Transport Processes and Separation Process Principles (Includes Unit Operations), 4th Edition
©2003 |Pearson | Out of print
Christie John Geankoplis
©2003 |Pearson | Out of print
Appropriate for one-year transport phenomena (also called transport processes) and separation processes course. First semester covers fluid mechanics, heat and mass transfer; second semester covers separation process principles (includes unit operations).
The title of this Fourth Edition has been changed from Transport Processes and Unit Operations to Transport Processes and Separation Process Principles (Includes Unit Operations). This was done because the term Unit Operations has been largely superseded by the term Separation Processes which better reflects the present modern nomenclature being used. The main objectives and the format of the Fourth Edition remain the same. The sections on momentum transfer have been greatly expanded, especially in the sections on fluidized beds, flow meters, mixing, and non-Newtonian fluids. Material has been added to the chapter on mass transfer. The chapters on absorption, distillation, and liquid-liquid extraction have also been enlarged. More new material has been added to the sections on ion exchange and crystallization. The chapter on membrane separation processes has been greatly expanded especially for gas-membrane theory.
Sample chapter is available for download in PDF format.
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The comprehensive, unified, up-to-date guide to transport and separation processes.
° A more thorough coverage of momentum, heat, and mass transport processes and new coverage of separation process applications.
° Greatly expanded coverage of momentum transfer, including fluidized beds and non-Newtonian fluids.
° More detailed discussions of mass transfer, absorption, distillation, liquid-liquid extraction, and crystallization.
Enables the student who must study so many topics today to better understand their interrelationships.
Presents topics that are especially important in the chemical engineering field.
Allows a fundamental understanding of the theory of separation processes.
Exposes the student to the newer applications in these separation processes.
Gives the student knowledge in these newly expanding membrane processes.
I. TRANSPORT PROCESSES: MOMENTUM, HEAT, AND MASS.
II. SEPARATION PROCESS PRINCIPLES (INCLUDES UNIT OPERATIONS).
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CHRISTIE JOHN GEANKOPLIS is a Professor of Chemical Engineering and Materials Science at the University of Minnesota. His current research interests involve transport processes, biochemical reactor engineering, mass transfer in liquid solutions, and diffusion and/or reaction in porous solids. He holds a Ph.D. in Chemical Engineering from the University of Pennsylvania.
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