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Get Cutting-Edge Coverage of All Chemical Engineering Topics— from Fundamentals to the Latest Computer Applications First published in 1934, Perry's Chemical Engineers' Handbook has equipped generations of engineers and chemists with an expert source of chemical engineering information and data. Now updated to reflect the latest technology and processes of the new millennium, the Eighth Edition of this classic guide provides unsurpassed coverage of every aspect of chemical engineering-from fundamental principles to chemical processes and equipment to new computer applications. Filled with over 700 detailed illustrations, the Eighth Edition of Perry's Chemcial Engineering Handbook features: Comprehensive tables and charts for unit conversion A greatly expanded section on physical and chemical data New to this edition: the latest advances in distillation, liquid-liquid extraction, reactor modeling, biological processes, biochemical and membrane separation processes, and chemical plant safety practices with accident case histories Inside This Updated Chemical Engineering Guide - Conversion Factors and Mathematical Symbols • Physical and Chemical Data • Mathematics • Thermodynamics • Heat and Mass Transfer • Fluid and Particle Dynamics Reaction Kinetics • Process Control • Process Economics • Transport and Storage of Fluids • Heat Transfer Equipment • Psychrometry, Evaporative Cooling, and Solids Drying • Distillation • Gas Absorption and Gas-Liquid System Design • Liquid-Liquid Extraction Operations and Equipment • Adsorption and Ion Exchange • Gas-Solid Operations and Equipment • Liquid-Solid Operations and Equipment • Solid-Solid Operations and Equipment • Size Reduction and Size Enlargement • Handling of Bulk Solids and Packaging of Solids and Liquids • Alternative Separation Processes • And Many Other Topics!
Multistage separation processes are the heart of the petroleum processing and chemical production industries. They yield important products as common as gasoline and plastics and as specialized as medical-grade pharmaceuticals. This valuable new book provides process engineers and engineering students with solid information and insights into these processes. Its unique feature is that it goes beyond fundamental principles to emphasize intuitive understanding and practical interpretation. It presents numerous examples in a wide variety of applications to demonstrate the performance of processes under varying conditions and the relationships among the different operating variables. Focusing on computer modeling and modern simulation techniques, Predicting the Performance of Multistage Separation Processes is a valuable tool for evaluating performance trends, limitations, and bottlenecks. The book presents rigorous mathematical methods, but wherever possible, it applies shortcut methods to help engineers make reliable decisions quickly.
Shortcut methods are valuable tools for the fast evaluation of different units and flowsheets in separation process design. In this paper, a systematic method for the estimation of the minimum solvent flow rate required in counter-current extraction columns is presented. A key element is the identification of a mode of operation under saddle-pinch control, characterizing multi-component extractive separations. The criterion defining this mode leads to a new shortcut method, which provides both, a systematic calculation of all pinch points and a criterion for minimum solvent flow rate estimation. It requires low computational effort, it is robust and does not need any specific initialization. Furthermore, the shortcut method is fully algorithmic and thus, at least in principle, applicable to any number of components. Its features are highlighted by means of an example of an extractive separation of a four component mixture.
The development of computer-aided simulation programs for separation processes provides engineers with valuable tools to make more reliable qualitative and quantitative decisions in plant design and operation. Written by a specialist in modeling and optimization, Multistage Separation Processes, Third Edition clarifies the effective use of simulato
Pulsed extraction columns are becoming increasingly used in the nuclear industry due to their operational and cost effectiveness. Good computer models are required In order to fully appreciate their steady-state performance and transient behaviour. This work attempts to fulfil this demand.....