LAUSR

Abstract In order to promote the development of green buildings, this paper presents a technical, economic, and environmental evaluation of a residential building powered by hybrid intermittent generation systems in a mild humid subtropical climate zone in China. The technical, economic, and environmental mathematical models of hybrid systems are addressed. This study selected Guiyang city, which is a typical mild humid climate zone. The results revealed that the 30 kW grid-connected system for the building was the most economical with a net present cost of $ 28,041 and cost of energy of 0.069 $/kWh, whereas this was the least environmentally friendly form of power generation, emitting a maximum amount of CO2 of 26,609 kg/yr. From an economic and environmental perspective, grid/photovoltaic (PV)/wind hybrid systems in on-grid systems may be a better choice for supplying power to buildings in Guiyang. If the extension of the power grid is not feasible, off-grid PV/battery hybrid systems consisting of 115 kW PV units, 80 battery units, and a 30 kW power converter, are more suitable for supplying power to the building. Furthermore, the results indicated that wind power is not suitable for supplying power to buildings in Guiyang, mainly due to relatively low wind speeds.