Battery Energy Storage Systems
Battery Energy Storage Systems
At AB Energia, we are expanding our portfolio to include Battery Energy Storage Systems (BESS) — empowering industrial, commercial, and utility-scale clients with reliable, flexible, and continuous green energy.
These systems are designed to complement renewable energy projects, ensuring power availability, grid stability, and cost-efficient energy use even when the sun isn’t shining.
What You Can Expect
Grid Stability
Smooths fluctuations in renewable generation, enabling better supply and demand and frequency regulation.
Uninterrupted Power
Delivers backup during grid outages and supports energy needs during peak demand.
Energy Optimization
Stores surplus solar or wind energy for use when generation is low or demand is high.
Cost Savings
Reduces reliance on expensive grid power during peak times and helps lower demand charges.
Scalable Solutions
Tailored solutions for various applications — from small commercial sites to large industrial and utility-scale systems.
How we Integrate Energy Storage Systems into Projects
At AB Energia, we are advancing clean energy adoption by integrating battery energy storage systems (BESS) into large-scale solar installations, paving the way for round-the-clock renewable power.
A key example is our work at the Jindal Stainless facility in Jajpur, Odisha, where we developed the state’s largest captive solar energy project: 23.02 MWp rooftop and a 7.324 MWp floating solar system, collectively generating 44.3 million units of green energy annually.
These systems are designed for seamless energy storage integration, enabling greater load balancing, enhanced reliability, and improved energy utilization.
By supporting the shift away from fossil fuels, our storage-enabled solar solutions help industrial clients reduce carbon emissions, improve energy resilience, and move closer to their Net Zero goals.
Strategic Applications
- Grid Stabilization & Frequency Regulation
- Backup Power for Mission-Critical Operations
- Time-of-Use Shifting for Commercial Users
- Microgrids for Remote or Off-Grid Locations
- EV Charging Infrastructure Support
Frequently Asked Questions
Why integrate battery energy storage with solar or wind projects?
Battery storage enhances the value of solar and wind projects by storing excess energy for use when generation is low or demand is high. It improves system reliability, reduces dependence on fossil fuels, and provides critical backup power during grid failures.
What types of batteries are used in ESS solutions?
Most modern energy storage systems (ESS) rely on lithium-ion batteries due to their high efficiency, compact design, and long cycle life. However, other technologies such as flow batteries and advanced lead-acid batteries are also deployed for specific applications where longer duration or specialized performance is required.
How does ESS improve power quality and reliability for industrial clients?
ESS stabilizes fluctuations in renewable generation, ensures uninterrupted power during outages, and manages peak demand effectively. This helps industrial clients maintain consistent, high-quality power supply for critical operations.
What is the typical lifespan and maintenance requirement for ESS?
Energy storage systems generally last 10–15 years, depending on technology and usage. Routine monitoring, periodic inspections, and regular software updates are essential to maintain peak performance and extend system life.
Can ESS help lower my electricity costs?
Yes. By enabling load shifting to off-peak hours and reducing demand charges, ESS can substantially lower electricity expenses for commercial and industrial users, improving long-term cost efficiency.