Power cycles for waste heat recovery from medium to high temperature flue gas sources – from a view of thermodynamic optimization
Author:
Funder
National Natural Science Foundation of China
Publisher
Elsevier BV
Subject
Management, Monitoring, Policy and Law,Mechanical Engineering,General Energy,Building and Construction
Reference45 articles.
1. BCS I. Waste heat recovery: technology and opportunities in U.S. industry; 2008.
2. Low grade heat conversion into power using small scale organic Rankine cycles;Tchanche,2010
3. Parametric optimization and performance analysis of a regenerative organic Rankine cycle using R-123 for waste heat recovery;Roy;Energy,2012
4. Performance analysis of regenerative organic Rankine cycle (RORC) using the pure working fluid and the zeotropic mixture over the whole operating range of a diesel engine;Zhang;Energy Convers Manage,2014
5. Influence of heat recuperation in ORC power plant on efficiency of waste heat utilization;BorsukiewiczGozdur;Arch Thermodyn,2010
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