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Abstrakty
Building heating is an indispensable part of people's winter life in cold regions, but energy conservation and emission reduction should also be taken into account during the heating process. This paper provides a concise overview of the heating system based on air-source heat pump radiant floor and its control strategy. It also optimizes a control system based on thermal comfort and energy efficiency ratio, and analyzes a room in Xining City, Qinghai Province, to test the heating system performance under two control strategies. The final results show that under the traditional control strategy, the cumulative working time of the heating system within a day was 15 hours, the average indoor temperature was 17.36℃, the temperature standard deviation was 2.08℃, and the average power consumption was 189.6 kWh. Under the improved control strategy, the cumulative working time of the heating system within a day was reduced to 10 hours, the average indoor temperature was 18.56℃, the temperature standard deviation was 0.92℃, and the average power consumption was 132.5 kWh.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
129--135
Opis fizyczny
Bibliogr. 20 poz.
Twórcy
autor
- aChongqing Industry Polytechnic College, Yubei, Chongqing 401120, China
autor
- Chongqing Vocational Institute of Engineering JiangJin Chongqing 402260, China
Bibliografia
- [1] Wathan, N. (2021). Multi-zone heating control benefits. Heating Ventilating & Plumbing, 42(2), 42.
- [2] Polyakov, S., Akimov, V., & Polukazakov, A. (2020). Simulation of the heating control system of a smart apartment building. Modeling of Systems and Processes, 13(1), 68-76. doi: 10.12737/2219-0767-2020-13-1-68-76
- [3] Kim, S.H., Chung, K.S., & Kim, Y.I. (2015). Thermal Comfort Range of Radiant Floor Heating System by Residential Style. Transactions of the Korea Society of Geothermal Energy Engineers, 11(1), 7-14. doi: 10.17664/ksgee.2015.11.1.007
- [4] Katić, K., Li, R., Verhaart, J., & Zeiler, W. (2018). Neural network based predictive control of personalized heating systems. Energy & Buildings, 174, 199-213. doi: 10.1016/ j.enbuild.2018.06.033
- [5] Gupta, A., Badr, Y., Negahban, A., & Qiu, RG. (2020). EnergyEfficient Heating Control for Smart Buildings with Deep Reinforcement Learning. Journal of Building Engineering, 34(C),101739. doi: 10.1016/j.jobe.2020.101739
- [6] Kaminska, A. (2019). Impact of Heating Control Strategy and Occupant Behavior on the Energy Consumption in a Building with Natural Ventilation in Poland. Energies, 12(22), 1-18. doi:10.3390/en12224304
- [7] Du, Y. (2014). Feasibility Analysis of Radiant Floor Cooling and Heating System Applications. Applied Mechanics and Materials, 716-717, 428-430. doi: 10.4028/www.scientific.net/AMM.716-717.428
- [8] Ma, H., Li, C., Lu, W., Zhang, Z., Yu, S., & Du, N. (2016). Experimenta l study of a multi-energy complementary heating system based on a solar-groundwater heat pump unit. Applied Thermal Engineering, 109, 718-726. doi: 10.1016/j.applthermaleng.2016.08.136
- [9] Yu, B.H., Seo, B.M., Moon, J.W., & Lee, K.H. (2015). Analysis of the Part Load Ratio Characteristics and Gas Energy Consumption of a Hot Water Boiler in a Residential Building under Korean Climatic Conditions. Korean Journal of Air Conditioning & Refrigeration Engineering, 27(9), 455-462. doi: 10.6110/KJACR.2015.27.9.455
- [10] Woodson, R. (2015). Radiant Floor Heating, Second Edition. JAMA: the Journal of the American Medical Association, 313(1),93-94.
- [11] Yang, E. (2015). Research on Control Property of Low-Temperature Floor Radiant Heating System. Open Construction & Building Technology Journal, 9(1), 311-315.
- [12] Hong, S.K., & Cho, S.H. (2015). The Experimental Study of the Heat Flux and Energy Consumption on Variable Flow Rate for Secondary Side of DHS. Korean Journal of Air-Conditioning and Refrigeration Engineering, 27(5), 247253. doi: 10.6110/KJACR.2015.27.5.247
- [13] Shaw, B.H. (2018). Infection in Mental Hospitals, with Special Reference to Floor Treatment. Journal of Mental Science, 69, 24-45. doi: 10.1192/bjp.69.284.24
- [14] Kim, S.H., Chung, K.S., & Kim, Y.I. (2015). Thermal Comfort Range of Radiant Floor Heating System by Residential Style. Transactions of the Korea Society of Geothermal Energy Engineers, 11(1), 7-14.
- [15] Toyoda, S., Fujiwara, T., Uchida, A., & Ishibashi, J. (2016). ESR dating of sea-floor hydrothermal barite: contribution of 228Ra to the accumulated dose. Nephron Clinical Practice, 43(1), 201-206. doi: 10.1515/geochr-2015-0042
- [16] Kong, Q.X., Feng, J., & Yang, C.L. (2017). Numerical Simulation of a Radiant Floor Cooling Office Based on CFD-BES Coupling and FEM. Energy Procedia, 105, 3577-3583.
- [17] Barzin, R., Chen, J.J.J., Young, B.R., & Farid, M.M. (2015). Application of PCM underfloor heating in combination with PCM wallboards for space heating using price based control system. Applied Energy, 148(1-2), 39-48. doi: 10.1016/j.apenergy.2015.03.027
- [18] Bae, W.B., Ko, J.H., Mun, S.H., & Huh, J.H. (2015). An Occupants' Location-Driven Control of Radiant Floor Heating Using Fingerprinting Method in Residential Buildings. Journal of the Architectural Institute of Korea Planning & Design, 31(11),211-219.
- [19] Bellos, E., & Tzivanidis, C. (2017). Energetic and financial sustainability of solar assisted heat pump heating systems in Europe. Sustainable Cities and Society, 33, 70-84. doi: 10.1016/j.scs.2017.05.020
- [20] Singh, S.B., Vummadisetti, S., & Chawla, H. (2017). Influence of Curing on the Mechanical Performance of FRP Laminates. Journal of Building Engineering, 16, 1-19. doi: 10.1016/j.jobe.2017.12.002
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bd7aaffa-4a3b-4ccf-a023-8e66acc59486