Title of article
A proposed modified efficiency for thermosyphon solar heating systems
Author/Authors
J.M. Chang a، نويسنده , , *، نويسنده , , J.S. Leu a، نويسنده , , M.C. Shen a، نويسنده , , B.J. Huang، نويسنده ,
Issue Information
دوماهنامه با شماره پیاپی سال 2004
Pages
9
From page
693
To page
701
Abstract
Conventionally, the overall performance rating of a thermosyphon solar water heater considers the thermal performance
of the system during the energy-collecting phase and the system cooling loss during the cooling phase.
However, this study suggests that the performance rating should also take the heat removal efficiency of the system
during the system application phase into consideration. This study modifies the CNS 12557 B7276 test standard and
employs a precise, on-line operation to derive the heat removal efficiency of a system. The thermal performance and
heat removal efficiency of 12 systems with capacities in the range of 102–446 L are evaluated. An efficiency coefficient,
g0, is defined, which represents the synthesis of the characteristic thermal performance, g s , and the characteristic heat
removal efficiency, g R. The proposed modified efficiency coefficient is given by g0 ¼ g s g R, and represents the quasioverall
performance of a solar heating system. The coefficient provides an effective measure of the amount of energy
provided to the user from a system which collects and stores heat from solar radiation. According to prevailing regulations
in Taiwan, commercial solar heating products should have a value of g s in excess of 0.5 in order to attract a
government subsidy. The proposed modified efficiency, g0, is a more practical and representative indication of the actual
thermal performance of a system, and accordingly, the present study suggests that the regulations should adopt a value
of g0P0:41 as the standard for qualification rather than the current criterion of g s P0:5.
2004 Elsevier Ltd. All rights reserved
Journal title
Solar Energy
Serial Year
2004
Journal title
Solar Energy
Record number
939317
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