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Coulson & Richardson's Chemical engineering Volume 6

Coulson & Richardson's Chemical engineering. Volume 6, Chemical engineering design
0750641428,9780750641425
Butterworth-Heinemann

Introduction to design; Fundamentals of material balances; Fundamentals
of energy balances (and energy utilisation); Flow-sheeting; Piping and
instrumentation; Costing and project evaluation; Materials of
construction; Design information and data; Safety and loss prevention;
Equipment selection, specification and design; Separation columns
(distillation, absorbtion and extraction); Heat-transfer equipment;
Mechanical design of process equipment; General site considerations;
Appendices; Indices.

Coulson and Richardson's classic series provides the student with an
account of the fundamentals of chemical engineering and constitutes the
definitive work on the subject for academics and practitioners. This
volume covers the application of chemical engineering principles to the
design of chemical processes and equipment. After an introductory
chapter on the nature and methodology of the design process and its
application to the design of chemical manufacturing processes -
subsequent chapters cover process design and detail, safety and loss
prevention, equipment selection, costings and flow sheets in depth.
Later chapters cover the detailed design for equipment for separation
processes and heat exchange. The mechanical design of process equipment
is also included and a chapter on more general site considerations
closes the book.


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Ebook.Book.

Chemical Engineering Volume 3

Chemical Engineering Volume 3 Chemical Engineering Volume 3 Chemical and Biochemical Reactors & Process Control
D G Peacock, J.F. Richardson
0080410030,9780080410036
Heinemann Educational Publishers

Reactor Design - General Principles; Flow Characteristics of Reactors -
Flow Modelling; Gas-Solid Reactions and Reactors; Gas-Liquid and
Gas-Liquid-Solid Reactors; Biochemical Reaction Engineering; Sensors
for Measurement and Control; Process Control; Problems.

The publication of the third edition of 'Chemical Engineering Volume 3'
marks the completion of the re-orientation of the basic material
contained in the first three volumes of the series. Volume 3 is devoted
to reaction engineering (both chemical and biochemical), together with
measurement and process control. This text is designed for students,
graduate and postgraduate, of chemical engineering.

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Ebook.Book.

Chemical Engineering Volume 2

Chemical Engineering Volume 2 Particle technology and separation processes

Coulson, J. M.
0750644451,9780750644457
Butterworth-Heinemann

Introduction; Particulate Solids; Particle size reduction and
enlargement; Motion of particles in a fluid; Flow of fluids through
granular beds and packed columns; Sedimentation; Fluidisation; Liquid
filtration; Membrane separation processes; Centrifugal separations;
Leaching; Distillation; Absorption of gases; Liquid-liquid extraction;
Evaporation; Crystallisation; Drying; Adsorption; Ion Exchange;
Chromatographic separations; Product design and process
intensification; Appendices; Problems; Index.

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Ebook.Book.

Chemical Engineering Volume 1 Coulson

Chemical Engineering Volume 1: Fluid Flow, Heat Transfer and Mass Transfer

Coulson, J. M.
0750644443,9780750644440
Butterworth-Heinemann

1.
Units and Dimensions
1
1.1
Introduction
1
1.2
Systems of units
2
1.3
Conversion of units
9
1.4
Dimensional analysis
12
1.5
Buckingham's [Pi] theorem
15
1.6
Redefinition of the length and mass dimensions
20
1.7
Further reading
22
1.8
References
22
1.9
Nomenclature
22
Part 1
Fluid Flow
25
2.
Flow of Fluids -- Energy and Momentum Relationships
27
2.1
Introduction
27
2.2
Internal energy
27
2.3
Types of fluid
30
2.4
The fluid in motion
39
2.5
Pressure-volume relationships
48
2.6
Rotational or vortex motion in a fluid
50
2.7
Further reading
55
2.8
References
56
2.9
Nomenclature
56
3.
Flow of Liquids in Pipes and Open Channels
58
3.1
Introduction
58
3.2
The nature of fluid flow
59
3.3
Newtonian fluids
62
3.4
Non-Newtonian Fluids
103
3.5
Further reading
138
3.6
References
139
3.7
Nomenclature
140
4.
Flow of Compressible Fluids
143
4.1
Introduction
143
4.2
Flow of gas through a nozzle or orifice
143
4.3
Velocity of propagation of a pressure wave
152
4.4
Converging-diverging nozzles for gas flow
154
4.5
Flow in a pipe
158
4.6
Shock waves
174
4.7
Further reading
178
4.8
References
179
4.9
Nomenclature
179
5.
Flow of Multiphase Mixtures
181
5.1
Introduction
181
5.2
Two-phase gas (vapour)-liquid flow
182
5.3
Flow of solids-liquid mixtures
195
5.4
Flow of gas-solids mixtures
213
5.5
Further reading
226
5.6
References
227
5.7
Nomenclature
229
6.
Flow and Pressure Measurement
232
6.1
Introduction
232
6.2
Fluid pressure
233
6.3
Measurement of fluid flow
243
6.4
Further reading
272
6.5
References
272
6.6
Nomenclature
272
7.
Liquid Mixing
274
7.1
Introduction -- types of mixing
274
7.2
Mixing mechanisms
277
7.3
Scale-up of stirred vessels
280
7.4
Power consumption in stirred vessels
282
7.5
Flow patterns in stirred tanks
294
7.6
Rate and time for mixing
298
7.7
Mixing equipment
301
7.8
Mixing in continuous systems
310
7.9
Further reading
311
7.10
References
311
7.11
Nomenclature
312
8.
Pumping of Fluids
314
8.1
Introduction
314
8.2
Pumping equipment for liquids
315
8.3
Pumping equipment for gases
344
8.4
The use of compressed air for pumping
358
8.5
Vacuum pumps
364
8.6
Power requirements for pumping through pipelines
367
8.7
Further reading
376
8.8
References
376
8.9
Nomenclature
377
Part 2
Heat Transfer
379
9.
Heat Transfer
381
9.1
Introduction
381
9.2
Basic considerations
381
9.3
Heat transfer by conduction
387
9.4
Heat transfer by convection
414
9.5
Heat transfer by radiation
438
9.6
Heat transfer in the condensation of vapours
471
9.7
Boiling liquids
482
9.8
Heat transfer in reaction vessels
496
9.9
Shell and tube heat exchangers
503
9.10
Other forms of equipment
540
9.11
Thermal insulation
555
9.12
Further reading
561
9.13
References
562
9.14
Nomenclature
566
Part 3
Mass Transfer
571
10.
Mass Transfer
573
10.1
Introduction
573
10.2
Diffusion in binary gas mixtures
575
10.3
Multicomponent gas-phase systems
593
10.4
Diffusion in liquids
596
10.5
Mass transfer across a phase boundary
599
10.6
Mass transfer and chemical reaction
626
10.7
Mass transfer and chemical reaction in a catalyst pellet
634
10.8
Practical studies of mass transfer
646
10.9
Further reading
654
10.10
References
655
10.11
Nomenclature
656
Part 4
Momentum, Heat and Mass Transfer
661
11.
The Boundary Layer
663
11.1
Introduction
663
11.2
The momentum equation
668
11.3
The streamline portion of the boundary layer
670
11.4
The turbulent boundary layer
675
11.5
Boundary layer theory applied to pipe flow
681
11.6
The boundary layer for heat transfer
685
11.7
The boundary layer for mass transfer
691
11.8
Further reading
692
11.9
References
692
11.10
Nomenclature
692
12.
Momentum, Heat, and Mass Transfer
694
12.1
Introduction
694
12.2
Transfer by molecular diffusion
696
12.3
Eddy transfer
700
12.4
Universal velocity profile
706
12.5
Friction factor for a smooth pipe
713
12.6
Effect of surface roughness on shear stress
715
12.7
Simultaneous momentum, heat and mass transfer
717
12.8
Reynolds analogy
720
12.9
Further reading
735
12.10
References
735
12.11
Nomenclature
735
13.
Humidification and Water Cooling
738
13.1
Introduction
738
13.2
Humidification terms
739
13.3
Humidity data for the air-water system
746
13.4
Determination of humidity
756
13.5
Humidification and dehumidification
759
13.6
Water cooling
762
13.7
Systems other than air-water
779
13.8
Further reading
785
13.9
References
786
13.10
Nomenclature
787

Appendix
789
A1.
Tables of physical properties
790
A2.
Steam tables
806
A3.
Mathematical tables
815

Fold-out charts

Problems
825

Index
869

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Ebook.Book.

Introduction to Environmental Engineering

Mackenzie L Davis, David A Cornwell
0072424117,9780072424119
McGraw Hill

Chapter 1 Introduction

Chapter 2 Materials and Energy Balances

Chapter 3 Hydrology

Chapter 4 Water Treatment

Chapter 5 Water Quality Management

Chapter 6 Wastewater Treatment

Chapter 7 Air Pollution

Chapter 8 Noise Pollution

Chapter 9 Solid Waste Management

Chapter 10 Hazardous Waste Management

Chapter 11 Ionizing Radiation



Appendix A Properties of Air, Water, and Selected Chemicals

Appendix B Noise Computation Nomographs

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Ebook.Book.

Plant Design and Economics for Chemical Engineers

Max S Peters, Klaus D Timmerhaus, Ronald E. West
0072392665,9780072392661
McGraw Hill

1 Introduction

2 General Design Considerations

3 Process Design Development

4 Flowsheet Synthesis and Development

5 Software Use in Process Design

6 Analysis of Cost Estimation

7 Interest, Time Value of Money, Taxes, and Fixed Charges

8 Profitability, Alternative Investments, and Replacements

9 Optimum Design and Design Strategy

10 Materials and Fabrication Selection

11 Written and Oral Reports

12 Materials-Handling Equipment - Design and Costs

13 Reactor Equipment - Design and Costs

14 Heat-Transfer Equipment - Design and Costs

15 Separation Equipment - Design and Costs

Appendix A The International System (SI) of Units

Appendix B Auxiliary, Utility, and Instrumentation Cost Data

Appendix C Design Problems

Appendix D Tables of Physical Properties and Constants

Appendix E Heuristics for Process Equipment Design

Appendix F Software Useful for Design

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Unit Operations of Chemical Engineering

Warren McCabe, Julian Smith, Peter Harriott
0072848235,9780072848236
McGraw Hill

Section 1 Introduction

1 Definitions and Principles

Section 2 Fluid Mechanics

2 Fluid Statics and Its Applications

3 Fluid Flow Phenomena

4 Basic Equations of Fluid Flow

5 Incompressible Flow in Pipes and Channels

6 Flow of Compressible Fluids

7 Flow pastImmersed Objects

8 Transportation and Metering of Fluids

9 Agitation and Mixing of Liquids

Section 3 Heat Transfer and Its Applications

10 Heat Transfer by Conduction

11 Principles of Heat Flow in Fluids

12 Heat Transfer to Fluids without Phase Change

13 Heat Transfer to Fluids with Phase Change

14 Radiation Heat Transfer

15 Heat-Exchange Equipment

16 Evaporation

Section 4 Mass Transfer and Its Applications

17 Principles of Diffusion and Mass Transfer between Phases

18 Gas Absorption

19 Humidification Operations

20 Equilibrium-Stage Operations

21 Distillation

22 Introduction to Multicomponent Distillation

23 Leaching and Extraction

24 Drying of Solids

25 Fixed-Bed Separatons

26 Membrane Separation Processes

27 Crystallization

Section 5 Operations Involving Particulate Solids

28 Properties and Handling of Particulate Solids

29 Mechanical Separations

Appendix 1 Conversion Factors and Constants of Nature

Appendix 2 Dimensionless Groups

Appendix 3 Dimensions, Capacities, and Weights of Standard Steel Pipe

Appendix 4 Condenser and Heat-Exchanger Tube Data

Appendix 5 Tyler Standard Screen Scale

Appendix 6 Properties of Liquid Water

Appendix 7 Properties of Saturated Steam and Water

Appendix 8 Viscosities of Gases

Appendix 9 Viscosities of Liquids

Appendix 10 Thermal Conductivities of Metals

Appendix 11 Thermal Conductivities of Various Solids and Insulating Materials

Appendix 12 Thermal Conductivities of Gases and Vapors

Appendix 13 Thermal Conductivities of Liquids Other Than Water

Appendix 14 Specific Heats of Gases

Appendix 15 Specific Heats of Liquids

Appendix 16 Prandtl Numbers for Gases at 1 atm and 100C

Appendix 17 Prandtl Numbers for Liquids

Appendix 18 Diffusivities and Schmidt Numbers for Gases in Air at 0c and 1 atm

Appendix 19 Collision Integral and Lennard-Jones Force Constants

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Fluid Mechanics for Chemical Engineers

Noel de Nevers
0072566086,9780072566086
McGraw Hill

1 Introduction

Part I Preliminaries

2 Fluid Statics

3 The Balance Equation and the Mass Balance

4 The First Law of Thermodynamics

Part II Flows which are Practically One-Dimensional or can be Treated as Such

5 Bernoulli's Equation

6 Fluid Friction in Steady One-Dimensional Flow

7 The Momentum Balance

8 One-Dimensional High-Velocity Gas Flow

Part III Some Other Topics, Which can be Viewed by the Methods of One-Dimensional Fluid Mechanics

9 Model Studies, Dimensional Analysis, and Similitude

10 Pumps, Compressors, and Turbines

11 Flow Through Porous Media

12 Gas-Liquid Flow

13 Non-Newtonian Fluid Flow in Circular Pipes

14 Surface Forces

Part IV Two- and Three-Dimensional Fluid Mechanics

15 Two- and Three-Dimensional Fluid Mechanics

16 Potential Flow

17 The Boundary Layer

18 Turbulence

19 Mixing

20 Computational Fluid Dynamics, (CFD)

Appendix A Tables and Charts of Fluid Properties, Pipe Dimensions and Flows, and High-Velocity Gas Flows

Appendix B Derivations and Proofs

Appendix C Equations for Two- and Three-Dimensional Fluid Mechanics

Appendix D Answers to Selected Problems

Fluid Mechanics for Chemical Engineers, third edition retains
the characteristics that made this introductory text a success in prior
editions. It is still a book that emphasizes material and energy
balances and maintains a practical orientation throughout. No more math
is included than is required to understand the concepts presented. To
meet the demands of today's market, the author has included many
problems suitable for solution by computer. Two brand new chapters are
included. The first, on mixing, augments the book's coverage of
practical issues encountered in this field. The second, on
computational fluid dynamics (CFD), shows students the connection
between hand and computational fluid dynamics.

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Introduction to Chemical Engineering Thermodynamics

J.M. Smith, Hendrick C Van Ness, Michael Abbott
0073104450,9780073104454
McGraw Hill

Preface

1 Introduction

2 The First Law and Other Basic Concepts

3 Volumetric Properties of Pure Fluids

4 Heat Effects

5 The Second Law of Thermodynamics

6 Thermodynamic Properties of Fluids

7 Applications of Thermodynamics to Flow Processes

8 Production of Power from Heat

9 Refrigeration and Liquefaction

10 Vapor/Liquid Equilbrium: Introduction

11 Solution Thermodynamics: Theory

12 Solution Thermodynamics: Applications

13 Chemical-Reaction Equilibria

14 Topics in Phase Equilibria

15 Thermodynamic Analysis of Processes

16 Introduction to Molecular Thermodynamics

Appendixes

A Conversion Factors and Values of the Gas Constant

B Properties of Pure Species

C Heat Capacities and Property Changes of Formation

D Representative Computer Programs

E The Lee/Kesler Generalized-Correlation Tables

F Steam Tables

G Thermodynamic Diagrams

H UNIFAC Method

I Newton's Method

Author Index

Subject Index

Introduction to Chemical Engineering Thermodynamics, 7/e,
presents comprehensive coverage of the subject of thermodynamics from a
chemical engineering viewpoint. The text provides a thorough exposition
of the principles of thermodynamics and details their application to
chemical processes. The chapters are written in a clear, logically
organized manner, and contain an abundance of realistic problems,
examples, and illustrations to help students understand complex
concepts. New ideas, terms, and symbols constantly challenge the
readers to think and encourage them to apply this fundamental body of
knowledge to the solution of practical problems.

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Introduction to chemical processes

Introduction to chemical processes : principles, analysis, synthesis

Murphy, Regina M
0072849606,9780072849608
McGraw Hill

1 Converting the Earth's Resources into Useful Products

2 Process Flows: Variables, Diagrams, Balances

3 Mathematical Analysis of Material Balance Equations and Process Flow Sheets

4 Synthesis of Reactor Flow Sheets and Selection of Reactor Process Conditions

5 Selection of Separation Technologies and Synthesis of Separation Flow Sheets

6 Process Energy Calculations and Synthesis of Safe and Efficient Energy Flow Sheets

Appendix A: Mathematical Methods

Appendix B: Physical Property Data

Appendix C: Answers to Select Problems

Introduction to Chemical Processes: Principles, Analysis, Synthesis
enhances student understanding of the connection between the chemistry
and the process. Users will find strong coverage of chemistry, gain a
solid understanding of what chemical processes do (convert raw
materials into useful products using energy and other resources), and
learn about the ways in which chemical engineers make decisions and
balance constraints to come up with new processes and products. The
author presents material and energy balances as tools to achieve a real
goal: workable, economical, and safe chemical processes and products.

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Process Systems Analysis and Control

Donald R Coughanowr, Steven LeBlanc

007339789X, 9780073397894

McGraw Hill

Preface

Chapter 1 Introductory Concepts

Part 1 Modeling for Process Dynamics

Chapter 2 Modeling Tools for Process Dynamics

Chapter 3 Inversion by Partial Fractions

Part 2 Linear Open-Loop Systems

Chapter 4 Response of First-Order Systems

Chapter 5 Physical Examples of First-Order Systems

Chapter 6 Response of First-Order Systems in Series

Chapter 7 Higher-Order Systems: Second-Order and Transportation Lag

Part 3 Linear Closed-Loop Systems

Chapter 8 The Control System

Chapter 9 Controllers and Final Control Elements

Chapter 10 Block Diagram of a Chemical-Reactor Control System

Chapter 11 Closed-Loop Transfer Functions

Chapter 12 Transient Response of Simple Control Systems

Chapter 13 Stability

Chapter 14 Root Locus

Part 4 Frequency Response

Chapter 15 Introduction to Frequency Response

Chapter 16 Control System Design by Frequency Response

Part 5 Process Applications

Chapter 17 Advanced Control Strategies

Chapter 18 Controller Tuning and Process Identification

Chapter 19 Control Valves

Chapter 20 Theoretical Analysis of Complex Processes

Part 6 State-Space Methods

Chapter 21 State-Space Representation of Physical Systems

Chapter 22 Transfer Function Matrix

Chapter 23 Multivariable Control

Part 7 Nonlinear Control

Chapter 24 Examples of Nonlinear Systems

Chapter 25 Examples of Phase-Plane Analysis

Part 8 Computers in Process Control

Chapter 26 Microprocessor-Based Controllers and Distributed Control

Bibliography

Index

Process Systems Analysis and Control, third edition retains the clarity of presentation for which this book is well known. It is an ideal teaching and learning tool for a semester-long undergraduate chemical engineering course in process dynamics and control. It avoids the encyclopedic approach of many other texts on this topic. Computer examples using MATLAB® and Simulink® have been introduced throughout the book to supplement and enhance standard hand-solved examples. These packages allow the easy construction of block diagrams and quick analysis of control concepts to enable the student to explore "what-if" type problems that would be much more difficult and time consuming by hand.

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Perry's chemical engineers' handbook

Perry's chemical engineers' handbook
Green, Donald W

9780071422949,0071422943
McGraw Hill

Conversion Factors and Mathematical Symbols
1
James O. Maloney

Physical and Chemical Data
2
Bruce E. Poling
George H. Thomson
Daniel G. Friend
Richard L. Rowley
W. Vincent Wilding

Mathematics
3
Bruce A. Finlayson
Lorenz T. Biegler

Thermodynamics
4
Hendrick C. Van Ness
Michael M. Abbott

Heat and Mass Transfer
5
Hoyt C. Hottel
James J. Noble
Adel F. Sarofim
Geoffrey D. Silcox
Phillip C. Wankat
Kent S. Knaebel

Fluid and Particle Dynamics
6
James N. Tilton

Reaction Kinetics
7
Tiberlu M. Leib
Carmo J. Pereira

Process Control
8
Thomas F. Edgar
Cecil L. Smith
F. Greg Shinskey
George W. Gassman
Andrew W. R. Waite
Thomas J. McAvoy
Dale E. Seborg

Process Economics
9
James R. Couper
Darryl W. Hertz
(Francis) Lee Smith

Transport and Storage of Fluids
10
Meherwan P. Boyce
Victor H. Edwards
Terry W. Cowley
Timothy Fan
Hugh D. Kaiser
Wayne B. Geyer
David Nadel
Larry Skoda
Shawn Testone
Kenneth L. Walter

Heat-Transfer Equipment
11
Richard L. Shilling
Patrick M. Bernhagen
Victor M. Goldschmidt
Predrag S. Hrnjak
David Johnson
Klaus D. Timmerhaus

Psychrometry, Evaporative Cooling, and Solids Drying
12
Larry R. Genskow
Wayne E. Belmesch
John P. Hecht
Ian C. Kemp
Tim Langrish
Christian Schwartzbach
(Francis) Lee Smith

Distillation
13
M. F. Doherty
Z. T. Fidkowski
M. F. Malone
R. Taylor

Equipment for Distillation, Gas Absorption, Phase Dispersion, and Phase Separation
14
Henry Z. Kister
Paul M. Mathias
D. E. Steinmeyer
W. R. Penney
B. B. Crocker
James R. Fair

Liquid-Liquid Extraction and Other Liquid-Liquid Operations and Equipment
15
Timothy C. Frank
Lise Dahuron
Bruce S. Holden
William D. Prince
A. Frank Seibert
Loren C. Wilson

Adsorption and Ion Exchange
16
M. Douglas LeVan
Giorgio Carta

Gas-Solid Operations and Equipment
17
Mel Pell
James B. Dunson
Ted M. Knowlton

Liquid-Solid Operations and Equipment
18
Wayne J. Genck
David S. Dickey
Frank A. Baczek
Daniel C. Bedell
Kent Brown
Wu Chen
Daniel E. Ellis
Peter Harriott
Tim J. Laros
Wenping Li
James K. McGillicuddy
Terence P. McNulty
James Y. Oldshue
Fred Schoenbrunn
Julian C. Smith
Donald C. Taylor
Daniel R. Wells
Todd W. Wisdom

Reactors
19
Carmo J. Pereira
Tiberiu M. Leib

Alternative Separation Processes
20
Michael E. Prudich
Huanlin Chen
Tingyue Gu
Ram B. Gupta
Keith P. Johnston
Herb Lutz
Guanghui Ma
Zhiguo Su

Solid-Solid Operations and Processing
21
Bryan J. Ennis
Wolfgang Witt
Ralf Weinekotter
Douglas Sphar
Erik Gommeran
Richard H. Snow
Terry Allen
Grantges J. Raymus
James D. Litster

Waste Management
22
Louts Theodore
Kenneth N. Weiss
John D. McKenna
(Francis) Lee Smith
Robert H. Sharp
Joseph J. Santoleri
Thomas F. McGowan

Process Safety
23
Daniel A. Crowl
Laurence G. Britton
Walter L. Frank
Stanley Grossel
Dennis Hendershot
W. G. High
Robert W. Johnson
Trevor A. Kletz
Joseph C. Leung
David A. Moore
Robert Ormsby
Jack E. Owens
Richard W. Prugh
Carl A. Schiappa Richard Stwek
Thomas O. Spicer III
Angela Summers
Ronald Willey
John L. Woodward

Energy Resources, Conversion, and Utilization
24
Walter F. Podolski
David K. Schmalzer
Vincent Conrad
Douglas E. Lowenhaupt
Richard A. Winschel
Edgar B. Klunder
Howard G. McIlvried III
Massood Ramezan
Gary J. Stiegel
Rameshwar D. Srivastava
John Window
Peter J. Loftus
Charles E. Benson
John M. Wheeldon
Michael Krumpelt
(Francis) Lee Smith

Materials of Construction
25
Oliver W. Siebert
Kevin M. Brooks
Laurence J. Craigie
F. Galen Hodge
L. Theodore Hutton
Thomas M. Laronge
J. Ian Munro
Daniel H. Pope
Simon J. Scott
John G. Stoecker II




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Elementary principles of chemical processes

Elementary principles of chemical processes
Felder, Richard Mark.
9780471534785,0471534781
704 pages
John Wiley & Sons

CONTENTS

CD ROM inside bk

Preface to the First Edition

Preface to the Third Edition

To the Instructor

Interactive Chemical Process Principles

Nomenclature

Glossary
Pt. 1
Engineering Problem Analysis
1
Ch. 1
What Some Chemical Engineers Do for a Living
3
Ch. 2
Introduction to Engineering Calculations
7
Ch. 3
Processes and Process Variables
42
Pt. 2
Material Balances
81
Ch. 4
Fundamentals of Material Balances
83
Ch. 5
Single-Phase Systems
187
Ch. 6
Multiphase Systems
237
Pt. 3
Energy Balances
311
Ch. 7
Energy and Energy Balances
313
Ch. 8
Balances on Nonreactive Processes
357
Ch. 9
Balances on Reactive Processes
440
Ch. 10
Computer-Aided Balance Calculations
504
Ch. 11
Balances on Transient Processes
543
Pt. 4
Case Studies
577
Ch. 12
Production of Chlorinated Polyvinyl Chloride
579
Ch. 13
Steam Reforming of Natural Gas and Subsequent Synthesis of Methanol
591
Ch. 14
Scrubbing of Sulfur Dioxide from Power Plant Stack Gases
607
App. A
Computational Techniques
607
App. B
Physical Property Tables
627

Answers to Test Yourselves
655

Answers to Selected Problems
665

Index
669

This best-selling book prepares readers to formulate and solve material
and energy balances in chemical process systems. It provides a
realistic, informative, and positive introduction to the practice of
chemical engineering. Includes a CD-ROM which contains interactive
instructional tutorials, an encyclopedia of chemical process equipment,
a physical property database, a powerful but user friendly algebraic
and differential equation-solving program, and other tools.

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