A new technique for simultaneous water and energy minimisation in process plant
Author:
Publisher
Elsevier BV
Subject
General Chemical Engineering,General Chemistry
Reference27 articles.
1. Co-ordination pf pinch technology and the MIND method – applied to a Swedish Board Mill;Bengtsson;Applied Thermal Engineering,2002
2. Utilization of excess heat in the pulp and paper industry – a case study of technical and economic opportunities;Bengtsson;Applied Thermal Engineering,2002
3. Systematic Methods of Chemical Process Design;Biegler,1997
4. Synthesis of non-isothermal heat integrated water networks in chemical processes;Bogataj;Computers and Chemical Engineering,2008
5. Long-term energy-efficiency improvements in the paper and board industry;De Beer;Energy,1998
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