研究発表
Impacts of socio-economic change and climate change on Korean regional energy service demand in residential sector
発表者 :
Park C.(PARK Chan),
Masui T.(増井利彦),
Hanaoka T.(花岡達也), Lee D.
学会等名称 : 4th Congress of EAAERE (2014)
予稿集名 : Solving climate change is a huge international challenge. Directly or indirectly, positively or negatively, climate change will affect all sectors and regions of Korea. Only a concerted global effort, involving the governments of all nations, will be enough to avert dangerous consequences. But, to reach the goal, bottom-up actions of everyday people are still crucial. The energy use is not only a driving force of climate change and socio-economic change, it is also vulnerable to future socio-economic change and climate change. To investigate how to reduce CO2 Emission in the future, this paper discusses the underlying Korean regional energy service demand in residential sector due to socio-economic change and climate change. Residential sector is important because CO2 emission can easily be reduced by life-style change and efficiency improvement with citizens’ participation. The historical data and AIM service demand module concept were used in Korean regional energy service demand module. The role of heating degree days, cooling degree days, GDP, the number of household, the number of household members, and satisfying service demand factor were considered. In order to draw future pathway for Korean regional energy service in the residential sector, the reference socio-economic scenario and new developed RCP scenario for climate change were used. The reference socio-economic scenario extrapolates current trends and describes a business as usual development. The results show that there are indeed major impacts factors in the residential sector. The climate change, GDP, the number of household and family size, life style, and satisfying service demand factor have strong relationships with energy service demand. The technology efficiency, fuel mix, and insulation were identified as the most effective options for reducing energy use.