Title :
An organic Rankine cycle system for solar thermal power applications
Author :
Qiu, K. ; Thorsteinson, E.
Author_Institution :
Natural Resources Canada, CANMETEnergy, Ottawa, ON, Canada
Abstract :
This paper presents an organic Rankine cycle (ORC) system for combined heat and power utilizing solar thermal energy and natural gas as well. The ORC investigated in this work consists of a heat source, an evaporator, a scroll expander, a condenser, a fluid pump, a recuperator and a control unit. The ORC produces shaft power that runs a generator. The experimental ORC unit has an electric power capacity of 1000 We. Its advantages include short start-up time, clean and automatic operation, low maintenance and very low noise level. It is well suited for small-scale solar thermal power applications or hybrid solar and natural gas energy systems. A mathematical model was established to assess the thermodynamic performance of the ORC system under various conditions. Power output and thermal efficiency were calculated using the established model.
Keywords :
Rankine cycle; cogeneration; condensers (steam plant); hybrid power systems; natural gas technology; solar power stations; thermodynamics; ORC system; combined heat and power; condenser; electric power capacity; evaporator; fluid pump; heat source; hybrid solar energy systems; natural gas energy systems; organic Rankine cycle system; scroll expander; solar thermal energy; solar thermal power applications; thermal efficiency; thermodynamic performance; Fluids; Heat transfer; Mathematical model; Pumps; Solar heating; Thermal expansion; ORC; gas; model; power; solar thermal;
Conference_Titel :
Renewable Energy Research and Application (ICRERA), 2014 International Conference on
Conference_Location :
Milwaukee, WI
DOI :
10.1109/ICRERA.2014.7016545
