As India’s electric vehicle (EV) sector accelerates toward sustainability, innovative solutions like Battery Storage for EVs are taking center stage. In 2025, Swastik Power, a growing leader in clean energy, is set to revolutionize EV charging with solar integrated backup systems. These advanced storage models aim to tackle two major challenges: high charging demand and unreliable power supply, especially in tier-2 and rural regions.
Swastik’s upcoming solar-powered EV battery storage initiative reflects a broader push to integrate renewable energy directly into the mobility ecosystem. Their solution is engineered to make fast charging not only cleaner but also more efficient and reliable.
What Makes Solar Battery Storage for EVs Crucial?
Traditional EV charging stations rely heavily on grid electricity, which can strain infrastructure and raise operational costs. Here’s where Battery Storage for EVs powered by solar energy comes in:
-
Stores solar energy during the day for night-time or cloudy-day usage
-
Reduces grid dependency and avoids peak-hour stress
-
Enhances fast-charging capability by maintaining high power reserves
-
Cuts carbon footprint and operational costs simultaneously
Swastik Power’s approach is to integrate these battery systems directly at charging stations, using solar panels installed on rooftops or nearby lands to create a self-sustaining loop.
Swastik Power’s Strategy for 2025
Swastik Power is rolling out pilot projects across Maharashtra, Karnataka, and Rajasthan with a scalable blueprint. Here are the key highlights of their 2025 strategy:
-
Solar integrated backup systems with lithium-ion batteries capable of 200–300 kWh storage
-
Hybrid charging models that switch between solar, battery, and grid
-
Modular systems allowing easy expansion based on demand
-
AI-based energy distribution for optimal charging and energy usage
This makes their model ideal for both urban locations with high EV traffic and rural zones lacking power reliability.
Benefits of Solar Integrated Battery Storage for EVs
The use of solar integrated backup in battery storage provides several unique advantages over traditional grid-only setups:
-
Clean Energy Usage: 100% solar utilization during peak sunlight hours
-
Fast Charging: Uninterrupted high-speed charging even when the grid is down
-
Operational Savings: Lower electricity bills and fewer outages
-
Low Maintenance: Fewer moving parts and better battery management
These features not only serve vehicle owners but also improve profitability for EV charging operators and energy firms.
Key Features of Swastik Power’s Solar-Backed EV Storage System
| Feature | Description |
|---|---|
| Storage Capacity | 200–300 kWh modular battery systems |
| Solar Panel Integration | Rooftop and land-based solar generation |
| Charging Speed | Supports Level 2 & DC fast charging |
| Backup Type | Lithium-ion solar integrated backup |
| Smart Control | AI and IoT for energy flow and usage analytics |
| Pilot Locations | Pune, Jaipur, Bengaluru (Initial launch zones) |
How This Initiative Supports India’s EV Push
India’s goal of achieving 30% EV adoption by 2030 hinges on solving key challenges—most notably charging infrastructure and power stability. Swastik Power’s 2025 rollout of Battery Storage for EVs supported by solar integrated backup directly addresses:
-
Charging availability in areas with erratic power supply
-
Cleaner power source integration to meet emission targets
-
More consistent performance for fleet vehicles and delivery EVs
This aligns well with India’s larger push under the National Electric Mobility Mission and Renewable Energy Mission.
Conclusion
Swastik Power’s solar-powered battery storage model is a strong step forward in making EV adoption cleaner, faster, and more widespread. By offering solar integrated solutions tailored for the Indian grid, they’re not only empowering EV users but also pushing the energy industry toward innovation. In 2025, Battery Storage for EVs will no longer be an afterthought—it’s becoming the core of sustainable mobility.
FAQs
What is the role of solar in Swastik’s EV battery storage system?
Solar energy charges the battery storage units during the day, which then provide clean backup power for EV charging when sunlight or grid power is unavailable.
Will this system work in rural or low-sunlight areas?
Yes, the system is designed with hybrid capability, meaning it can switch between solar, stored battery energy, and grid supply as needed.
How does this setup support fast EV charging?
The battery backup allows high-speed energy discharge without grid lag, enabling fast charging even during power shortages.
What kind of batteries are used in the storage system?
Swastik uses modular lithium-ion batteries with high energy density and long life cycles, ideal for frequent use at charging stations.
When will the solar battery stations be publicly available?
Pilot rollouts are scheduled for early 2025 in select cities, with nationwide expansion planned by the end of the year.
Click here to know more