ISBN 9788126520329,Product & Process Design Principles: Synthesis, Analysis And Evaluation, 2Nd Ed

Product & Process Design Principles: Synthesis, Analysis And Evaluation, 2Nd Ed

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ISBN 9788126520329
Publisher

Wiley India Pvt Ltd

Publication Year 2009
ISBN-13

ISBN 9788126520329

ISBN-10 8126520329
Binding

Paperback

Number of Pages 820 Pages
Language (English)
Subject

Chemical engineering

About The Author Wareen D. Seider is Professor of Chemical Engineering at the University of Pennsylvania. He received a B.S. degree from the Polytechnic Institute of Brooklyn and M.S. and Ph.D. degrees from the University of Michigan. Seider has contributed to the fields of process analysis, simulation, design, and control. He co-authored FLOWTRAN. Simulation -An Introduction in 1974 and has coauthored the design course at Penn for over 20 years involving projects provided by many practicing engineers in the Philadelphia area. He has authored or coauthored over 80 journal articles and authored or edited six books. J.D. Seader is Professor of Chemical Engineering at the University of Utah. He received B.S. and M.S. degrees from the University of California at Berkeley and a Ph.D. from the University of Wisconsin. From 1952 to 1959, he designed processes for Chevron Research and directed the development of one of the first computer-aided process design programs. From 1959 to 1965, he conducted rocket engine research for Rocketdyne on all of the engines that took astronauts to the moon. Before joining the faculty at the University of Utah in 1966, Saeder was a professor at the University of Idaho. He is the author or coauthor of 109 technical articles, seven books, and four patents. Daniel R. Lewin is Professor of Chemical Engineering and the director of the Process Systems Engineering (PSE) research group at the Technion, the Israel Institute of Technology. He received his B.Sc. from the University of Edinburgh and his D.Sc. from the Technion. His research focuses on the interaction of Process design and process control and operations, with emphasis on model-based methods. He has authored and coauthored over 90 Technical publications in the area of process systems engineering, as well as the first edition of this textbook, and the multimedia CD that accompanies it. Table Of Contents Part I: Product and Process Invention-Heuristics and Analysis The Design Process Molecular Structure Design Process Creation Simulation to Assist in Process Creation Heuristics for Process Synthesis Part II: Detailed Process Synthesis- Algorithmic Methods Reactor Design and Reactor Network Synthesis Synthesis of Separation Trains Reactor-Separator-Recycle Networks (CD-ROM) Second Law Analysis (CD-ROM) Heat and Power Integration Mass Integration Optimal Design and Scheduling of Batch Processes Part III: Detailed Design, Equipment Sizing and Optimization Configured Product Design Heat Exchanger Design Multisage and Packed Tower Design Pumps, Compressors, and Expanders Cost Accounting and Capital Cost Estimation Annual Costs, Earnings, and Profitability Analysis Optimization of Process Flowsheets Product Design Part IV: Plantwide Controllability Assessment The Interaction of Process Design and Process Control Flowsheet Controllability Analysis Part V: Design Report Written Reports and Oral Presentations Appendix I. Residue Curves for Heterogeneous Systems Appendix II. Design Problem Statements (CD-ROM) Appendix III. Materials of Construction Name Index Subject Index Was this product information helpful? Yes No TABLE OF CONTENTS Part I: Product and Process Invention-Heuristics and Analysis 1. The Design Process 2. Molecular Structure Design 3. Process Creation 4. Simulation to Assist in Process Creation 5. Heuristics for Process Synthesis Part II: Detailed Process Synthesis - Algorithmic Methods 6. Reactor Design and Reactor Network Synthesis 7. Synthesis of Separation Trains 8. Reactor-Separator-Recycle Networks (CD-ROM) 9. Second Law Analysis (CD-ROM) 10. Heat and Power Integration 11. Mass Integration 12. Optimal Design and Scheduling of Batch Processes Part III: Detailed Design, Equipment Sizing and Optimization Configured Product Design 13. Heat Exchanger Design 14. Multisage and Packed Tower Design 15. Pumps, Compressors, and Expanders 16. Cost Accounting and Capital Cost Estimation 17. Annual Costs, Earnings, and Profitability Analysis 18. Optimization of Process Flow sheets 19. Product Design Part IV: Plant wide Controllability Assessment 20. The Interaction of Process Design and Process Control 21. Flow sheet Controllability Analysis Part V: Design Report 22. Written Reports and Oral Presentations Appendix I. Residue Curves for Heterogeneous Systems Appendix II. Design Problem Statements (CD-ROM) Appendix III. Materials of Construction Name Index Subject Index
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