Transport Processes and Separation Process Principles 4th Edition by Christie John Geankoplis offers thorough understanding of momentum, heat, and mass transfer processes, as well as separation processes. Totally up to date to replicate the field's newest methods and applications, it covers each basic rules and sensible applications.
The sections on momentum transfer have been significantly expanded, especially the sections on fluidized beds, flow meters, mixing, and non-Newtonian fluids. Material has been added to the chapters on mass transfer. The chapters on absorption, distillation, and liquid-liquid extraction have also been enlarged. Extra new material has been added to the sections on ion trade and crystallization. The chapter on membrane separation processes has been enormously expanded, especially for gas-membrane theory.
The field of chemical engineering concerned with physical and physical-chemical changes of inorganic and natural materials and, to some extent, organic materials is overlapping increasingly with the opposite course of-engineering fields of ceramic engineering, course of metallurgy, agricultural food engineering, wastewater-therapy (civil) engineering, and bioengineering. The rules of momentum, heat, and mass transport and the separation processes are extensively utilized in these processing fields.
The ideas of momentum transfer and heat transfer have been taught to all engineers. The study of mass transfer has been restricted primarily to chemical engineers. However, engineers in other fields have change into extra desirous about mass transfer in gases, liquids, and solids.
Since chemical and different engineering college students should study so many matters at this time, a extra unified introduction to the transport processes of momentum, heat, and mass transfer and to the functions of separation processes is provided. On this text the principles of the transport processes are covered first, and then the separation processes (unit operations). To accomplish this, the text is split into two foremost parts.
Part 1 covers the important principles underlying transport processes: momentum transfer; regular-state and unsteady-state heat transfer; and mass transfer, including both unsteady-state and convective mass transfer. Part 2 covers key separation processes, including evaporation, drying, humidification, absorption, distillation, adsorption, ion change, extraction, leaching, crystallization, dialysis, gas membrane separation, reverse osmosis, filtration, ultrafiltration, microfiltration, settling, centrifugal separation, and more.
This edition's in depth updates and enhancements embrace extra thorough coverage of momentum, heat, and mass transport processes, detailed new coverage of separation course of purposes, drastically expanded coverage of momentum transfer, including fluidized beds and non-Newtonian fluids. There are more detailed discussions of mass transfer, absorption, distillation, liquid-liquid extraction, and crystallization.
In depth new coverage of membrane separation processes and gas-membrane concept is offered with more than 240 example issues and over 550 homework problems reflecting the sector's present methods and applications.
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