Analysis, Synthesis and Design of Chemical Processes with 3.5 Disk (Prentice Hall International Series in the Physical and Chemical Engineering Sciences) [Hardcover]

Richard Turton (Author), Wallace B. Whiting (Author), Richard C. Bailie (Author)

Book Description

Publication Date: December 1997 | ISBN-10: 0135705657 | ISBN-13: 978-0135705650 | Edition: 1st

For upper-level undergraduate chemical engineering courses in Chemical Engineering Process Design, an A.B.E.T. requirement.Designed to help chemical engineering students make the transition from solving well-posed problems in a specific subject to integrating and applying all the knowledge they have gained to solving open-ended process problems. It is intended to help students hone their design skills through process design, rather than plant design and move them toward becoming practicing engineers. In that way, the book takes a systems- oriented approach, rather than to simply provide a compendium of design information.

Editorial Reviews

From the Inside Flap

Preface

This book represents the culmination of many years of teaching experience in the design program at West Virginia University. Although this program has evolved over more than thirty years and is still evolving, it is fair to say that the current program has gelled over the last ten years through the concerted effort of 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 that creative activity through which engineers continuously improve the operation 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 importantly, 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 it 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.
As a result of our integrated approach to design, we have divided this book into six sections. Section 0, the first chapter in the book, covers the principal diagrams used by chemical engineers. In particular, details of the most important diagram for the analysis of chemical processes are given, namely the Process Flow Diagram (PFD). Section 1 covers the engineering economic aspects of a process, including the material needed for the Fundamentals of Engineering (FE or EIT) exam required as the first step toward professional registration.
Section 2 looks at the common features of all processes and explains how and why we choose the operating conditions in a process. This section also includes some guidelines for preliminary process design.
Section 3 focuses on the performance of existing processes and equipment. This material is substantially different from that found in most textbooks. We consider equipment that is already built and operating and show how to analyze, evaluate, and modify the performance of the system, including process troubleshooting to determine the cause of a process upset.
Section 4 looks at the synthesis of a chemical process. The minimum information required to simulate a process is covered as are the basics of using a process simulator. This section also covers process optimization and heat integration techniques.
Section 5 addresses the role of the professional engineer in society. Separate chapters on ethics and professionalism; health, safety, and the environment; and oral and written communication cover topics crucial to an engineer's success but sometimes overlooked in design courses. An entire chapter is devoted to addressing some of the common mistakes that students make in written reports.
Finally, three appendices are included. Appendix A gives a series of cost charts for equipment. This cost information is also included in the CAPCOST© program for evaluating fixed capital investment introduced in Chapter 2. 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. Appendix C gives six case study problems suitable for individual or group design projects. For a one-term design course, we recommend including the following core:

Chapter 1

Section 2 (Chapters 6-9)

Chapter 17

Chapter 18

Section 5 (Chapters 20-23)

For programs in which engineering economics is not a prerequisite to the design course, Chapters 2 through 5 should also be included. If students have previously covered engineering economics, Chapter 19 (Optimization) could be substituted. For the second term of a two-term sequence, we recommend Chapters 10 through 14 (and Chapter 19 if not included in the first design course) plus design projects. If time permits, we strongly recommend Chapter 15 (Regulating Process Conditions) and Chapter 16 (Process Troubleshooting), as these tend to solidify as well as to extend the concepts of Chapters 10 through 14. Section 3 (Chapters 10-16) addresses the analysis of existing processes and mirrors the type of work that an entry-level process engineer will encounter in the first few years of employment at a chemical process facility.
The chapters, however, can be covered in many different sequences, depending on the background of the students entering the design course. At West Virginia University, for example, we cover Chapters 1, 10-16, 2-5, 19, 21, and 20 (in that order) because the students have covered the material of Chapters 6-9, 17, 18, much of 19, 22, and 23 in prerequisite courses. The second semester is devoted almost entirely to a large-group design project. In addition, during the two-semester sequence, we give our students a sequence of individual design projects. Some examples of these projects are given in Appendix C. Additional projects are available from the authors. Projects C.1, C.3, and C.5 cover the analysis of existing processes and should not be assigned without some coverage of Section 3. The other projects (C.2, C.4, and C.6) are open-ended design projects for new processes. These can be given as individual or small-group projects (3-4 students).
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.
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 faculty will find the excitement in teaching and learning engineering design that has sustained us over the years.
Finally, we would like to thank those people who have been instrumental to the successful completion of this book. First, thanks are given to all the undergraduate chemical engineering students at West Virginia University over the years, particularly during the period 1987-1997. Their feedback and criticism have been a constant source of ideas and stimulation. Second, we would like to thank those people who have read, criticized, and used parts of this text in the course of its preparation. In particular, we would like to recognize Dr. Mark Stadtherr of the University of Notre Dame and Dr. Susan Montgomery of the University of Michigan for their helpful criticism and support. Finally, on a personal note we (RT, RCB, and WBW) would like to thank our long suffering wives (Becky, Judy, and Patricia) for their continued support, love, and patience throughout this prolonged endeavor.

From the Back Cover

Integrate design principles throughout the engineering process for continuous improvement.

Good engineering design is a creative, dynamic, and iterative process. It demands an understanding of the big picture, the minute details, and the skills to balance them. Analysis, Synthesis, and Design of Chemical Processes presents a holistic approach to process design, walking through each step from initial process cost estimation to final process optimization.

The emphasis on solving open-ended problems gives students a taste of real-life engineering in place of artificial classroom exercises. By stressing macro-level analysis, Analysis, Synthesis, and Design of Chemical Processes concentrates on the elements that are common to all engineering projects, rather than specific nuts and bolts issues that change from one application to another.

Major topics include:

* Capital cost estimation and profitability analysis
* Structure and technical analysis of a process flow diagram
* Preliminary equipment design and performance evaluation
* Synthesis and optimization of a chemical process
* Environmental concerns, health and safety, and ethics
* Written and oral communications and report documentation

Analysis, Synthesis, and Design of Chemical Processes grows out of thirty years of experience in engineering design at West Virginia University. The authors include suggestions for using it in both single-semester and year-long courses. Four case studies and six design projects offer practical applications. Extensive reference materials include design heuristics, flow diagrams, and cost equations.

CAPCOST, a Windows-based program for estimating the fixed capital cost of a process, is included with the text. By entering capacity, operating pressure, and materials of construction data for all major process equipment, the total installed cost of a chemical process can be estimated.

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Product Details

• Hardcover: 800 pages
• Publisher: Prentice Hall PTR; 1st edition (December 1997)
• Language: English
• ISBN-10: 0135705657
• ISBN-13: 978-0135705650
• Product Dimensions: 9.1 x 6.9 x 1.5 inches
• Shipping Weight: 2.8 pounds
• Average Customer Review: 4.4 out of 5 stars  See all reviews (5 customer reviews)
• Amazon Best Sellers Rank: #1,965,616 in Books (See Top 100 in Books)

Customer Reviews

Most Helpful Customer Reviews

11 of 13 people found the following review helpful:

5.0 out of 5 stars Great ChemE Book, January 9, 2001

By A Customer

This review is from: Analysis, Synthesis and Design of Chemical Processes with 3.5 Disk (Prentice Hall International Series in the Physical and Chemical Engineering Sciences) (Hardcover)

I really like how they focused on Hysys which is what is mostly used in industry. This is a great book for undergrads and grad taking designs in chemical engineering.

2 of 2 people found the following review helpful:

5.0 out of 5 stars Great book for a rookie chemical engineers!!!, May 2, 2007

By 

Andres Fernando Saldivia Ferro "Andrew One" (Turin, IT) - See all my reviews
(REAL NAME)   

This review is from: Analysis, Synthesis, and Design of Chemical Processes (2nd Edition) (Hardcover)

It's a very helpful book for getting a real and useful information about the common tasks and activities in the engineering design

4.0 out of 5 stars Chemical Engineering Design, October 12, 2011

By 

Jkahn - See all my reviews

Amazon Verified Purchase

This review is from: Analysis, Synthesis and Design of Chemical Processes (3rd Edition) (Hardcover)

Pretty good book. The condition of the book was great. There are parts of the context that I may disregard and find elsewhere, but it's easy to read and informative. One problem I've run into so far is that there are a few examples where the values used are not referenced where they came from or what they are (not even units) and it may take awhile to figure out.