com/files/twdj515ql
or
http://rapidshare.com/files/262128902/0444504281_Non_Linear.rar
