Aug 4, 2025 /eszoneo/ —
India’s ambitious scale-up of energy storage capacity—driven by tender activity in standalone BESS and firm-dispatchable renewable energy (FDRE)—signals a dynamic push toward decarbonization and grid flexibility. With 30 GW of new capacity expected by June 2027, recent projections suggest the country’s total storage could reach 36 GW, well beyond the projected demand of 24 GW. This rapid acceleration, fueled by falling battery prices and supportive policy mechanisms like energy storage obligations (ESO), raises concerns of oversupply and project viability. The latest analysis by SBICAPS frames this development as a turning point for India’s storage market, prompting a re-evaluation of business models, execution risk, and upstream integration strategies.

A recent report by SBICAPS projects that India will add 30 GW of energy storage capacity (battery storage, pumped storage, etc) through standalone and firm and dispatchable renewable energy (FDRE) projects by June 2027. This would bring the country’s total storage capacity to 36 GW—far exceeding the projected demand of around 24 GW, and possibly leading to oversupply.

“Presently, the storage capacity available is grossly below requirement considering Energy Storage Obligation (ESO) targets assigned. In the next two years, 30 GW of storage are expected to be added (standalone, FDRE, etc). This could lead to an oversupply as only 24 GW is expected to be needed by then,” states the report.

The report states that the excess capacities will remain reliant on energy arbitrage during times of peak mismatch on the exchange. Further, it expects the overall prices on exchange to drop gradually due to a combination of market coupling, electricity derivatives, and increasing storage, which will put higher cost players out of favour.

The report states that India can adopt China’s revenue stacking model combining income from capacity, ancillary services, and energy arbitrage for superior project returns. Currently, BESS revenues are dominated by capacity payments made by buying entities (typically Discoms) with/without intermediary at competitively bid tariff.

“The next stage of BESS project development in India would involve diversification of revenue sources beyond capacity charges through market based ancillary services monetisation mechanism with active participation from bodies others than SLDC/NLDC,” states the report.

Tendering in the Indian renewable energy sector remains focused on battery storage, with the first half of CY 2025 maintaining elevated level of standalone BESS and FDRE awards. Battery cost decreases have allowed for an increasing share of higher cycle, longer discharge projects at slim tariffs.

“Declining Li-ion costs now support more 4-hour tenders, with associated tariffs rivalling those of 2-hour projects—aligning with the typical evening peak duration,” states the report. “With a significant pipeline of under construction projects now built, the focus has shifted to execution.”

Execution bottlenecks
The report identifies land acquisition and getting transmission linkage (through a sequential two-stage process) as the key bottlenecks, which have stretched project completion timelines from 6-9 months to 18–24 months. Timely financial closure, viability gap funding (VGF) payments, and BEPSA execution also drive outcomes.

In the operational phase, risks related to technology performance and counterparty payment come into play. Faster-than-expected battery performance degradation and lower cycle life can impact project returns.

The report states that developers with proven execution capability, a strong counterparty mix, and low bid cancellations are best positioned to secure funding and emerge as sector leaders.

Upstream integration
The report states that upstream integration in India is in early stages for now, and global supply dynamic provides limited scope for domestication. Only a few battery cell makers globally have reported returns on equity (RoE) above 10%. The situation is not much better for precursors such as cathodes and anodes as well. While LFP remains relatively less crowded than NMC, supply remains high keeping capacity utilisation moderate.

Moreover, mastering cell chemistry is technologically intensive, with only a few companies such as CATL and BYD able to generate returns in a market plagued with low capacity utilization factor (CUF) across the ecosystem.

The report recommends ‘import to use’ strategy for the short term, with an eye on catching the next wave of battery technologies in the early stages.

Source: pv-magazine-india.com