Analysis on optimal working fluid flowrate and unstable power generation for miniaturized ORC systems

For efficient utilization of a limited geothermal resource in practical projects, the cycle parameters were comprehensively analyzed by combining with the heat transfer performance of the plate heat exchanger, with a variation of flowrate of R245fa. The influence of working fluid flowrate on a 500W...

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Published inJournal of Central South University Vol. 23; no. 5; pp. 1224 - 1231
Main Authors Liu, Ke-tao, Zhu, Jia-ling, Hu, Kai-yong, Wu, Xiu-jie
Format Journal Article
LanguageEnglish
Published Changsha Central South University 01.05.2016
Subjects
Civil
Energy and Traffic Engineering
Engineering
Geological
Metallic Materials
organic Rankine cycle (ORC)
plate heat exchanger
unstable power generation
optimal working fluid flowrate
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ISSN2095-2899
2227-5223
DOI10.1007/s11771-016-0372-9

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Abstract For efficient utilization of a limited geothermal resource in practical projects, the cycle parameters were comprehensively analyzed by combining with the heat transfer performance of the plate heat exchanger, with a variation of flowrate of R245fa. The influence of working fluid flowrate on a 500W ORC system was investigated. Adjusting the working fluid flowrate to an optimal value results in the most efficient heat transfer and hence the optimal heat transfer parameters of the plate heat exchanger can be determined. Therefore, for the ORC systems, optimal working fluid flowrate should be controlled. Using different temperature hot water as the heat source, it is found that the optimal flowrate increases by 6-10 L/h with 5 °C increment of hot water inlet temperature. During experiment, lower degree of superheat of the working fluid at the outlet the plate heat exchanger may lead to unstable power generation. It is considered that the plate heat exchanger has a compact construction which makes its bulk so small that liquid mixture causes the unstable power generation. To avoid this phenomenon, the flow area of plate heat exchanger should be larger than the designed one. Alternatively, installing a small shell and tube heat exchanger between the outlet of plate heat exchanger and the inlet of expander can be another solution.
AbstractList For efficient utilization of a limited geothermal resource in practical projects, the cycle parameters were comprehensively analyzed by combining with the heat transfer performance of the plate heat exchanger, with a variation of flowrate of R245fa. The influence of working fluid flowrate on a 500W ORC system was investigated. Adjusting the working fluid flowrate to an optimal value results in the most efficient heat transfer and hence the optimal heat transfer parameters of the plate heat exchanger can be determined. Therefore, for the ORC systems, optimal working fluid flowrate should be controlled. Using different temperature hot water as the heat source, it is found that the optimal flowrate increases by 6-10 L/h with 5 °C increment of hot water inlet temperature. During experiment, lower degree of superheat of the working fluid at the outlet the plate heat exchanger may lead to unstable power generation. It is considered that the plate heat exchanger has a compact construction which makes its bulk so small that liquid mixture causes the unstable power generation. To avoid this phenomenon, the flow area of plate heat exchanger should be larger than the designed one. Alternatively, installing a small shell and tube heat exchanger between the outlet of plate heat exchanger and the inlet of expander can be another solution.
Author Wu, Xiu-jie
Zhu, Jia-ling
Liu, Ke-tao
Hu, Kai-yong
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Issue 5
Keywords organic Rankine cycle (ORC)
plate heat exchanger
unstable power generation
optimal working fluid flowrate
Language English
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Snippet For efficient utilization of a limited geothermal resource in practical projects, the cycle parameters were comprehensively analyzed by combining with the heat...
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SubjectTerms Civil
Energy and Traffic Engineering
Engineering
Geological
Metallic Materials
Title Analysis on optimal working fluid flowrate and unstable power generation for miniaturized ORC systems
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