Jakarta Energy Storage Technology: Powering Southeast Asia''s
As Indonesia pushes towards 23% renewable energy by 2025, Jakarta''s storage solutions might just become Southeast Asia''s blueprint for urban energy transformation.
Further studies illustrate that ES equipped with synthetic inertia features not only stabilize the grid during frequency dips but also facilitate an increased integration of renewable energy, thereby enhancing the overall reliability and sustainability of island power systems heavily reliant on such energy sources (Xie et al., 2024).
In our model, eleven provinces were identified as potential sites for energy storage construction. According to the RUPTL (PLN, 2021), an operational capacity of 300 MW of energy storage is anticipated by 2030, primarily in Lampung and North Sumatra.
The projected total RE capacity would be 437–669 GW, accounting for 88–92 % of the overall capacity. With VRE expected to form an impressive 84–89 % of this total, the scenario calls for a significant boost in battery storage capacity to between 206 and 208GW, or 42 MW for every 100 MW of VRE.
Additional research highlights that energy storage solutions swiftly adjust to grid condition changes, providing necessary active and reactive power in real-time to maintain system stability in scenarios characterized by high renewable energy penetration (Ackermann et al., 2017).
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