Research on the evaluation of the renovation effect of existing energy-inefficient residential buildings in a severe cold region of China

Abstract

The renovation of existing energy-inefficient residential buildings is an important measure to improve building energy efficiency and achieve CO2 emission reduction strategic tasks. At present, existing energy-inefficient residential buildings suffer from high energy consumption for heating, low efficiency, and poor indoor thermal comfort. It is necessary to implement energy-saving renovation on existing residential buildings and evaluate the renovation effect. This article took existing energy-inefficient residential buildings as the research object and selected a targeted evaluation system. Based on expert research, the hierarchical-grey correlation degree method was used to determine the weight of indices. Actual testing was conducted on the three nodes of the heat exchange station, secondary network, and the building ontology during the heating seasons of 2015–2016 and 2016–2017 (before and after renovation). Based on measured data, a fuzzy membership degree evaluation model was constructed, and the evaluation results were determined using a linear weighted method to form a complete evaluation system. The evaluation system covered 12 evaluation indices, and the evaluation indices with the largest weight in the criterion and index layer were energy consumption (0.308) and economic contribution rate (0.183), respectively. The average linear weighted evaluation scores before and after the renovation of each node were 14.16 and 29.04, respectively.