Experimental assessment of convective heat transfer and pressure drop correlation of R1234ze(E) for a supercritical heat exchanger in the organic Rankine cycle

In the supercritical organic Rankine cycle, the process of absorbing heat from a heat source occurs in the supercritical region. The supercritical heat exchanger, which is responsible for heat exchange between the heat source and working fluid in the supercritical region, is a crucial component of t...

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Published in	Journal of mechanical science and technology Vol. 34; no. 11; pp. 4809 - 4818
Main Authors	Lee, Cheonkyu, Ko, Ji-Woon, Ji, Hyung Yong, Kim, Seon-Chang
Format	Journal Article
Language	English
Published	Seoul Korean Society of Mechanical Engineers 01.11.2020 Springer Nature B.V 대한기계학회
Subjects	Control Convective heat transfer Correlation analysis Critical temperature Dynamical Systems Engineering Fluid dynamics Fluid flow Friction factor Heat exchange Heat exchangers Industrial and Production Engineering Mechanical Engineering Nusselt number Original Article Pressure drop Rankine cycle Vibration Working fluids 기계공학 Supercritical organic Rankine cycle Convective heat transfer coefficient Supercritical heat exchanger R1234ze(E) Pressure drop
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ISSN	1738-494X 1976-3824
DOI	10.1007/s12206-020-1037-z

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Abstract	In the supercritical organic Rankine cycle, the process of absorbing heat from a heat source occurs in the supercritical region. The supercritical heat exchanger, which is responsible for heat exchange between the heat source and working fluid in the supercritical region, is a crucial component of this cycle. In this study, the correlation of the Nusselt number and Darcy’s friction factor was proposed, according to the experimental result of the heat transfer and pressure drop of the supercritical R1234ze(E) for the temperature ranges below and above the pseudo-critical temperature. Correlations of the Nusselt number and Darcy’s friction factor agree with the experimental results within ±20 %. Supercritical heat exchangers were designed and tested using the proposed correlations. The developed supercritical heat exchanger satisfied the condition within a -0.5 % margin of error, based on the heat exchange rate between the design and experimental results.
AbstractList	In the supercritical organic Rankine cycle, the process of absorbing heat from a heat source occurs in the supercritical region. The supercritical heat exchanger, which is responsible for heat exchange between the heat source and working fluid in the supercritical region, is a crucial component of this cycle. In this study, the correlation of the Nusselt number and Darcy’s friction factor was proposed, according to the experimental result of the heat transfer and pressure drop of the supercritical R1234ze(E) for the temperature ranges below and above the pseudo-critical temperature. Correlations of the Nusselt number and Darcy’s friction factor agree with the experimental results within ±20 %. Supercritical heat exchangers were designed and tested using the proposed correlations. The developed supercritical heat exchanger satisfied the condition within a -0.5 % margin of error, based on the heat exchange rate between the design and experimental results. In the supercritical organic Rankine cycle, the process of absorbing heat from a heat source occurs in the supercritical region. The supercritical heat exchanger, which is responsible for heat exchange between the heat source and working fluid in the supercritical region, is a crucial component of this cycle. In this study, the correlation of the Nusselt number and Darcy’s friction factor was proposed, according to the experimental result of the heat transfer and pressure drop of the supercritical R1234ze(E) for the temperature ranges below and above the pseudo-critical temperature. Correlations of the Nusselt number and Darcy's friction factor agree with the experimental results within ±20 %. Supercritical heat exchangers were designed and tested using the proposed correlations. The developed supercritical heat exchanger satisfied the condition within a -0.5 % margin of error, based on the heat exchange rate between the design and experimental results. KCI Citation Count: 0
Author	Ko, Ji-Woon Lee, Cheonkyu Ji, Hyung Yong Kim, Seon-Chang
Author_xml	– sequence: 1 givenname: Cheonkyu surname: Lee fullname: Lee, Cheonkyu organization: Clean Energy R&D Department, Research Institute of Clean Manufacturing System, Korea Institute of Industrial Technology (KITECH) – sequence: 2 givenname: Ji-Woon surname: Ko fullname: Ko, Ji-Woon organization: Clean Energy R&D Department, Research Institute of Clean Manufacturing System, Korea Institute of Industrial Technology (KITECH) – sequence: 3 givenname: Hyung Yong surname: Ji fullname: Ji, Hyung Yong organization: Clean Energy R&D Department, Research Institute of Clean Manufacturing System, Korea Institute of Industrial Technology (KITECH) – sequence: 4 givenname: Seon-Chang surname: Kim fullname: Kim, Seon-Chang email: kimsc@kitech.re.kr organization: Clean Energy R&D Department, Research Institute of Clean Manufacturing System, Korea Institute of Industrial Technology (KITECH)
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SubjectTerms	Control Convective heat transfer Correlation analysis Critical temperature Dynamical Systems Engineering Fluid dynamics Fluid flow Friction factor Heat exchange Heat exchangers Industrial and Production Engineering Mechanical Engineering Nusselt number Original Article Pressure drop Rankine cycle Vibration Working fluids 기계공학
Title	Experimental assessment of convective heat transfer and pressure drop correlation of R1234ze(E) for a supercritical heat exchanger in the organic Rankine cycle
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