Thailand's low-carbon scenario 2030: Analyses of demand side CO2 mitigation options

Thailand's low-carbon scenario 2030: Analyses of demand side CO2 mitigation options

Pornphimol Winyuchakrit a, Bundit Limmeechokchai a,?, Yuzuru Matsuoka b, Kei Gomi b, Mikiko Kainuma c,

Junichi Fujino c, Maiko Suda c
^a Sirindhorn International Institute of Technology, Thammasat University, P.O. Box 22 Thammasat Rangsit Post Office, Patumthani 12121, Thailand
^b Graduate School of Engineering, Kyoto University, Katsura, Nishikyo-ku, Kyoto 615–8510, Japan
^c National Institute for Environmental Studies, 16–2 Onogawa, Tsukuba 305–8506, Japan

Keywords:
CO2 emissions
Low carbon society
Energy efficiency
ExSS model
GHG mitigation measures

a b s t r a c t

This paper presents the possibility for Thailand to become a low-carbon society (LCS). The methodology involves development of current CO2emission inventory, and quantification of socio-economic activity level in 2030. In this study, the increase of CO2 emissions is estimated based on i) 2030 BAU (business-asusual) without mitigation measures, and ii) 2030 CM (climate change mitigation measures) assumptions of employed demand-side technologies as well as the potential to reduce the CO2 emissions by low-carbon measures available during 2005–2030. In this study, only selected climate change mitigation options, which have been found to be cost effective, are included in the 2030 CM scenario. Several comprehensive demand-side measures such as diffusion of low-carbon technologies in the residential sector, energy efficient buildings, energy efficient industry and fuel switching, and fuel substitution in the transport sector are proposed. Results show that i) the annual CO2 emissions in the base year of 2005 are 185,983 kilo-ton (kt) of CO2, ii) under the scenario without climate change mitigation measures (the BAU scenario), year 2030 CO2 emissions would increase to 563,730 kt-CO2 or 3.03 times that of the base year 2005, and iii) by adopting the selected climate change mitigation measures, CO2 emissions can be decreased approximately 28.4% compared to the 2030 BAU scenario, i.e. to 403,642 kt-CO2. The research findings hope to contribute to sustainable energy and environmental transition of Thailand, one of the fastest growing economies in Southeast Asia, towards a Thai low carbon society.

2011 International Energy Initiative. Published by Elsevier Inc. All rights reserved.

Energy for Sustainable Development 15 (2011) 460–466
Contents lists available at SciVerse ScienceDirect
Energy for Sustainable Development

a r t i c l e i n f o
Article history:
Received 4 October 2010
Revised 27 September 2011
Accepted 27 September 2011
Available online 22 October 2011

Energy for Sustainable Development 15 (2011) 460–466
Contents lists available at SciVerse ScienceDirect
Energy for Sustainable Development