Dynamic Research on Cold Storage Performance of a Standard Radiant Floor Cooling System for Office Buildings in Northern China

Due to the wide application of floor heating systems, the radiant floor cooling systems has developed rapidly in recent years. In this paper, TRNSYS numerical simulation methods are used to study the influence of chilled water supply temperature and flow rate on the cold storage characteristics of a...

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Veröffentlicht in:	Journal of thermal science 2022-11, Vol.31 (6), p.1928-1938
Hauptverfasser:	Wang, Xiaolong, Man, Yi, Zhang, Lili, Zhang, Wenke, Zhang, Linhua
Format:	Artikel
Sprache:	eng
Schlagworte:	Classical and Continuum Physics Cold flow Cold storage Cold weather construction Cooling Cooling systems Cooling water Engineering Fluid Dynamics Engineering Thermodynamics Flow velocity Heat and Mass Transfer Heating systems Numerical methods Office buildings Physics Physics and Astronomy Polynomials Probability distribution functions Radiant cooling Radiant heating Saturation Special column: Built Thermal Environment Water flow Water supply Water temperature
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container_end_page	1938
container_issue	6
container_start_page	1928
container_title	Journal of thermal science
container_volume	31
creator	Wang, Xiaolong Man, Yi Zhang, Lili Zhang, Wenke Zhang, Linhua
description	Due to the wide application of floor heating systems, the radiant floor cooling systems has developed rapidly in recent years. In this paper, TRNSYS numerical simulation methods are used to study the influence of chilled water supply temperature and flow rate on the cold storage characteristics of a standard floor structure for office buildings in northern China. The results are verified by experimental measurements. The functional relationship between the saturated cold storage time and the chilled water flow rate is quadratic polynomial, while the changes of supply-water temperature have no effect on the saturation time; the supply-water temperature has a linear relationship with the saturated cold storage volume, while the chilled water flow rate has almost no effect on the saturation cold storage volume. The accumulated cold volume of floor changes with time in an exponential distribution with four coefficients, and the floor has the characteristics of rapid cold storage. This paper is instructive for the design, application and promotion of radiant floor cooling systems.
doi_str_mv	10.1007/s11630-022-1538-4
format	Article
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In this paper, TRNSYS numerical simulation methods are used to study the influence of chilled water supply temperature and flow rate on the cold storage characteristics of a standard floor structure for office buildings in northern China. The results are verified by experimental measurements. The functional relationship between the saturated cold storage time and the chilled water flow rate is quadratic polynomial, while the changes of supply-water temperature have no effect on the saturation time; the supply-water temperature has a linear relationship with the saturated cold storage volume, while the chilled water flow rate has almost no effect on the saturation cold storage volume. The accumulated cold volume of floor changes with time in an exponential distribution with four coefficients, and the floor has the characteristics of rapid cold storage. 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Therm. Sci</addtitle><description>Due to the wide application of floor heating systems, the radiant floor cooling systems has developed rapidly in recent years. In this paper, TRNSYS numerical simulation methods are used to study the influence of chilled water supply temperature and flow rate on the cold storage characteristics of a standard floor structure for office buildings in northern China. The results are verified by experimental measurements. The functional relationship between the saturated cold storage time and the chilled water flow rate is quadratic polynomial, while the changes of supply-water temperature have no effect on the saturation time; the supply-water temperature has a linear relationship with the saturated cold storage volume, while the chilled water flow rate has almost no effect on the saturation cold storage volume. 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subjects	Classical and Continuum Physics Cold flow Cold storage Cold weather construction Cooling Cooling systems Cooling water Engineering Fluid Dynamics Engineering Thermodynamics Flow velocity Heat and Mass Transfer Heating systems Numerical methods Office buildings Physics Physics and Astronomy Polynomials Probability distribution functions Radiant cooling Radiant heating Saturation Special column: Built Thermal Environment Water flow Water supply Water temperature
title	Dynamic Research on Cold Storage Performance of a Standard Radiant Floor Cooling System for Office Buildings in Northern China
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