Narada Power, a global leader in advanced energy storage solutions, has signed a major agreement with one of India’s largest independent power producers to supply a 1.4 GWh liquid-cooled battery energy storage system (BESS). This marks one of the largest standalone energy storage projects in India and a significant milestone in the country’s renewable energy transition.
The project is located in a tropical zone characterized by extremely high summer temperatures, posing strict technical requirements for stability and cooling performance. To meet these demands, Narada’s liquid-cooled BESS incorporates a multi-stage, variable-diameter liquid cooling pipeline and a dual-redundant cooling system, ensuring uniform temperature distribution and reliable long-term operation—even if one cooling unit fails
In response to high-temperature challenges, the company has optimized the electrochemical cell structure and introduced SNS low-heat generation technology, reducing internal thermal buildup during high-rate charging and discharging. The system also integrates Narada’s proprietary Battery Management System (BMS) with automotive-grade components, offering high-precision control, active balancing, and enhanced thermal resistance.
With IP67-rated protection, robust safety mechanisms, and intelligent control software, the system is engineered to withstand sandstorms and harsh environmental conditions, ensuring high performance and operational reliability.Upon completion, the project will significantly improve the flexibility and resilience of the local power grid, while accelerating India’s path toward clean energy targets.
Solarity BG: Your Regional Partner for Energy Storage Excellence
As the official partner of Narada Power for Eastern Europe, Solarity is proud to represent one of the global leaders in energy storage innovation.
We are pioneers in Bulgaria, having delivered the country’s first industrial BESS installation. Currently, we are implementing projects with a combined capacity exceeding 150 MWh. In some of our clients’ facilities, electricity consumption from the public grid has dropped by up to 90%, thanks to the integration of battery systems and renewable energy sources.
Projects like this demonstrate that energy storage is no longer an auxiliary technology—it is a core enabler of a resilient, efficient, and decarbonized energy future.
Source: en.cnesa.org
