This best-selling introductory chemical engineering guide has been thoroughly revised, streamlined, and updated to reflect today's sweeping changes in chemical engineering curricula. It provides students with fundamental knowledge of processes that chemical engineers utilize in the refining and chemical industries as well as the bioengineering, nanoengineering, and microelectronics industries. Like previous editions, Basic Principles and Calculations in Chemical Engineering, 9th Edition, Global Edition offers a strong foundation of skills and knowledge for successful study and practice,…mehr
This best-selling introductory chemical engineering guide has been thoroughly revised, streamlined, and updated to reflect today's sweeping changes in chemical engineering curricula. It provides students with fundamental knowledge of processes that chemical engineers utilize in the refining and chemical industries as well as the bioengineering, nanoengineering, and microelectronics industries. Like previous editions, Basic Principles and Calculations in Chemical Engineering, 9th Edition, Global Edition offers a strong foundation of skills and knowledge for successful study and practice, guiding students through formulating and solving material and energy balance problems, as well as describing gases, liquids, and vapors. It uses efficient, consistent, student-friendly methods for solving problems, analyzing data, and helps students gain a conceptual, application-based understanding of modern chemical engineering processes. Coverage in previous editions has been condensed and streamlined to serve today's students and faculty more effectively. Two entirely new chapters have been added, presenting complete introductions to dynamic material and energy balances, and to Psychrometric Charts. Additionally, MATLAB� and Python codes have been integrated into the text.
About our authors David M. Himmelblau was the Paul D. and Betty Robertson Meek and American Petrofina Foundation Centennial Professor Emeritus in Chemical Engineering at the University of Texas, where he taught for forty-two years. He authored eleven books and more than two hundred articles on process analysis, fault detection, and optimization. He was president of the CACHE Corporation and director of the AIChE. James B. Riggs was a university professor for thirty years. Twenty-five of those years were spent at Texas Tech University, where he founded and directed the Texas Tech Process Control and Optimization Consortium. He authored several popular textbooks, including Computational Methods for Chemical Engineers; Programming with MATLAB for Engineers; and Chemical and Bio-Process Control, Fifth Edition.
Inhaltsangabe
Part I: Introduction * Chapter 1: Introduction to Chemical Engineering * Chapter 2 Introductory Concepts Part II Material Balances * Chapter 3 Material Balances * Chapter 4 Material Balances with Chemical Reaction * Chapter 5 Material Balances for Multiunit Processes Part III Gases, Vapors, and Liquids * Chapter 6 Ideal and Real Gases * Chapter 7 Multiphase Equilibrium Part IV Energy Balances * Chapter 8 Energy Balances without Reaction * Chapter 9 Energy Balances with Reaction Part V Combined Material and Energy Balances * Chapter 10 Humidity * Chapter 11 Unsteady-State Material and Energy Balances (Online Chapters) * Chapter 12 Heats of Solution and Mixing * Chapter 13 Liquids and Gases in Equilibrium with Solids * Chapter 14 Solving Material and Energy Balances Part VI Supplementary Materials APPENDIXES * A Atomic Weights and Numbers * B Tables of the Pitzer Z0 and Z1 Factors * C Heats of Formation and Combustion * D Answers to Selected Problems (Online Appendixes) * E Physical Properties of Various Organic and Inorganic Substances * F Heat Capacity Equations * G Vapor Pressures * H Heats of Solution and Dilution * I Enthalpy-Concentration Data * J Thermodynamic Charts * K Physical Properties of Petroleum Fractions * L Solution of Sets of Equations * M Fitting Functions to Data Index
Part I: Introduction * Chapter 1: Introduction to Chemical Engineering * Chapter 2 Introductory Concepts Part II Material Balances * Chapter 3 Material Balances * Chapter 4 Material Balances with Chemical Reaction * Chapter 5 Material Balances for Multiunit Processes Part III Gases, Vapors, and Liquids * Chapter 6 Ideal and Real Gases * Chapter 7 Multiphase Equilibrium Part IV Energy Balances * Chapter 8 Energy Balances without Reaction * Chapter 9 Energy Balances with Reaction Part V Combined Material and Energy Balances * Chapter 10 Humidity * Chapter 11 Unsteady-State Material and Energy Balances (Online Chapters) * Chapter 12 Heats of Solution and Mixing * Chapter 13 Liquids and Gases in Equilibrium with Solids * Chapter 14 Solving Material and Energy Balances Part VI Supplementary Materials APPENDIXES * A Atomic Weights and Numbers * B Tables of the Pitzer Z0 and Z1 Factors * C Heats of Formation and Combustion * D Answers to Selected Problems (Online Appendixes) * E Physical Properties of Various Organic and Inorganic Substances * F Heat Capacity Equations * G Vapor Pressures * H Heats of Solution and Dilution * I Enthalpy-Concentration Data * J Thermodynamic Charts * K Physical Properties of Petroleum Fractions * L Solution of Sets of Equations * M Fitting Functions to Data Index
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