Energy Saving and Environmental Benefits and CO2 Reduction from a Combined Heat and Power System
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Abstract
High efficiency of cogeneration systems is one of the major factors that make them attractive for investors. The utilization of these systems is possible by using different strategies such as electrical dispatch, thermal dispatch and a combination of these two methods which is known as hybrid dispatch. In this paper, the efficiency of cogeneration systems is evaluated by some indices such as overall energy saving, thermal efficiency and Energy-Chargeable-to-Power (ECP). Also, the amount of CO2 production has been calculated by using above operational strategies and in a case of without CHP. Then, all of the operational modes are applied to a local customer having predefined electrical and thermal loads and the results are analyzed. A CHP operator can choose the proper strategy by using the results of this investigation and considering the goal of applying cogeneration technology which fulfills the expectations from such system
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Y. Wei-hua, Z. Sheng-nan, and W. Kan-hong, CO2 Emission Reduction and Energy Recovery from Straw Cogeneration Project, Proc. 3rd International Conference on Bioinformatics and Biomedical Engineering, Beijing, China, June 11-13, 2009, 1-3.
China 21 Century Agenda Management Center, Tinghua University.Clean Development Mechanism[M].Beijing: Social Science Academic Press,2005.
G. Chicco, and P. Mancarella, Enhanced Energy Saving Performance in Composite Trigeneration Systems, Proc. IEEE Power Tech Conference, Lausanne, Switzerland, July 1-5, 2007, 1423-1428.
X. Hao, and G. Zhang, Maximum Fuel Energy Saving of a Brayton Cogeneration Cycle, Proc. International Conference on Energy and Environment Technology, Guilin, China, October 16-18, 2009, 724-727.
J.H.Horlock, Cogeneration-Combined Heat and Power (CHP), Krieger, Malabar, FL, 1997.
A.Martens, The Energetic Feasibility of CHP Compared to the Separate Production of Heat and Power, Applied Thermal Engineering 18 (1998) 935-946.
Y. Wansheng, and G. kaihua, Analysis on Energy Saving for a Cool, Heat and Power Cogeneration System with a Micro Gas Turbine, Proc. Asia-Pacific Power and Energy Engineering Conference, Chengdu, China, March 28-31, 2010, 1-5.
G. Chicco, and P. Mancarella, Assessment of the Greenhouse Gas Emissions from Cogeneration and Trigeneration Systems. Part I: Models and Indicators, Journal of Energy 33 (2008) 410-417.
D. Panno, A. Messineo, and A. Dispenza, Cogeneration Plant in a Pasta Factory: Energy Saving and Environmental Benefit, Journal of Energy 32 (2007) 746-754.
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