A Review of the Status of Fossil and Renewable Energies in Southeast Asia and Its Implications on the Decarbonization of ASEAN

Author(s)

Hon Chung Lau (1,2) ,Kai Zhang (3),Harsha Kumar Bokka (4) and Seeram Ramakrishna (5)

Country(ies)

Publisher

Published Date

March 2022

Access

Open

DOI

https://doi.org/10.3390/en15062152
Affiliation
1 Low Carbon Energies, Houston, TX 77401, USA
2 Department of Chemical and Biomolecular Engineering, Rice University, Houston, TX 77005, USA
3 Department of Chemical and Petroleum Engineering, University of Calgary, Calgary, AB T2N 1N4, Canada
4 Department of Civil and Environmental Engineering, University of Singapore, Singapore 117576, Singapore
5 Department of Mechanical Engineering, University of Singapore, Singapore 117575, Singapore

Abstract

The ten nations of Southeast Asia, collectively known as ASEAN, emitted 1.65 Gtpa CO2 in 2020, and are among the most vulnerable nations to climate change, which is partially caused by anthropogenic CO2 emission. This paper analyzes the history of ASEAN energy consumption and CO2 emission from both fossil and renewable energies in the last two decades. The results show that ASEAN’s renewable energies resources range from low to moderate, are unevenly distributed geographically, and contributed to only 20% of total primary energy consumption (TPEC) in 2015. The dominant forms of renewable energies are hydropower, solar photovoltaic, and bioenergy. However, both hydropower and bioenergy have substantial sustainability issues. Fossil energies depend heavily on coal and oil and contribute to 80% of TPEC. More importantly, renewable energies’ contribution to TPEC has been decreasing in the last two decades, despite the increasing installation capacity. This suggests that the current rate of the addition of renewable energy capacity is inadequate to allow ASEAN to reach net-zero by 2050. Therefore, fossil energies will continue to be an important part of ASEAN’s energy mix. More tools, such as carbon capture and storage (CCS) and hydrogen, will be needed for decarbonization. CCS will be needed to decarbonize ASEAN’s fossil power and industrial plants, while blue hydrogen will be needed to decarbonize hard-to-decarbonize industrial plants. Based on recent research into regional CO2 source-sink mapping, this paper proposes six large-scale CCS projects in four countries, which can mitigate up to 300 Mtpa CO2. Furthermore, this paper identifies common pathways for ASEAN decarbonization and their policy implications.

 

Cite:

Lau, H. C., Zhang, K., Bokka, H. K., & Ramakrishna, S. (2022). A review of the status of fossil and renewable energies in Southeast Asia and its implications on the decarbonization of ASEAN. Energies, 15(6), 2152.

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