100 Ping Le Yuan
Chaoyang District
Beijing, 100020
China
Beijing University of Technology
Air source heat pump, Residential Buildings, Power demand response, Building thermal mass, Flexible Heating, Time-of-use tariffs
Air source heat pump, residential buildings, Power demand response, Building thermal mass, Flexible Heating, Time-of-use tariffs
Air source heat pump system, Variable water temperature control method, Supply and demand balance, Energy Efficient, Building clean heating
Air source heat pump, Water temperature scheduling method, Power demand response, Building thermal mass, Heating operating costs, Time-of-use tariffs
building, Air source heat pump, Water temperature scheduling method, demand response, Building thermal mass, Heating operating costs, Time-of-use tariffs
Air-supported membrane envelope, Natural convective, Thermal resistance, Air interlayer, Numerical simulation
variable frequency air source heat pump, performance prediction modeling, photovoltaic power generation, scheduling, low-carbon building
Air source heat pump, Energy-saving, Frosting rate prediction model, Defrosting control strategy, Enthalpy diagram
Air source heat pump, Frosting, Defrosting initiation time accuracy, Evaluation criterion, Energy loss
air source heat pump, frosting, defrosting, indoor temperature fluctuation, thermal environment