Batch Chemical Process Integration, 2010
Analysis, Synthesis and Optimization

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Language: English

Approximative price 210.99 €

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Batch Chemical Process Integration
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282 p. · 15.5x23.5 cm · Paperback

Approximative price 210.99 €

Subject to availability at the publisher.

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Batch chemical process integration: analysis, synthesis and optimization
Publication date:
282 p. · 15.5x23.5 cm · Hardback

?Batch Chemical Process Integration: Analysis, Synthesis and Optimization? is an excellent source of information on state-of-the-art mathematical and graphical techniques for analysis, synthesis and optimization of batch chemical plants. It covers recent techniques in batch process integration with a particular focus on the capabilities of the mathematical techniques. There is a section on graphical techniques as well as performance comparison between graphical and mathematical techniques. Prior to delving into the intricacies of wastewater minimisation and heat integration in batch processes, the book introduces the reader to the basics of scheduling which is aimed at capturing the essence of time. A chapter on the synthesis of batch plants to highlight the importance of time in design of batch plants is also presented through a real-life case study.

The book is targeted at undergraduates and postgraduate students, researchers in batch process integration, practising engineers and technical managers.

A. Mathematical modelling and optimization in batch facilities i) State of the art scheduling techniques of batch plants ii) Optimal design of batch chemical facilities iii) Synthesis of batch processes iv) Wastewater minimization in batch plants v) Design of near-zero effluent batch facilities vi) Wastewater minimization using inherent storage in batch plants vii) Heat integration of batch facilities viii) Assessment of heat storage as an energy saving opportunity in batch plants B. Graphical analysis and optimization of batch facilities ix) Graphical scheduling techniques of batch plants x) Wastewater minimization in batch plants using graphical methods xi) Heat integration of batch facilities using graphical methods xii) Assessment of heat storage as an energy saving opportunity in batch plants C. Performance comparisons of graphical and mathematical techniques as applied in batch facilities xiii) Scheduling techniques of batch plants xiv) Wastewater minimization in batch plants using graphical methods xv) Heat integration of batch facilities using graphical methods

Provides an in-depth account of wastewater minimization techniques and the state-of-the-art mathematical modelling techniques in batch process integration

Addresses issues on batch process heat integration

Draws a comprehensive comparison between graphical and mathematical techniques as applied in batch process integration