Litcius/Paper detail

Building Energy Efficiency for Indoor Heating Temperature Set-Point: Mechanism and Case Study of Mid-Rise Apartment

Xingyu Qi, Yin Zhang, Zhineng Jin

2023Buildings10 citationsDOIOpen Access PDF

Abstract

Space heating accounts for a large part of building energy consumption. Lowering the heating temperature set-point (Tsp) is expected to be a feasible approach for energy efficiency. In this paper, eight globally typical cities are selected, and the energy-saving mechanism and variation trends of lowering heating Tsp are investigated under different working conditions (climate conditions, construction completion year and inner heat sources). The results show that significant energy-saving effects even appear in the relatively warm-winter cities. The energy-saving mechanism is dominated by two different categories of heating hours including the temperature-difference saving (TDS) hours and the behavioral saving (BS) hours. The contribution of TDS and BS to the whole annual heating energy saving amount (HSA) depends on the reducing level of heating hours. The HSA of lowing Tsp is mainly affected by TDS influence. After coupling the consideration of different factors, with the decreasing annual HSA of buildings, the dominance of the TDS influence mechanism shrinks gradually while the annual heating energy saving ratio (HSR) increases. This work provides the analysis method for building heating energy saving potential evaluation and reference for the establishment of standards and residents’ behavioral energy saving in different climatic zones.

Topics & Concepts

Environmental scienceEnergy consumptionApartmentSet pointWork (physics)Energy (signal processing)Efficient energy useMechanism (biology)Point (geometry)Heating systemCivil engineeringMathematicsEngineeringStatisticsMechanical engineeringPhysicsElectrical engineeringGeometryQuantum mechanicsControl engineeringBuilding Energy and Comfort OptimizationUrban Heat Island MitigationWind and Air Flow Studies