![]() Thermal performance of a radiant floor heating system with different heat storage materials and heating pipes. Heat pipe with micro-pore tubes array and making method thereof and heat exchanging system. Experimental and numerical analysis of lightweight radiant floor heating system. ![]() International Journal of Energy Research, 42: 648–655. Thermal management system of lithium-ion battery module based on micro heat pipe array. Investigation of thermal management of lithium-ion battery based on micro heat pipe array. Energy Conversion and Management, 142: 230–243. Thermal performance of solar air collection-storage system with phase change material based on flat micro-heat pipe arrays. Construction and Building Materials, 178: 360–371. Experimental and numerical study on heating performance of the mass and thin concrete radiant floors with ground source systems. Design of radiant floor heating panel in view of floor surface temperatures. A parametric study on radiant floor heating system performance. ![]() Very low temperature radiant heating/cooling indoor end system for efficient use of renewable energies. Multivariable optimization of PCM-enhanced radiant floor of a highly glazed study room in cold climates. New transient simplified model for radiant heating slab surface temperature and heat transfer rate calculation. Merabtine A, Mokraoui S, Kheiri A, Dars A (2019). Applied Thermal Engineering, 109: 718–726. Experimental study of a multi-energy complementary heating system based on a solar-groundwater heat pump unit. Beijing: China Architecture& Building Press. In: Proceedings of ISHVAC 2019, Harbin, China. Experimental study on indoor thermal environment of radiant floor heating system based on micro-heat pipe array. Inclined U-shaped flat microheat pipe array configuration for cooling and heating lithium-ion battery modules in electric vehicles. Analytical solution for heat transfer in a multilayer floor of a radiant floor system. Study on thermal performance of a PCM enhanced hydronic radiant floor heating system. Journal of the Korea Society for Power System Engineering, 18: 23–28. Development of high performance bubble jet loop heat pipe for hot water floor heating system. Journal of the Japan Association for Heat Pipes, 21(4): 49–65. Development of the under-floor heating system using oscillating capillary tube heat pipe. A numerical investigation of fluid flow and heat transfer inside a room for floor heating and wall heating systems. A model predictive control strategy to optimize the performance of radiant floor heating and cooling systems in office buildings. Transient simulation of a storage floor with a heating/cooling parallel pipe system. (in Chinese)įlores Larsen S, Filippín C, Lesino G (2010). Experimental study on the performance of radiant floor heating system based on micro heat pipe arrays. (in Chinese)ĭong RX, Quan ZH, Zhao YH, et al. Floor Heating and Household Heat Metering Technology. We used research focusing on new radiant floor heating, with advantages including high efficiency heat transfer, low water supply temperature, simple waterway structure, low resistance and leakage risk, to provide theory and data to support the application of an effective radiant floor heating based on MHPA.īu YD (2007). In order to reduce the non-uniformity of the floor’s surface temperature and improve the thermal comfort of the heated room, the optimal structure for a floor is given, with the maximum surface temperature difference reduced by 3.35 ☌. During a longitudinal heat transfer above MHPA, the floor surface temperature decreases by 0.5 ☌ for every 10 mm filling layer increase. The inlet water temperature of cement-tile floor is about 10 ☌ lower than that of keel-wood structure when the floor surface temperature is the same. When under the same inlet water temperature and flow rate, the keel-wood floor’s surface temperature distribution is about 2 ☌ lower than that of the cement-tile floor. The results show that the cement-tile floor has the better heat transfer performance of the two. ![]() The temperature distribution and heat transfer process of each part are comprehensively obtained, and the structure is optimized. The numerical models for these different floor structures are established and verified by experiments. This paper proposes two new radiant floor heating structures based on micro heat pipe array (MHPA), namely cement-tile floor and keel-wood floor.
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