Thermal Science 2024 Volume 28, Issue 2 Part B, Pages: 1389-1396
https://doi.org/10.2298/TSCI2402389H
Full text ( 520 KB)
Application of cold hot electric combined heating pump system in ecological environment building design
He Yi (School of Art and Design, Guilin University of Electronic Science and Technology, Guilin, Guangxi, China)
Peng Yubao (Guilin University Of Aerospace Technology, Guilin, Guangxi, China), 31115217@njau.edu.cn
Pan Zihe (WOOSUK University, Jeonju, South Korea)
Gao Qibo (WOOSUK University, Jeonju, South Korea)
Aiming at energy saving and consumption reduction, this project applies the
technology of combined heating and cooling heat pump to ecological building
design. The combined hot and cold system is an integrated control system,
which utilizes the solar system and heat pump technology (air source heat
pump, water source heat pump) to complement each other based on changes in
the outdoor environment, thus providing users with hot water heating and
cold water cooling in winter. After installing a new heating and cooling
system, coupled with well-equipped automatic control equipment, the heating
coal consumption has been significantly reduced, and the emissions of CO2,
SO2 dust, and other pollutants have also been correspondingly reduced.
Compared with the cold and hot split supply system using electric
refrigeration and thermal heating, the winter and summer sharing of the cold
and hot combined supply device not only improves energy utilization
efficiency, but also saves investment in heat source construction, thereby
reducing costs and environmental pollution.
Keywords: cold hot electric heating pump system, ecological environment, architectural design, application
Show references
Shen, X., et al., Simulation Research on the Heating Performance of the Combined System of Solar Energy and Heat-Source Tower Heat Pump in a Hot Summer and Cold Winter Area, Energies, 14 (2021), 7, 1816
Xue, D., et al., Prediction of Structural Mechanical Properties of Energy-Saving Materials for Solar Photovoltaic Photo-Thermal System Based on Deep Learning, Thermal Science, 27 (2023), 2A, pp. 1109-1116
Yang, X., el al., Optimization of Heat Source Side Technical Scheme of Combined Heat and Water System Based on a Coal-Fired Power Plant, Building Simulation, 15 (2022), 8, pp. 1455-1473
Wang, J., el al., Simulation Experiment on Energy Tower Coupled with Buried Pipe System of Ground-Source Heat Pump for Cross-Season Heat Storage, Journal of Physics: Conference Series, 2018 (2021), 1, 012039
Ji, S., et al., Application and Analysis of Air-Source Heat Pump Heat Supply System in Cold Areas, Journal of Physics: Conference Series, 2186 (2022), 1, 012017
Wang, Q., el al., Application and Analysis of Low Temperature Air Source Heat Pump Heating System in Cold Area, IOP Conference Series: Earth and Environmental Science, 766 (2021), 1, 012086
Koike, R., et al., Studies on Winter Operation Efficiency of Tabs and Floor Blow Air Conditioning System Using Groundwater as a Heat Source/Sink, AIJ Journal of Technology and Design, 29 (2023), 71, pp. 275-279
Dacquay, C., el al., Feasibility of Thermal Load Control from Electrochromic Windows for Ground Coupled Heat Pump Optimization, Journal of Building Engineering, 40 (2021), 4, 102339
Liu, J., et al., Combined with the Residual and Multi-Scale Method for Chinese Thermal Power System Record Text Recognition, Thermal Science, 23 (2019), 5A, pp. 2361-2640
Peng, W., Enhancement Technology of Underground-Water Flow Field in Coal Mine to Improve Energy Efficiency of Heat Pump System in Geothermal Energy Development, Thermal Science, 27 (2023), 2A, pp. 1191-1198