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- Title
Cooling Performance Prediction for Hydraulic Thermoelectric Radiant Cooling Panels with Experimental Validation.
- Authors
Kim, Minseong; Kang, Yong-Kwon; Joung, Jaewon; Jeong, Jae-Weon
- Abstract
Thermoelectric technology has been developed as a substitute for existing refrigerants in heating, ventilation, and air-conditioning system applications for building decarbonization. A hydraulic thermoelectric radiant cooling panel (hTERCP) operated based on the Peltier effect can alternate a conventional cooling system using a chiller with refrigerators. This study aimed to develop a cooling performance prediction model for a hTERCP-integrated free cooling system according to the desirable range of five design factors. A mockup model of the hTERCP was constructed and tested in an environmental chamber to verify the proposed simulation model. The simulation and the experimental analysis confirmed that the heat rejection performance of the thermoelectric module (TEM) significantly affects the cooling performance of the hTERCP. The cooling water temperature was the primary design factor for releasing heat from the hot side of the TEM and significantly influenced the cooling performance of the hTERCP. A parametric analysis of the five design factors was conducted to investigate a method for improving the coefficient of performance (COP) of the hTERCP. The cooling water temperature affected the COP by 38.6–45.7%, and the heat exchange area of the cooling surface greatly influenced the cooling performance by 41.4%. The cooling water flow rate, heat exchange effectiveness of the water block, and heat resistance of the hot side were confirmed to have relatively little influence as 9.7–10.2%, 11.9–24.8%, and 0.7–11.1%, respectively.
- Subjects
RADIANT heating; THERMOELECTRIC generators; PELTIER effect; WATER temperature; SURFACE area; COOLING systems; PREDICTION models
- Publication
Sustainability (2071-1050), 2022, Vol 14, Issue 23, p16214
- ISSN
2071-1050
- Publication type
Article
- DOI
10.3390/su142316214