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Greenhouse gas emissions trends and drivers insights from the domestic aviation in Thailand
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Document Title
Greenhouse gas emissions trends and drivers insights from the domestic aviation in Thailand
Author
Champeecharoensuk A. Dhakal S. Chollacoop N. Phdungsilp A.
Affiliations
Department of Energy Environment and Climate Change School of Environment Resource and Development Asian Institute of Technology Thailand; Renewable Energy and Energy Efficiency Research Team Leader National Energy Technology Center (ENTEC) National Science and Technology Development Agency (NSTDA) Thailand; Division of Energy Management Technology School of Energy Environment and Materials King Mongkut's University of Technology Thonburi Bangkok Thailand
Type
Article
Source Title
Heliyon
ISSN
24058440
Year
2024
Volume
10
Issue
2
Open Access
All Open Access Gold Green
Publisher
Elsevier Ltd
DOI
10.1016/j.heliyon.2024.e24206
Abstract
Domestic aviation is a swiftly expanding contributor to global greenhouse gas (GHG) emissions. Presently economic volatility and the Coronavirus disease (COVID-19) crisis have resulted in the decline of domestic aviation but domestic aviation is rapidly recovering in many countries. However from a GHG emissions viewpoint the domestic aviation sector is largely unenforced even though the International Civil Aviation Organization s (ICAO) Carbon Offsetting and Reduction Scheme for International Aviation (CORSIA) provision for international aviation is currently in place. Accordingly the knowledge base on emissions and their drivers from domestic aviation is weak especially in developing countries thus hindering an evidence-based policy debate. In this context we have estimated and analyzed the pre-COVID-19 GHG emissions and their trends from commercial domestic aviation in Thailand; and provided insights on the role of key drivers that influence GHG emissions that are expected to be useful not only for Thailand but also for other developing countries. Emissions are estimated following Intergovernmental Panel on Climate Change (IPCC) Tier-II. Specifically activity-based landing/take-off (LTO) cycle and cruise. This is compared to the Tier-I method and key drivers were analyzed using an index decomposition method. The total annual average GHG emissions for all LTO cycles and cruises of commercial domestic aviation for 2015�20 was 2254 Th. tonnes of CO2-eq. During the LTO cycle of the aircraft GHG emissions were at an average of 983 Th. tonnes of CO2-eq. Additionally during the cruise stage emissions averaged 1270 Th. tonnes of CO2-eq. The choice of accounting methods (i.e. IPCC Tier II vs. Tier I) seems to have had only nominal implications. Our analysis showed that in the 2008�20 period the aviation activity effect and economic growth were the key decisive factors in this sector s GHG emissions growth. It was followed by the fuel energy intensity levels and the population effect in descending order of impact. These findings have significant ramifications for present and future policies aimed at decreasing GHG emissions aiding Thailand in achieving its climate targets by 2050 and enhancing energy efficiency as the domestic aviation market adapts. ? 2024 The Authors
Industrial Classification
Knowledge Taxonomy Level 1
Knowledge Taxonomy Level 2
Knowledge Taxonomy Level 3
License
CC BY-NC-ND
Rights
Authors
Publication Source
WOS