The exploration of the life-cycle energy saving potential for using prefabrication in residential buildings in China

Abstract

China’s rapid urbanization along with the development of the modern economy is certain to result in a long-standing and substantial energy demand in the entire society. Therefore, industrialization in building construction is a vital strategy for alleviating adverse environmental burdens and accelerating urbanization with the current construction practice. An integrated method was employed to evaluate the life cycle energy performance of prefabricated buildings, using the process-based hybrid life cycle assessment and scenario-based energy simulation as the underlying methods. Results revealed the less obvious energy reduction potential of prefabricated buildings during the embodied phase. During the building operation phase, the scenario and comparative analyses from a life-cycle perspective indicate that prefabrication generates environmental gains by providing enhanced thermal performance. A regional level policy analysis reveals the backwards status quo of the precast construction in Northern and Western China. Given the significance of using prefabrication in building energy conservation, it is quite urgent and necessary to establish a mature construction market with highly evolved industrialization in these “backward” regions.