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Download User Guide on Process Integration for the Efficient Use of Energy eBook

by Institution of Chemical Engineers

Download User Guide on Process Integration for the Efficient Use of Energy eBook
ISBN:
0080302459
Author:
Institution of Chemical Engineers
Category:
Engineering
Language:
English
Publisher:
Pergamon Pr; 1st edition (April 1, 1983)
Pages:
247 pages
EPUB book:
1131 kb
FB2 book:
1907 kb
DJVU:
1605 kb
Other formats
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Rating:
4.2
Votes:
258


This book shows engineers how to understand and optimise energy use in. .

This book shows engineers how to understand and optimise energy use in their processes, whether large or small. Energy savings go straight to the bottom line as increased profit, as well as reducing emissions. Both experienced and newly qualified engineers, as well as academics and students, will find this guide valuable. To remedy this, the Institution of Chemical Engineers ran a competition for young members to produce a spreadsheet for pinch analysis. Process and energy integration are essential to provide viable recommendations as downstream separation costs are often prohibitive to support the selected reactions.

This book shows engineers how to understand and optimize energy use in their processes, whether large or small

This book shows engineers how to understand and optimize energy use in their processes, whether large or small. This is the key guide to process integration for both experienced and newly qualified engineers, as well as academics and students. It begins with an introduction to the main concepts of pinch analysis, the calculation of energy targets for a given process, the pinch temperature and the golden rules of pinch-based design to meet energy targets.

Institution of Chemical Engineers.

Linnhoff, B. et a. A User Guide on Process Integration for the Efficient Use of Energy . Rhoe, . Energy Saving Approach for Refining, Petrochemical and Chemical Process Plants -Chemical Engineering World, Vol. XX, N° 4, April 1985, 54–60. A User Guide on Process Integration for the Efficient Use of Energy -The Institution of Chemical Engineers, 1982. 3. Kobayashi, . Energy Conservation in Ethylene Production -Enercry Developments in Japan, Vol. 6, 135–155, 1983. Economics of Energy Conservation in the Chemical and Petrochemical Industries -A. I. Ch. E. Spring National Meeting. New-Orleans, April 1986, Preprint 9. oogle Scholar.

The book will be of use to engineers and plant production managers. 1 Plan and Perspective. 2 Economic and Cost Factors in the Choice of Fuel and Equipment.

In the context of chemical engineering, Process Integration can be defined as a holistic approach to process .

Note that Process Integration is not limited to the design of new plants, but it also covers retrofit design (.

By Institution of Chemical Engineers. Institution of Chemical Engine. A user guide on process integration for the efficient use of energy Close.

chemical engineering Scope Chemical engineering is broader in scope than electrical, civil, or mechanical engineering, because it more or less consists of the equal use of the three main engineering cornerstones (mathematics, physics, and chemistry), while other professions are based o.

chemical engineering Scope Chemical engineering is broader in scope than electrical, civil, or mechanical engineering, because it more or less consists of the equal use of the three main engineering cornerstones (mathematics, physics, and chemistry), while other professions are based on primarily the first two. The American Institute of Chemical Engineers (AIChE) describes chemical engineering as that branch of engineering concerned with the development and application of manufacturing processes in which chemical o.

Mobile version (beta). Download (pdf, . 9 Mb) Donate Read. Epub FB2 mobi txt RTF. Converted file can differ from the original. If possible, download the file in its original format.

Townsend, D. Boland, . Marsland, A User Guide on Process Integration for the Efficient Use of Energy, Institution of Chemical Engineers, 1996. L. Matijaseviæ, H. Otmaeiæ, Energy recovery by pinch technology, Applied Thermal Engineering, 2002, vol. 22, pp. 477–484.

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