Sustainable Energy Storage

Empowering the Future of Energy with Second-Life Batteries

Are you ready to revolutionise the way we harness and store energy? At Oxford GreenVolt, we’re at the forefront of the clean energy movement, leveraging the power of second-life batteries from electric vehicles to create cutting-edge energy storage systems offering low-impact low-cost solutions.

OXGREENVOLT

About Us

With the rapid growth of the electric vehicle industry, we saw an opportunity to unlock the untapped potential of used EV batteries. These batteries, after serving their initial purpose in vehicles, still possess significant capacity for energy storage. That’s where we come in! Our mission is to give these batteries a second life, extending their value and sustainability while revolutionising the renewable energy landscape.

Demand for Batteries

The demand for second-life electric vehicle (EV) batteries has been steadily growing in recent years. As the global shift towards sustainable transportation continues, the market for electric vehicles has expanded rapidly. This has led to an increasing number of EV batteries reaching their end-of-life stage.

However, rather than disposing of these batteries, there is a rising recognition of their value and potential for second-life applications. Second-life EV batteries can be repurposed for various energy storage solutions, including residential and commercial applications, renewable energy integration, and grid stabilisation.

These batteries, although no longer suitable for automotive use, still retain a significant amount of their capacity, making them ideal for stationary energy storage applications. With the growing focus on decarbonisation and energy sustainability, the demand for second-life EV batteries is expected to continue rising, offering both environmental benefits and economic opportunities.

Why choose Oxford GreenVolt?

Sustainable Energy Solutions:

By repurposing second-life batteries, we’re minimising waste and maximising sustainability. Join us in reducing our carbon footprint and creating a cleaner, greener future for generations to come. 

Cost-Effective and Reliable:

Our energy storage systems provide a cost-effective alternative to traditional storage solutions. By utilising second-life batteries, we can offer competitive pricing without compromising on quality or performance. Plus, our systems are designed for longevity, ensuring reliable and efficient energy storage for years to come.

Future-Proof Battery Management System:

As technology advances, we stay ahead of the curve. Our AI-enabled BMS continuously evolves to control the battery life and performance as efficiently as possible, offering unique safety and performance optimisation features.

Tailored
Solutions:

We believe in the power of customisation. Our team of experts will work closely with you to understand your unique energy needs and design a solution that perfectly aligns with your requirements.

Seamless
Integration:

We understand that compatibility is key. That’s why our energy storage systems seamlessly integrate with existing renewable energy sources.

Join us on the journey towards a sustainable and energy-efficient future. Discover the endless possibilities of second-life batteries with Oxford GreenVolt. Contact us today to learn more about how our energy storage systems can revolutionise your renewable energy setup. Together, let’s power a brighter tomorrow!

Applications

Energy Storage Systems

Unlock the true potential of sustainable energy with our second-life battery solutions for buildings. By repurposing used batteries from electric vehicles, we’re creating powerful energy storage systems that redefine how buildings consume and manage electricity. Our innovative technology seamlessly integrates with existing power systems, allowing you to store excess energy during off-peak hours and utilise it during high-demand periods.

Experience reduced energy costs, increased energy efficiency, and a reduced carbon footprint as you tap into the renewable energy stored within these second-life batteries. Our ESS is coupled with a customised smart AI-enabled BMS offering lower cost while providing identical performance to first-life batteries.

EV Fast Charging Stations

Experience the future of sustainable charging with our integrated second-life battery systems for electric vehicle (EV) charging stations. By harnessing the power of repurposed EV batteries, we’re revolutionising the way we charge electric vehicles.

Our cutting-edge technology allows EV charging stations to store and distribute renewable energy efficiently, ensuring a seamless charging experience while reducing strain on the grid. With our solution, you can charge at a higher rate, minimise costs, and contribute to a cleaner, greener world.

AI-enabled Battery Management System

Step into the future of energy storage with our AI-enabled battery management systems for second-life batteries. By combining the power of artificial intelligence and repurposed batteries, we optimise the efficiency and performance of energy storage solutions. Our cutting-edge technology continuously monitors and optimises battery performance, maximising its lifespan and energy storage capacity.

With intelligent algorithms and predictive analytics, our AI-enabled systems ensure optimal charging, discharging, and maintenance protocols, offering unique multi-layered safety features. Experience enhanced reliability, increased energy savings, and seamless integration with renewable energy sources.

Help Us With Our Research

As part of our continuous market exploration, the team at Oxford GreenVolt kindly request your participation in our survey to gather valuable insights and feedback. Your input is greatly appreciated and will help us improve our services to better meet your needs.

Please take a few moments to complete the survey and contribute to our ongoing efforts to provide an exceptional experience. Thank you in advance for your time and valuable input!

Energy Storage Systems

EV Charging Stations

AI ENABLED BMS

Meet Our Team

Shahaboddin Resalati

Principal Investigator

Farhad Salek

Tech Lead

Edward Cole

Technology Transfer Manager