Page 3 - Plant design and economics for chemical engineers
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The Series
Bailey and Ollis: Biochemical Engineering Fundamentals
Bennett and Myers: Momentum, Heat, and Mass Transfer
Beveridge and Schechter: Optimization: Theory and Practice
Brudkey and Hershey: Transport Phenomena: A Unified Approach
Carberry: Chemical and Catalytic Reaction Engineering
Constantinides: Applied Numerical Methodr with Personal Computers
Coughanowr and Koppel: Process Systems Analysis and Control ’ .
Douglas: Conceptual Design of Chemical Processes
Edgar and Himmelblau: Optimization of Chemical Processes
Gates, Katzer, and Schuit: Chemistry of Catalytic Processes
Holland: Fundamentals of Multicomponent Distillation
Holland and Liapis: Computer Methods for Solving Dynamic Separation Problems
Katz and Lee: Natural Gas Engineering: Production and Storage
King: Separation Processes
Lee: Fundamentals of Microelectronics Processing *
Luybeo: Process Modeling, Simulation, and Control for Chemical Engineers
McCabe, Smith, J. C., and Harriott: Unit Operations of Chemical Engineering
Mickley, Sherwood, and Reed: Applied Mathematics in Chemical Engineering
Nelson: Petroleum Refinery Engineering
Perry and Green (Editors): Chemical Engineers’ Handbook
Peters: Elementary Chemical Engineering
Peters and Timmerhaus: Plant Design and Economics for Chemical Engineers
Reid, Prausoitz, and Rolling: The Properties of Gases and Liquids
Sherwood, Pigford, and Wilke: Mass Transfer
Smith, B. D.: Design of Efluilibrium Stage Processes
Smith, J. M.: Chemical Engineering Kinetics
Smith, J. M., and Van Ness: Introduction to Chemical Engineering Thermodynamics
Treybal: Mass Transfer Operations
Valle-Riestra: Project Evolution in the Chemical Process Industries ’
Wei, Russell, and Swartzlander: The Structure of the Chemical Processing Industries
Weotz: Hazardous Waste Management
