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Research Article | Open Access | Online First

The DREAM approach to demand-side emissions reductions in Indonesia, 2020–2060

Nadhilah Reyseliani^{¹^,²}, Virginie Letschert^²(), Nina Khanna^², Jing Ke^², Stephane de la Rue du Can^², Hongyou Lu^², Wei Feng^³, Nan Zhou^²

1Chemical Engineering Department, Faculty of Engineering, Universitas Indonesia, Depok 16424, Indonesia

2Lawrence Berkeley National Laboratory, Energy Technologies Area, Berkeley, CA 94720, USA

3Institute of Technology for Carbon Neutrality, Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, Shenzhen 518055, China

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Abstract

Indonesia’s current energy system modeling is heavily focused on the supply side, but emissions reductions in the demand sector have a significant impact on advancing Indonesia’s ambitious emissions reductions goals. To address the gap, we develop a new modeling tool DREAM Indonesia based on a bottom-up, technology-rich demand side framework and formulate projections of demand-side emissions reductions in Indonesia in 2020–2060. We find that demand-side energy efficiency and electrification can halve the growth rate of final energy demand to 1.4% annually over 2020–2060 and reverse the growing trend of emissions. The feasibility of full electrification by 2060, coupled with rapid adoption of existing technologies, positions the building sector as a model for achievable decarbonization and a cornerstone of Indonesia’s emissions reductions ambitions. In the industrial sector, extensive emissions reductions of 87% by 2060 (compared to business-as-usual) are achievable through energy efficiency improvements, alongside enhanced material efficiency measures including optimized material usage, low-carbon substitutions, innovative technologies, and increased circularity. In the transportation sector, balancing final energy demand by incorporating energy efficiency improvements across all transport modes, along with electrification particularly in road transportation, could decrease the emissions by up to 82% in 2060 compared to business-as-usual. This study provides insights and modeling approaches for rapidly growing Asian economies as well as other developing countries facing combined development and decarbonization challenges.

Keywords

Demand-side emissions reductions bottom-up model DREAM Indonesia energy system modeling emissions reductions pathways

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References

[1]

GOI. (2022). Presidential Regulation No. 112/2022 on the acceleration of renewable energy development for power supply 2022.

[2]

Bappenas. (2023). Final draft of national long-term development plan 2025-2045. https://bappeda.probolinggokab.go.id/uploads/documents/DOC_020823671.pdf.

[3]

SIGNSMART. (2021). Greenhouse gas inventory reports (GHG) and monitoring, reporting, verification (MPV). (In Indonesian

[4]

Fragkos, P., Laura van Soest, H., Schaeffer, R., Reedman, L., Köberle, A. C., Macaluso, N., Evangelopoulou, S., De Vita, A., Fu, S., Chai, Q., et al. (2021). Energy system transitions and low-carbon pathways in Australia, Brazil, Canada, China, EU-28, India, Indonesia, Japan, Republic of Korea, Russia and the United States. Energy, 216: 119385.

Crossref

[5]

IEA. (2022). An energy sector roadmap to net zero emissions in Indonesia. https://www.iea.org/reports/an-energy-sector-roadmap-to-net-zero-emissions-in-indonesia.

[6]

Handayani, K., Anugrah, P., Goembira, F., Overland, I., Suryadi, B., Swandaru, A. (2022). Moving beyond the NDCs: ASEAN pathways to a net-zero emissions power sector in 2050. Applied Energy, 311: 118580.

Crossref

[7]

Heaps, C. G. (2022). LEAP: the low emissions analysis platform [Software version: 2024.1.1.15]. Stockholm Environment Institute. Somerville, MA, USA.

[8]

MEMR. (2022). Handbook of Energy and Economic Statistics of Indonesia 2021. https://www.esdm.go.id/assets/media/content/content-handbook-of-energy-and-economic-statistics-of-indonesia-2021.pdf.

[9]

Kintner-Meyer, M., Conzelmann, G., Kim, H. C., Zhou, N., Carvallo, J. P., DeStephane P., Durga, S., Elgowainy, A, Giannakidis, G., Hamilton, B., et al. (2022). Preliminary analysis of decarbonization pathways for five countries: the net zero world initiative report series–01.

Crossref

[10]

Lu, H. Y., de la Rue du Can, S., Letschert, V., Wong, H. L. C., Zhou, N., Wijaya, F., Hidayati, F., Husodo, D. C. (2024). Industry decarbonization roadmaps for indonesia: opportunities and challenges to net-zero emissions. Lawrence Berkeley National Laboratory.

[11]

IEA. (2022). World energy balances. https://www.iea.org/data-and-statistics/data-product/world-energy-balances.

[12]

Badan Pusat Statistik. (2024). Jumlah Kendaraan Bermotor Menurut Provinsi dan Jenis Kendaraan (unit), 2022. (In Indonesian

[13]

Deendarlianto, Widyaparaga, A., Widodo, T., Handika, I., Chandra Setiawan, I., Lindasista, A. (2020). Modelling of Indonesian road transport energy sector in order to fulfill the national energy and oil reduction targets. Renewable Energy, 146: 504–518.

Crossref

[14]

IEA. (2017). The future of trucks. https://www.iea.org/reports/the-future-of-trucks.

[15]

McNeil, M. A., Karali, N., Letschert, V. (2019). Forecasting Indonesia’s electricity load through 2030 and peak demand reductions from appliance and lighting efficiency. Energy for Sustainable Development, 49: 65–77.

Crossref Google Scholar

[16]

De la Rue du Can, S., Price, L., Zhou, N., Phadke, A. (2019). China and India: energy service and related material demand projections. In Proceedings of the 38th International Energy Workshop, Paris.

Technology Review for Carbon Neutrality

DOI: 10.26599/TRCN.2025.9550006

Cite this article:

Reyseliani N, Letschert V, Khanna N, et al. The DREAM approach to demand-side emissions reductions in Indonesia, 2020–2060. Technology Review for Carbon Neutrality, 2025, https://doi.org/10.26599/TRCN.2025.9550006