Citywide Energy-Related CO2 Emissions and Sustainability Assessment of the Development of Low-Carbon Policy in Chiang Mai, Thailand

Abstract

Cities are one of the key contributors to the environment and sustainability. This study aims to quantify citywide energy-related CO2 emissions and assess the sustainability feasibility of implementing climate change mitigation policies in Chiang Mai, Thailand. By employing the GPC method, it was found that the average energy-related CO2 emission in Chiang Mai from 2015 to 2019 was 2,146,060 tCO2eq. Residences, industries (i.e., food preservation industries), and commercial and governmental buildings were the top three energy consumption-related GHG emitters. According to the Analytical Hierarchy Process (AHP), in terms of mitigation measures, LED lighting presented the highest score (0.380), followed by improving air conditioning efficiency (0.278), and the use of energy-efficient appliances (0.203). Energy-efficient technologies would be more feasible than the development of renewable energy technologies to lower CO2 emissions. In terms of sustainability, political, technical, and economic feasibility criteria presented the highest AHP score (0.789), followed by human and social dimensions criteria (0.129), and environmental performance criteria (0.073). Policy possibility had the highest AHP score, while direct contribution to climate benefits as GHG reduction presented the lowest score. The integration of climate mitigation opportunities into national policies, the green industry scheme, and promoting residents’ self-determined motivation are urgently recommended.