Background
Indonesia’s National Electricity Plan (RUKN) 2024–2026 projects 443 GW of installed capacity by 2060, with 41.6% from Viable Renewable Energy (VRE). As VRE capacity increases, ensuring power sector reliability through expanding energy storage becomes critical. Additionally, electrification of transport would also accelerate which constitutes potential demand for battery technology. The Draft National Energy Policy (RPP KEN) already targets 178 million EVs by 2060, while RUKN sets a battery energy storage storage goal of 18 GW. Alternatively for a more ambitious energy transition scenario, IESR estimates a higher capacity of battery that up to 300 GW may be needed by 2045 and all road transport electrified by 2050 to meet the 1.5°C climate target.
With the huge potential demand for battery technology in the next few decades, establishing local capacity and supply chain for the technology would be critical to lower the cost and optimize economic benefit for Indonesia. The battery supply chain ecosystem can be categorized into three main segments: upstream, midstream, and downstream. However, the development of the battery supply chain ecosystem across these segments is significantly influenced by the declining cost of battery manufacturing, driven by continuous technological innovation and advancement and evolution of the battery chemistry.
BloombergNEF reports that the price of lithium-ion batteries has dropped to USD 139 per kilowatt-hour as of 2023. Despite this positive trend, several structural challenges remain. Notably, Indonesia currently lacks an operational battery recycling system, limiting the circularity and sustainability of its battery ecosystem. Moreover, there is a disconnect between Indonesia’s substantial nickel reserves, accounting for approximately 48% of global production, and the configuration of its electric vehicle (EV) supply chain. While Indonesia holds strong potential to develop a nickel-rich NMC (Nickel Manganese Cobalt) battery industry, most Original Equipment Manufacturer (OEM) facilities serving the domestic EV market are based in China, favoring the assembly of LFP (Lithium Iron Phosphate) batteries. This misalignment presents a strategic challenge for optimizing Indonesia’s domestic value creation in the battery sectors.
Given the aforementioned opportunities and challenges, and to explore the current practices of the battery industry ecosystem from upstream to downstream and examine its sustainability aspects, the Institute for Essential Services Reform (IESR) is conducting a study to assess the latest battery technologies, emerging trends, and Indonesia’s potential to build a sustainable and competitive industrial ecosystem and supply chain.
Timeline Proposal :
Prospective service providers must submit a proposal package consisting of a technical proposal (background, tasks to be performed, methodology, schedule), a cost proposal (total proposed labor rates and other costs), and a relevant resume & portfolio. All bidders are also required to submit administrative bid documents, which can be downloaded through this link s.id/documentsrfpcommsiesr.
Bidders must submit a digital copy of their proposal via email to to Program Manager Energy Transformation at deon@iesr.or.id and cc to auzora@iesr.or.id, rifki@iesr.or.id, ilham@iesr.or.id and rahmi@iesr.or.id by 23:59 PM. Indonesian Western Standard Time (WIB, GMT+7) on Friday, July 11, 2025, Please include “RFP Response –Consultancy Services for ESG of Battery Supply Chain” in the subject line.
RFP-Consultant-Services-for-ESG-of-Battery-Supply-Chain
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