Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Juan J. de Pablo, Jay D. Schieber

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Juan J. de Pablo, Jay D. Schieber Building up gradually from first principles, this unique introduction to modern thermodynamics integrates classical, statistical and molecular approaches and is especially designed to support students studying chemical and biochemical engineering. In addition to covering traditional problems in engineering thermodynamics in the context of biology and materials chemistry, students are also introduced to the thermodynamics of DNA, proteins, polymers and surfaces. It includes over 80 detailed worked examples, covering a broad range of scenarios such as fuel cell efficiency, DNA/protein binding, semiconductor manufacturing and polymer foaming, emphasizing the practical real-world applications of thermodynamic principles; more than 300 carefully tailored homework problems, designed to stretch and extend students’ understanding of key topics, accompanied by an online solution manual for instructors; and all the necessary mathematical background, plus resources summarizing commonly used symbols, useful equations of state, microscopic balances for open systems, and links to useful online tools and datasets.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Elias I. Franses

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Elias I. Franses Master the principles of thermodynamics with this comprehensive undergraduate textbook, carefully developed to provide students of chemical engineering and chemistry with a deep and intuitive understanding of the practical applications of these fundamental ideas and principles. Logical and lucid explanations introduce core thermodynamic concepts in the context of their measurement and experimental origin, giving students a thorough understanding of how theoretical concepts apply to practical situations. A broad range of real-world applications relate key topics to contemporary issues, such as energy efficiency, environmental engineering and climate change, and further reinforce students’ understanding of the core material. This is a carefully organized, highly pedagogical treatment, including over 500 open-ended study questions for discussion, over 150 varied homework problems, clear and objective standards for measuring student progress, and a password-protected solution manual for instructors.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by M. Scott Shell

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by M. Scott Shell Learn classical thermodynamics alongside statistical mechanics with this fresh approach to the subjects. Molecular and macroscopic principles are explained in an integrated, side-by-side manner to give students a deep, intuitive understanding of thermodynamics and equip them to tackle future research topics that focus on the nanoscale. Entropy is introduced from the get-go, providing a clear explanation of how the classical laws connect to the molecular principles, and closing the gap between the atomic world and thermodynamics. Notation is streamlined throughout, with a focus on general concepts and simple models, for building basic physical intuition and gaining confidence in problem analysis and model development. Well over 400 guided end-of-chapter problems are included, addressing conceptual, fundamental, and applied skill sets. Numerous worked examples are also provided together with handy shaded boxes to emphasize key concepts, making this the complete teaching package for students in chemical engineering and the chemical sciences.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Kevin D. Dorfman, Prodromos Daoutidis

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Kevin D. Dorfman, Prodromos Daoutidis Designed primarily for undergraduates, but also graduates and practitioners, this textbook integrates numerical methods and programming with applications from chemical engineering. Combining mathematical rigor with an informal writing style, it thoroughly introduces the theory underlying numerical methods, its translation into MATLAB programs, and its use for solving realistic problems. Specific topics covered include accuracy, convergence and numerical stability, as well as stiffness and ill-conditioning. MATLAB codes are developed from scratch, and their implementation is explained in detail, all while assuming limited programming knowledge. All scripts employed are downloadable, and built-in MATLAB functions are discussed and contextualised. Numerous examples and homework problems – from simple questions to extended case studies – accompany the text, allowing students to develop a deep appreciation for the range of real chemical engineering problems that can be solved using numerical methods. This is the ideal resource for a single-semester course on numerical methods, as well as other chemical engineering courses taught over multiple semesters.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by William M. Deen

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by William M. Deen Designed for introductory undergraduate courses in fluid mechanics for chemical engineers, this stand-alone textbook illustrates the fundamental concepts and analytical strategies in a rigorous and systematic, yet mathematically accessible manner. Using both traditional and novel applications, it examines key topics such as viscous stresses, surface tension, and the microscopic analysis of incompressible flows which enables students to understand what is important physically in a novel situation and how to use such insights in modeling. The many modern worked examples and end-of-chapter problems provide calculation practice, build confidence in analyzing physical systems, and help develop engineering judgment. The book also features a self-contained summary of the mathematics needed to understand vectors and tensors, and explains solution methods for partial differential equations. Including a full solutions manual for instructors available at www.cambridge.org/deen, this balanced textbook is the ideal resource for a one-semester course.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Tom L. Beck, Michael E. Paulaitis, Lawrence R. Pratt

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Tom L. Beck, Michael E. Paulaitis, Lawrence R. Pratt An understanding of statistical thermodynamic molecular theory is fundamental to the appreciation of molecular solutions. This complex subject has been simplified by the authors with down-to-earth presentations of molecular theory. Using the potential distribution theorem (PDT) as the basis, the text provides a discussion of practical theories in conjunction with simulation results. The authors discuss the field in a concise and simple manner, illustrating the text with useful models of solution thermodynamics and numerous exercises. Modern quasi-chemical theories that permit statistical thermodynamic properties to be studied on the basis of electronic structure calculations are given extended development, as is the testing of those theoretical results with ab initio molecular dynamics simulations. The book is intended for students taking up research problems of molecular science in chemistry, chemical engineering, biochemistry, pharmaceutical chemistry, nanotechnology and biotechnology.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Liang-Shih Fan

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Liang-Shih Fan This is the first comprehensive guide to the principles and techniques of chemical looping partial oxidation. With authoritative explanations from a pioneer of the chemical looping process, you will: • Gain a holistic overview of metal oxide reaction engineering, with coverage of ionic diffusion, nanostructure formation, morphological evolution, phase equilibrium, and recyclability properties of metal oxides during redox reactions • Learn about the gasification of solid fuels, the reforming of natural gas, and the catalytic conversion of methane to olefins • Understand the importance of reactor design and process integration in enabling metal oxide oxygen carriers to produce desired products • Discover other applications of catalytic metal oxides, including the production of maleic anhydride and solar energy conversions Aspen Plus® simulation software and results accompany the book online. This is an invaluable reference for researchers and industry professionals in the fields of chemical, energy and environmental engineering, and students studying process design and optimization.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Roger-Marc Nicoud

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Roger-Marc Nicoud Addressing all aspects of the design, modeling and simulation of chromatographic processes, this result-oriented primer provides a practical guide to all the necessary approaches, methodologies and tools. Beginning with key definitions and concepts, it builds up from the most simple to the most complex situations, including multicomponent systems, non-uniform velocity profiles, bed instability, particle size distributions, and the influence of complex environments on chromatographic process design. In addition to covering classical approaches, it introduces efficient tools for investigating chromatographic processes, such as the ‘Russian-Lego’ approach for linear systems, phenomenological models, and specific shortcuts for deriving the key properties of industrial processes. With an emphasis on real-world problems and applications, step-by step modeling design guidelines, and detailed exercises for self-assessment, this is a must-have guide for practitioners and researchers working in chemical, biochemical, food and pharmaceutical engineering.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Morbidelli Varma, Arvind Varma, A. Varma, Massimo Morbidelli

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by Morbidelli Varma, Arvind Varma, A. Varma, Massimo Morbidelli Mathematical Methods in Chemical Engineering builds on students’ knowledge of calculus, linear algebra, and differential equations, employing appropriate examples and applications from chemical engineering to illustrate the techniques. It provides an integrated treatment of linear operator theory from determinants through partial differential equations, featuring an extensive chapter on nonlinear ordinary differential equations as well as strong coverage of first-order partial differential equations and perturbation methods. Numerous high-quality diagrams and graphics support the concepts and solutions. Many examples are included throughout the text, and a large number of well-conceived problems at the end of each chapter reinforce the concepts presented. Also, in some cases the results of the mathematical analysis are compared with experimental data–a unique feature for a mathematical book.
The text offers instructors the flexibility to cover all of the material presented or to select a few methods to teach, so that they may cultivate the specific mathematical skills which are most appropriate for their students. The topical coverage provides a good balance between material which can be taught in a one-year course and the techniques that chemical engineers need to know to effectively model, analyze, and carry out numerical simulations of chemical engineering processes, with an emphasis on developing techniques which can be used in applications. Mathematical Methods in Chemical Engineering serves as both an ideal text for chemical engineering students in advanced mathematical methods courses and a comprehensive reference in mathematical methods for chemical engineering practitioners in academic institutions and industry.

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Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by E. L. Cussler, G. D. Moggridge

Read Molecular Engineering Thermodynamics (Cambridge Series In Chemical Engineering) Books PDF by E. L. Cussler, G. D. Moggridge The chemical industry is changing, going beyond commodity chemicals to a palette of higher value added products. This groundbreaking book, now revised and expanded, documents this change and shows how to meet the challenges implied. Presenting a four-step design process – needs, ideas, selection, manufacture – the authors supply readers with a simple design template that can be applied to a wide variety of products. Four new chapters on commodities, devices, molecules/drugs and microstructures show how this template can be applied to products including oxygen for emphysema patients, pharmaceuticals like taxol, dietary supplements like lutein, and beverages which are more satisfying. For different groups of products the authors supply both strategies for design and summaries of relevant science. Economic analysis is expanded, emphasizing the importance of speed-to-market, selling ideas to investors and an expectation of limited time in the market. Extra examples, homework problems and a solutions manual are available.

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Molecular Engineering Thermodynamics
Language: en
Pages: 512

Molecular Engineering Thermodynamics

Authors: Juan J. de Pablo, Jay D. Schieber
Categories: Technology & Engineering
Type: BOOK - Published: 2014-07-10 - Publisher: Cambridge University Press
Building up gradually from first principles, this unique introduction to modern thermodynamics integrates classical, statistical and molecular approaches and is especially designed to support students studying chemical and biochemical engineering. In addition to covering traditional problems in engineering thermodynamics in the context of biology and materials chemistry, students are also
Diffusion
Language: en
Pages: 580

Diffusion

Authors: E. L. Cussler
Categories: Science
Type: BOOK - Published: 1997-02-28 - Publisher: Cambridge University Press
Clear and complete description of diffusion in fluids, for undergraduate students in chemical engineering.
Thermodynamics and Statistical Mechanics
Language: en
Pages: 500

Thermodynamics and Statistical Mechanics

Authors: M. Scott Shell
Categories: Science
Type: BOOK - Published: 2015-04-16 - Publisher: Cambridge University Press
Learn classical thermodynamics alongside statistical mechanics and how macroscopic and microscopic ideas interweave with this fresh approach to the subjects.
The Potential Distribution Theorem and Models of Molecular Solutions
Language: en
Pages:

The Potential Distribution Theorem and Models of Molecular Solutions

Authors: Tom L. Beck, Michael E. Paulaitis, Lawrence R. Pratt
Categories: Technology & Engineering
Type: BOOK - Published: 2006-08-31 - Publisher: Cambridge University Press
An understanding of statistical thermodynamic molecular theory is fundamental to the appreciation of molecular solutions. This complex subject has been simplified by the authors with down-to-earth presentations of molecular theory. Using the potential distribution theorem (PDT) as the basis, the text provides a discussion of practical theories in conjunction with
Mathematical Methods in Chemical Engineering
Language: en
Pages: 690

Mathematical Methods in Chemical Engineering

Authors: Arvind Varma, Massimo Morbidelli
Categories: Technology & Engineering
Type: BOOK - Published: 1997 - Publisher: Oxford University Press on Demand
Mathematical Methods in Chemical Engineering builds on students' knowledge of calculus, linear algebra, and differential equations, employing appropriate examples and applications from chemical engineering to illustrate the techniques. It provides an integrated treatment of linear operator theory from determinants through partial differential equations, featuring an extensive chapter on nonlinear ordinary