Research on Green Building Material Assessment Factors and Eco-Efficiency Issue

Due to global climate changes, Earth sustainability issues have become topics of international attention. The frequency of abnormal weather occurrences and disasters around the world has doubled and the health of the environment has been deteriorating, causing catastrophes around the world. All countries must have a prudent response to this situation. The environmental topics debated globally have changed from passive discussions about environmental protection and energy consumption to more proactive dialogues on sustainable cycles and LOHAS. Taiwan has actively proposed relevant environmental responsive measures, including plans for ecological cities, green buildings, and green building materials (GBMs). GBMs are the basic factor of environmental building projects and they have the most extensive scope of applications, as they have a direct effect on human health and are the key to the Earth's sustainability. This research summarized international sustainability assessment systems, international green building material labels, and relevant building material assessment mechanisms, in order to summarize and integrate a variety of factors with the life cyclic assessment (LCA) of the ISO14040 series as the axis for establishing a preliminary green building material assessment system. In addition, the Fuzzy Delphi Methods was employed for analysis to discuss the green building material environmental load (Ln) factor and the green building material quality (Qn) factor. According to the research and analysis results, this research established the GBM Eco-Efficiency Assessment System in the context of climate change, to be used as the basis for subsequent research on GBM eco-efficiency standards. Using efficiency as a starting point, this research hoped to achieve a win-win strategy of balancing human health with the Earth's sustainable development.