Catalogue


Analysis, synthesis, and design of chemical processes /
Richard Turton ... [et al.].
edition
2nd ed.
imprint
Upper Saddle River, N.J. : Prentice Hall, c2003.
description
xxxi, 987 p. : ill. ; 25 cm. + 1 CD-ROM (4 3/4 in.)
ISBN
0130647926
format(s)
Book
Holdings
Subjects
More Details
added author
imprint
Upper Saddle River, N.J. : Prentice Hall, c2003.
isbn
0130647926
catalogue key
4838062
 
Includes bibliographical references and index.
A Look Inside
Excerpts
Introduction or Preface
Preface This book represents the culmination of many years of teaching experience in the senior design course at West Virginia University (WVU) and University of Nevada, Reno. Although the program at WVU has evolved over the last thirty years and is still evolving, it is fair to say that the current program has gelled over the last fifteen years as a concerted effort by the authors to integrate "design" throughout the undergraduate curriculum in chemical engineering. We view design as the focal point of chemical engineering practice. Far more than the development of a set of specifications for a new chemical plant, design is the creative activity through which engineers continuously improve the operations of facilities to create products that enhance the quality of life. Whether developing the grass-roots plant, proposing and guiding process modifications, or troubleshooting and implementing operational strategies for existing equipment, engineering design requires a broad spectrum of knowledge and intellectual skills to be able to analyze the big picture and the minute details and, most important, to know when to concentrate on each. Our vehicle for helping students develop and hone their design skills is process design rather than plant design, covering synthesis of the entire chemical process through topics relating to the preliminary sizing of equipment, flowsheet optimization, economic evaluation of projects, and the operation of chemical processes. The purpose of this text is to assist chemical engineering students in making the transition from solving well-posed problems in a specific subject to integrating all the knowledge that they have gained in their undergraduate education and applying this information to solving open-ended process problems. Many of the "nuts and bolts" issues regarding plant design (for example, what schedule pipe to use for a given stream or what corrosion allowance to use for a vessel in a certain service) are not covered. Although such issues are clearly important to the practicing engineer, several excellent handbooks and textbooks are available to address such problems, and these are cited in the text where they apply. In the second edition, we have rearranged material from the first edition and have added several new chapters. The new material includes the following: Chapter 0, titled Outcomes assessment, addresses the subject from both student and faculty perspectives, including the relationship to the ABET EC 2000 criteria for accreditation of engineering programs in the United States. The material in Chapter 1 on process diagrams has been expanded to include some preliminary plant layout information. The topology of the chemical plant is introduced with the help of three-dimensional graphics tools. A digital "movie" is included on the CD accompanying the book, which gives a "virtual plant tour" of a simple chemical process. Material on the structure, synthesis, and conceptual design of chemical processes is added to the new Chapter 2. The hierarchical approach to conceptual design is presented with several examples. The chapter on capital cost estimation (new Chapter 5) has been revised, and new capital cost estimates for process equipment are presented (in Appendix A) which are based on an extensive survey of equipment manufacturers carried out during 2001. The CAPCOST program for estimating the fixed capital cost of building a new chemical plant has been revised extensively. The program is now written in the form of a Microsoft? Excel? template. The new capital costs from Chapter 5 and Appendix A are included. In addition, a full financial analysis, including operating costs, raw material costs, cash flow diagrams, and a Monte Carlo simulation feature, is included. Detailed calculations on how to estimate utility costs are included in the new Chapter 6 (old Chapter 3). Raw material costs and fuel cost
First Chapter

Preface

This book represents the culmination of many years of teaching experience in the senior design course at West Virginia University (WVU) and University of Nevada, Reno. Although the program at WVU has evolved over the last thirty years and is still evolving, it is fair to say that the current program has gelled over the last fifteen years as a concerted effort by the authors to integrate "design" throughout the undergraduate curriculum in chemical engineering.

We view design as the focal point of chemical engineering practice. Far more than the development of a set of specifications for a new chemical plant, design is the creative activity through which engineers continuously improve the operations of facilities to create products that enhance the quality of life. Whether developing the grass-roots plant, proposing and guiding process modifications, or troubleshooting and implementing operational strategies for existing equipment, engineering design requires a broad spectrum of knowledge and intellectual skills to be able to analyze the big picture and the minute details and, most important, to know when to concentrate on each.

Our vehicle for helping students develop and hone their design skills is process design rather than plant design, covering synthesis of the entire chemical process through topics relating to the preliminary sizing of equipment, flowsheet optimization, economic evaluation of projects, and the operation of chemical processes. The purpose of this text is to assist chemical engineering students in making the transition from solving well-posed problems in a specific subject to integrating all the knowledge that they have gained in their undergraduate education and applying this information to solving open-ended process problems. Many of the "nuts and bolts" issues regarding plant design (for example, what schedule pipe to use for a given stream or what corrosion allowance to use for a vessel in a certain service) are not covered. Although such issues are clearly important to the practicing engineer, several excellent handbooks and textbooks are available to address such problems, and these are cited in the text where they apply.

In the second edition, we have rearranged material from the first edition and have added several new chapters. The new material includes the following:

  • Chapter 0, titled Outcomes assessment, addresses the subject from both student and faculty perspectives, including the relationship to the ABET EC 2000 criteria for accreditation of engineering programs in the United States.
  • The material in Chapter 1 on process diagrams has been expanded to include some preliminary plant layout information. The topology of the chemical plant is introduced with the help of three-dimensional graphics tools. A digital "movie" is included on the CD accompanying the book, which gives a "virtual plant tour" of a simple chemical process.
  • Material on the structure, synthesis, and conceptual design of chemical processes is added to the new Chapter 2. The hierarchical approach to conceptual design is presented with several examples.
  • The chapter on capital cost estimation (new Chapter 5) has been revised, and new capital cost estimates for process equipment are presented (in Appendix A) which are based on an extensive survey of equipment manufacturers carried out during 2001.
  • The CAPCOST program for estimating the fixed capital cost of building a new chemical plant has been revised extensively. The program is now written in the form of a Microsoft¨ Excelª template. The new capital costs from Chapter 5 and Appendix A are included. In addition, a full financial analysis, including operating costs, raw material costs, cash flow diagrams, and a Monte Carlo simulation feature, is included.
  • Detailed calculations on how to estimate utility costs are included in the new Chapter 6 (old Chapter 3). Raw material costs and fuel costs have also been updated.
  • The latest tax code information and details of the Modified Accelerated Cost Recovery System (MACRS) method of depreciation are included in Chapter 7 (old Chapter 4).
  • A new section has been added to Chapter 8 (old Chapter 5) on how to quantify risk and the application of probabilistic (Monte Carlo) techniques to the evaluation of project profitability.
  • The chapter detailing the synthesis of a process, Chapter 10 (old Chapter 17), has been expanded. Specifically, the section on separation sequencing has been greatly enhanced. Examples of alternative distillation sequences for both nonazeotropic and azeotropic systems are discussed. A qualitative description of the use of residual curve analysis and its application to azeotropic systems has been included.
  • The section detailing the choice of which thermodynamic package to use in a simulation has been expanded, and several examples of how and when to use different thermodynamic options are covered in chapter 11 (old Chapter 18).
  • The old Chapter 18 on optimization has been split into two chapters (12 and 13).
  • Chapter 12 covers the overall process optimization.
  • Chapter 13 covers the area of pinch technology. The heat exchanger networks (HENs) section has been expanded to cover issues relating to the estimation of heat exchanger surface area for the network and the effect of materials of construction on the cost of the network. The design of mass exchanger networks that parallels the design of HENs has been added to this chapter.
  • New software HENSAD (Heat Exchanger Network Synthesis Analysis and Design) is provided on the CD accompanying the textbook. This software allows the user to construct temperature interval, cascade, temperature-
  • enthalpy diagrams, estimate the optimal approach temperature, and design HENs.
  • The chapters on ethics (21) and safety (22) have been updated to include current web sites, and additional examples have been added.
  • The new Chapter 23 gives a brief introduction to green engineering design methods. The pollution prevention hierarchy is introduced. Green chemistry principles are presented, and flowsheet analysis for pollution prevention is discussed. Examples of the economics of pollution prevention activities and the life cycle analysis module, previously in old Chapter 21 (new Chapter 22), are presented.
  • Chapter 24 introduces the topic of chemical product design. This subject is defined to include application of chemical engineering principles to the development of new devices, new chemicals, new processes to produce these new chemicals, and marketable technology. Examples from our experience with class assignments involving chemical product design are included.
  • Chapter 25 covers the essential elements of team building and teamwork. The reader is guided though the essential stages of teamwork in the context of a design assignment. Choice of group members, initial organization determination, roles within and outside the group, group management, team building, team member roles and responsibilities, and team self-evaluation are described. References to the most accessible team-building literature are given. Examples of problems typically encountered by poorly functioning teams are included.

As a result of our integrated approach to design, and in response to feedback on the first edition, we have rearranged and modularized this book into six sections:

  • Section 1—Conceptualization and Analysis of Chemical Processes
  • Section 2—Engineering Economic Analysis of Chemical Processes
  • Section 3—Synthesis and Optimization of Chemical Processes
  • Section 4—Analysis of Process Performance
  • Section 5—The Impact of Chemical Engineering Design on Society
  • Section 6— Interpersonal and Communication Skills

This reorganization of material provides a more logical ordering of topics. In Section 1, the student is introduced first to the principal diagrams that are used to describe a chemical process. Next, the evolution and generation of different process configurations are covered. Finally, the analysis of existing processes is covered. In Section 2, the information needed to assess the economic feasibility of a process is covered. This includes the estimation of fixed capital investment and manufacturing costs, the concepts of the time value of money and financial calculations, and finally the combination of these costs into profitability measures for the process. Section 3 covers the synthesis of a chemical process. The minimum information required to simulate a process is given, as are the basics of using a process simulator. The choice of the appropriate thermodynamic model to use in a simulation is covered and the choice of separation operations is covered. In addition, process optimization and heat integration techniques are covered in this section. In Section 4, the analysis of the performance of existing processes and equipment is covered. The material in Section 4 is substantially different from that found in most textbooks. We consider equipment that is already built and operating and analyze how the operation can be changed, how an operating problem may be solved, and how to analyze what has occurred in the process to cause an observed change. In Section 5, the impact of chemical engineering design on society is covered. The role of the professional engineer in society is addressed. Separate chapters addressing ethics and professionalism, health, safety, and the environment, green engineering, and chemical product design are included. Finally, in Section 6, the interpersonal skills required by the engineer to function as part of a team and to communicate both orally and written are covered. An entire chapter is devoted to addressing some of the common mistakes that students make in written reports.

Finally, two appendices are included. Appendix A gives a series of cost charts for equipment. This information is embedded in the CAPCOST program for evaluating fixed capital investments and process economics. Appendix B gives the preliminary design information for four chemical processes: dimethyl ether, acrylic acid, acetone, and heptenes production. This information is used in many of the end-of-chapter problems in the book. These processes can also be used as the starting point for more detailed analyses, for example, optimization studies. Other projects are included on the CD accompanying this book. The reader (faculty and students) is also referred to our web site athttp://www2.cemr.wvu.edu/~wwwche/publications/projects/index.html, where a variety of design projects for sophomore- through senior-level chemical engineering courses is provided. There is also a link to another web site that contains environmentally related design projects.

For a one-semester design course, we recommend including the following core:

  • Section 1—Chapters 1 through 4
  • Section 3—Chapters 9, 10, and 11
  • Section 5—Chapters 21 and 22
  • Section 6—Chapters 26 and 27

For programs in which engineering economics is not a prerequisite to the design course, Section 2 (Chapters 5Ð8) should also be included. If students have previously covered engineering economics, Chapters 12 and 13 covering optimization and pinch technology could be substituted.

For the second term of a two-term sequence, we recommend Chapters 14 through 18 (and Chapters 12 and 13 if not included in the first design course) plus design projects. If time permits, we also recommend Chapter 19 (Regulating Process Conditions) and Chapter 20 (Process Troubleshooting) as these tend to solidify as well as extend the concepts of Chapters 14 through 18, that is, what an entry-level process engineer will encounter in the first few years of employment at a chemical process facility. For an environmental emphasis, Chapter 23 could be substituted for Chapters 19 and 20; however, it is recommended that supplementary material be included.

We have found that the most effective way both to enhance and to examine student progress is through oral presentations in addition to the submission of written reports. During these oral presentations, individual students or a student group defend their results to a faculty panel, much like a graduate student defends a thesis or dissertation.

As design is at its essence a creative, dynamic, challenging, and iterative activity, we welcome feedback on and encourage experimentation with this design textbook. We hope that students and faulty will find the excitement in teaching and learning engineering design that has sustained us over the years.

Summaries
Long Description
A new edition of this title is available, ISBN-10: 0135129664 ISBN-13: 9780135129661
Long Description
Appropriate for all courses in chemical engineering process design. Analysis, Synthesis and Design of Chemical Processes, Second Edition moves chemical engineering students beyond neatly delineated classroom exercises and into the world of solving the open-ended process problems they will see in practice. The authors accomplish this by emphasizing design synthesis of the entire processfrom equipment sizing to optimization, finances to operation. Drawing on over 30 years of teaching chemical engineering process design, they present design as a creative process that integrates the big picture with the small details, and relies on knowing which to stress, and why. They show students how to apply key process design techniques to every aspect of the discipline, from the conceptual design of a plant to improving an existing process. This edition has been updated throughout, and contains extensive new coverage of environmental, health, and safety issues, green engineering, and engineering ethics. Coverage also includes: evolution and generation of multiple process configurations; estimating capital investment, manufacturing cost, and other economic factors; synthesis and optimization of chemical processes; performance analysis of existing processes and equipment; and more. The authors provide suggested curricula for both single-semester and year-long design courses, case studies and design projects with practical applications, and appendices with current equipment cost data and preliminary design information for four chemical processes. The accompanying CD-ROM contains powerful tools for helping students master chemical process design, including a thoroughly revised version of CAPCOST for evaluating fixed capital investments and full process economics; HENSAD for planning temperatures and heat exchange; a virtual plant tour of a simple chemical process; and additional student design projects.
Main Description
An integrative approach to continuous improvement in chemical engineering.Process design skills are the focal point of sound chemical engineering. In this second edition of "Analysis, Synthesis, and Design of Chemical Processes," the authors present design as a creative process that integrates the big picture and the small details-and relies on knowing which to stress, and why. These techniques are applied to every aspect of the discipline, from the conceptual design of a plant to improving an existing process, and more."Analysis, Synthesis, and Design of Chemical Processes" moves chemical engineering students beyond neatly delineated classroom exercises and into the world of solving the open-ended process problems they will see in practice. The authors accomplish this by emphasizing design synthesis of the entire process--from equipment sizing to optimization, from finances to operation. Coverage includes: Evolution and generation of different process configurationsEstimating capital,investment, manufacturing costs, and other economic factorsSynthesis and optimization of chemical processesPerformance analysis of existing processes and equipment Environmental concerns, green engineering, engineering ethics, and health and safetyWritten and oral communications and teamwork"Analysis, Synthesis, and Design of Chemical Processes" represents over 30 years of chemical engineering teaching at West Virginia University. Included are suggested curricula for both single-semester and year-long design courses, case studies and design projects with practical applications, and appendices with current equipment cost data andpreliminary design information for four chemical processes.About the CD-ROMThe CD-ROM contains a heavily revised version of CAPCOST, now in the form of a spreadsheet template, which is used for evaluating fixed capital investme
Back Cover Copy
An integrative approach to continuous improvement in chemical engineering. Process design skills are the focal point of sound chemical engineering. In this second edition of Analysis, Synthesis, and Design of Chemical Processes, the authors present design as a creative process that integrates the big picture and the small details-and relies on knowing which to stress, and why. These techniques are applied to every aspect of the discipline, from the conceptual design of a plant to improving an existing process, and more. Analysis, Synthesis, and Design of Chemical Processes moves chemical engineering students beyond neatly delineated classroom exercises and into the world of solving the open-ended process problems they will see in practice. the authors accomplish this by emphasizing design synthesis of the entire process from equipment sizing to optimization, from finances to operation. Coverage includes: Evolution and generation of different process configurations Estimating capital investment, manufacturing costs, and other economic factors Synthesis and optimization of chemical processes Performance analysis of existing processes and equipment Environmental concerns, green engineering, engineering ethics, and health and safety Written and oral communications and teamwork Analysis, Synthesis, and Design of Chemical Processes represents over 30 years of chemical engineering teaching at West Virginia University. Included are suggested curricula for both single-semester and year-long design courses, case studies and design projects with practical applications, and appendices with current equipment cost data and preliminary design information for four chemical processes. About the CD-ROM The CD-ROM contains a heavily revised version of CAPCOST, now in the form of a spreadsheet template, which is used for evaluating fixed capital investments and full process economics. the HENSAD application allows the user to construct temperature interval, cascade, and temperature-enthalpy diagrams; estimate the optimal approach temperature; and design heat exchanger networks. Also included are a virtual plant tour of a simple chemical process and additional student design projects.
Table of Contents
Preface
List of Nomenclature
Outcomes Assessment
For Students
For Faculty
Conceptualization and Analysis of Chemical Processes
Diagrams for Understanding Chemical Processes
Block Flow Diagram (BFD)
Process Flow Diagram (PFD)
Piping and Instrumentation Diagram (P &ID)
Additional Diagrams
3-Dimensional Representation of a Process
The 3-D Plant Model
The Structure and Synthesis of Process Flow Diagrams
Introduction
Step 1 -Batch vs
Continuous Process
Step 2 -The Input-Output Structure of the Process
Step 3 -The Recycle Structure of the Process
Step 4 -General Structure of the Separation System
Step 5 -Heat-Exchanger Network or Process Energy Recovery System
Information Required and Sources
Tracing Chemicals through the Process Flow Diagram
Guidelines and Tactics for Tracing Chemicals
Tracing Primary Paths Taken by Chemicals in a Chemical Process
Recycle and Bypass Streams
Tracing Nonreacting Chemicals
Limitations
Written Process Description
Understanding Process Conditions
Conditions of Special Concern for the Operation of Separation and Reactor Systems
Reasons for Operating at Conditions of Special Concern
Conditions of Special Concern for the Operation of Other Equipment
Analysis of Important Process Conditions
Engineering Economic Analysis of Chemical Processes
Estimation of Capital Costs
Classifications of Capital Cost Estimates
Estimation of Purchased Equipment Costs
Estimating the Total Capital Cost of a Plant
Estimation of Manufacturing Costs
Factors Affecting the Cost of Manufacturing a Chemical Product
Cost of Operating Labor
Utility Costs
Raw Material Costs
Yearly Costs and Stream Factors
Estimating Utility Costs from the PFD. Cost of Treating Liquid and Solid Waste Streams
Evaluation of Cost of Manufacture for the Production of Benzene via the Hydrodealkylation of Toluene
Engineering Economic Analysis
Investments and the Time Value of Money
Different Types of Interest
Time Basis for Compound Interest Calculations
Cash Flow Diagrams
Calculations from Cash Flow Diagrams
Inflation
Depreciation of Capital Investment
Taxation, Cash Flow, and Profit
Profitability Analysis
A Typical Cash Flow Diagram for a New Project
Profitability Criteria for Project Evaluation
Comparing Several Large Projects -Incremental Economic Analysis
Establishing Acceptable Returns from Investments -The Concept of Risk
Evaluation of Equipment Alternatives
Incremental Analysis for Retrofitting Facilities
Evaluation of Risk in Evaluating Profitability
Profit Margin Analysis
Synthesis and Optimization of Chemical Processes
Utilizing Experience-Based Principles to Confirm the Suitability of a Process Design
The Role of Experience in the Design Process
Presentation of Tables of Technical Heuristics and Guidelines
Synthesis of the PFD from the Generic BFD
Information Needs and Sources
Reactor Section
Separator Section
Reactor Feed Preparation and Separator Feed Preparation Sections
Recycle Section
Environmental Control Section
Major Process Control Loops
Flow Summary Table
Major Equipment Summary Table
Synthesis of a Process Using a Simulator and Simulator Troubleshooting
The Structure of a Process Simulator
Information Required to Complete a Process Simulation -Input Data
Handling Recycle Streams
Choosing Thermodynamic Models
Case Study -Toluene Hydrodealkylation Process
Process Optimization
Background Information on Optimization
Strategies
Topological Optimization
Parametric Opti
Table of Contents provided by Publisher. All Rights Reserved.

This information is provided by a service that aggregates data from review sources and other sources that are often consulted by libraries, and readers. The University does not edit this information and merely includes it as a convenience for users. It does not warrant that reviews are accurate. As with any review users should approach reviews critically and where deemed necessary should consult multiple review sources. Any concerns or questions about particular reviews should be directed to the reviewer and/or publisher.

  link to old catalogue

Report a problem