Existing pumped-hydro-energy storage (PHES) plants in India are inadequately utilised and hence have low economic benefits. With high renewable energy (RE) penetration expected in the coming years, energy storage systems will gain prominence. One of the most economical, available, mature, and bulk energy storage mechanisms is PHES. However, PHES plants are capital-intensive and topographically dependent.

India’s clean energy transition is largely driven by the ambitious target of installing 450 gigawatts (GW) of renewable energy (RE) by 2030. While such huge RE deployment can pose several operational and technical challenges for the grid, energy storage can mitigate them.

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India’s rapid urbanisation underscores the need to balance growing consumption patterns, development goals, and climate commitments. The scenarios presented in this paper were created using our Sustainable Alternative Futures for India (SAFARI) model, a system dynamics model that simulates interlinkages between sectors in India and their competition for resources and energy at the national scale.

India has to overcome several developmental challenges in the coming decades. Bridging the housing shortage; improving healthcare and education infrastructure; providing 24/7 electricity, clean water, and clean cooking fuels to all; and maintaining food security are some of the challenging goals for India that are in line with the UN’s Sustainable Development Goals (SDGs). The Government of India has also emphasised its commitment to climate action by ratifying the Paris Agreement and formulating Nationally Determined Contribution (NDC) targets.

India is planning to install 450 GW of renewable energy (RE) generation capacity by 2030. A major share of RE comes from solar and wind energy sources. These are highly intermittent sources of energy, and the generation of power from these cannot be accurately predicted. Moreover, power from these RE sources cannot be dispatched based on real-time demand. This is where utility-scale energy storages, with the ability to manage grid-balancing issues, come in. Among these, pumped-hydro energy storage (PHES) is a mature technology.

The draft NEP, besides recognising the significance of RE hybrids (like solar-biomass, solar-hydro) for sustainable generation, highlights the role of DRE in reducing dependency on the transmission network, especially through solar rooftops in urban spaces and mini-grids in remote villages.

However, large-scale deployment of DRE systems will throw up issues related to intermittency, voltage instabilities, variable RE (VRE) curtailments, and network management.