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Product and Process Design Principles: Synthesis, Analysis and Evaluation, 4th Edition

Product and Process Design Principles: Synthesis, Analysis and Evaluation, 4th Edition

Warren D. Seider, Daniel R. Lewin, J. D. Seader, Soemantri Widagdo, Rafiqul Gani, Ka Ming Ng

ISBN: 978-1-119-25733-2

May 2016

772 pages

$76.00

Description

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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, and (2) process design, 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.

Related Resources

PART ONE INTRODUCTION TO PRODUCT AND PROCESS DESIGN 1

Chapter 1 Introduction to Chemical Product Design 3

Chapter 2 Introduction to Process Design 19

Chapter 3 Design Literature, Stimulating Innovation, Energy, Environment,Sustainability, Safety, Engineering Ethics 47

PART TWO DESIGN SYNTHESIS — PRODUCT AND PROCESSES 77

Chapter 4 Molecular and Mixture Design 79

Chapter 5 Design of Chemical Devices, Functional Products, and Formulated Products 110

Chapter 6 Heuristics for Process Synthesis 132

Chapter 7 Simulation to Assist in Process Creation 162

Chapter 8 Synthesis of Networks Containing Reactors 209

Chapter 9 Synthesis of Separation Trains 234

Chapter 10 Second-Law Analysis 287

Chapter 11 Heat and Power Integration 316

Chapter 12 Heat Exchanger Design 358

Chapter 13 Separation Tower Design 386

Chapter 14 Pumps, Compressors, and Expanders 397

Chapter 15 Chemical Reactor Design 405

Chapter 16 Cost Accounting and Capital Cost Estimation 426

Chapter 17 Annual Costs, Earnings, and Profitability Analysis 498

PART THREE DESIGN ANALYSIS — PRODUCT AND PROCESS 551

Chapter 18 Six-Sigma Design Strategies 553

Chapter 19 Business Decision Making in Product Development 566

Chapter 20 Plantwide Controllability Assessment 576

Chapter 21 Design Optimization 597

Chapter 22 Optimal Design and Scheduling of Batch Processes 616

PART FOUR DESIGN REPORTS — PRODUCT AND PROCESS 629

Chapter 23 Written Reports and Oral Presentations 631

PART FIVE CASE STUDIES — PRODUCT AND PROCESS DESIGNS 643

Chapter 24 Case Study 1 — Home Hemodialysis Devices 645

Chapter 25 Case Study 2 — High Throughput Screening Devices for Kinase Inhibitors 657

Chapter 26 Case Study 3 — Die Attach Adhesive: A Case Study of Product Development 674

Chapter 27 Case Study 4 — Ammonia Process 683

Appendix I Residue Curves for Heterogeneous Systems 704

Appendix II Design Problem Statements by Area 705

Appendix III Materials of Construction 709

Table of Acronyms 711

Author Index 719

Subject Index 725

 

  • New organization of pedagogy follows a 5 part distribution for a more smooth transition between process and product design.
  • Presentation of product and process design has been re-organized into two separate, although related, activities so that the two topics can be taught separately or together.
  • Each case study involves some engineering design calculations and/or lab data regression to be performed by students.
  • New chapters provide additional content at no added length.
  • Updated and revised examples are supplemented with videos and illustrations.

Resources

Instructor

  • Instructor’s Solution Manual
  • Preface to Instructor Resources
  • PowerPoint Presentations: Our PowerPoint™ presentations contain a combination of key concepts allowing you to illustrate important topics with images, figures, and problems from the textbook.
  • Image Gallery: Use this digital repository of images displayed throughout the textbook to enliven your PowerPoint slides and interact with the reading assignments in the classroom.
  • Computer Solution Files
  • Module Instruction Sequence
  • Using Process Simulators in Chemical Engineering Software
  • Program and Simulation Files

Student

  • Preface to Students Resources
  • Using Process Simulators in Chemical Engineering Software
  • Supplemental chapters, in PDF files, from earlier editions;
  • Program and simulation files that solve 60 example problems;
  • 93 design problem statements;
  • Multimedia courseware that uses voice, video, and animation to introduce new users of the steady-state simulators to the specifics of two of the most widely used process simulation programs, ASPEN PLUS and HYSYS (UniSim Design).