Product and Process Design Principles
Product and Process Design Principles

Author: Warren D. Seider

Publisher: John Wiley & Sons

Published: 2017

Total Pages: 778

ISBN-13: 1119282632

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"The new 4th edition of Seider’s 'Product and Process Design Principles : Synthesis, Analysis and Design' covers content for process design courses in the chemical engineering curriculum, showing how process design and product design are inter-linked and why studying the two is important for modern applications. A principal objective of this new edition is to describe modern strategies for the design of chemical products and processes, with an emphasis on a systematic approach. This fourth edition presents two parallel tracks : (1) product design ("what to make"), and (2) process design ("how to make"), with an emphasis on process design. Process design instructors can show easily how product designs lead to new chemical processes. Alternatively, product design can be taught in a separate course subsequent to the process design course."--adapted from description on publisher web site.

Polymerization
Polymerization

Author: Ailton De Souza Gomes

Publisher: BoD – Books on Demand

Published: 2012-09-12

Total Pages: 440

ISBN-13: 9535107453

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This book comprises the contributions of several authors in the area of polymer characterization by atomic force microscopy of the polymer network structure formed in Ferroelectric Liquid Crystals Cells; polymerization by microwave irradiation method of starch/acrylic acid/acrylamide; polymerization of olefins; emulsion polymerization; ring opening polymerization; cationic polymerization of vinyl monomers ; block and graft copolymerization by controlled/living polymerization; fabrication of doped microstructures by two-photon polymerization; rheology of biomaterials; plant cell wall polymers; polyADP-Ribosylation in postfertilization and genome reprogramming . We hope that this book will help inspire readers to pursue study and research in this field.

Vapor-Liquid Equilibria Using Unifac
Vapor-Liquid Equilibria Using Unifac

Author: Aage Fredenslund

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 393

ISBN-13: 0444601503

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Vapor-Liquid Equilibria Using UNIFAC: A Group-Contribution Method focuses on the UNIFAC group-contribution method used in predicting quantitative information on the phase equilibria during separation by estimating activity coefficients. Drawing on tested vapor-liquid equilibrium data on which UNIFAC is based, it demonstrates through examples how the method may be used in practical engineering design calculations. Divided into nine chapters, this volume begins with a discussion of vapor and liquid phase nonidealities and how they are calculated in terms of fugacity and activity coefficients, respectively. It then introduces the reader to the UNIFAC method and how it works, the procedure used in establishing the parameters needed for the model, prediction of binary and multicomponent vapor-liquid equilibria for a large number of systems, the potential of UNIFAC for predicting liquid-liquid equilibria, and how UNIFAC can be used to solve practical distillation design problems. This book will benefit process design engineers who want to reliably predict phase equilibria for designing distillation columns and other separation processes.

Azeotropic Data
Azeotropic Data

Author: Jürgen Gmehling

Publisher: Wiley-VCH

Published: 1994

Total Pages: 914

ISBN-13:

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Separation processes are a multi-billion dollar business. In the United States alone there are more than 40,000 distillation columns which require approximately 7.0 % of the total US energy consumption for operation. Azeotropic data and zeotropic information are essential for the optimal design and synthesis of distillation processes. The book highlights the best way to separate azeotropic systems using hybrid or specialized distillation processes such as pressure swing, azeotropic or extractive distillation. This extensive two-volume compilation covers nearly all data currently available for binary and higher systems. This knowledge is the key for the successful separation of these azeotropic systems. The reader will be inspired by the sheer volume of data for more than 18800 systems involving approximately 1700 compounds. These data are carefully evaluated, documented and arranged according to molecular formula for easy access. The best thermal separation conditions for industry and environmental protection can be achieved through this practical source. In addition to chemical engineers and physical chemists, scientists active in process engineering and environmental protection and will find themselves fully equipped to deal with any separation task.