Revolutionary Startup Improves Electric Vehicle Charging

Find AI Tools
No difficulty
No complicated process
Find ai tools

Revolutionary Startup Improves Electric Vehicle Charging

Table of Contents

  1. Introduction
  2. The Need for More Charging Points
  3. The GoEV Solution
  4. The Development of Dock Chain
  5. Scaling to High-Power Charging
  6. GoEV's Charging Configurations
  7. Venture Launch and Seed Funding
  8. GoEV's Vision and Expansion
  9. The Positive Collaboration with Universities
  10. Future Possibilities and Opportunities
  11. Conclusion

Introduction

The Need for More Charging Points

The GoEV Solution

The Development of Dock Chain

Scaling to High-Power Charging

GoEV's Charging Configurations

Venture Launch and Seed Funding

GoEV's Vision and Expansion

The Positive Collaboration with Universities

Future Possibilities and Opportunities

Conclusion

GoEV: Revolutionizing Multi-Vehicle Charging for Electric Fleets and Locations

With the increasing adoption of electric vehicles (EVs), the need for accessible and convenient charging infrastructure becomes paramount. GoEV, a startup born out of collaboration between Imperial College London and University College Dublin, aims to address this challenge by commercializing a groundbreaking system called dock chain. This system allows for multi-vehicle charging, making it easier and more cost-effective to deploy charging points at various locations.

The Need for More Charging Points

To fully realize the potential benefits of electric cars in mitigating climate change and reducing urban air pollution, there must be sufficient charging infrastructure in place. However, in many cities, a lack of charging points poses a significant barrier to electric vehicle adoption. The initial Perception in Dublin was that there were not enough charge points to support an EV fleet. However, upon closer examination, it was revealed that there were numerous charge points already available – they were simply located in private driveways. This realization sparked the idea of utilizing private charge points and transforming them into public ones.

The GoEV Solution

The vision behind GoEV is to make charging electric vehicles more accessible and convenient for drivers. The company's dock chain system enables the conversion of private charge points into public ones, while also facilitating multi-vehicle charging. By utilizing a unique communication protocol between the charger and the vehicles, the system ensures that only one car is connected and receiving power at a given time. This eliminates the need to move cars to access the charging point and addresses the issue of charger anxiety commonly experienced by EV drivers.

The Development of Dock Chain

The development of dock chain began at University College Dublin, where Professor Robert Shorten and his colleagues conceived the idea of converting private charge points into public ones. They designed a prototype and filed a patent application for the system. In 2019, Professor Shorten, along with postdoctoral fellow Pietro Ferraro and master student Andrew Cullen, moved to Imperial College London's Dyson School of Design Engineering, where they continued their research and development efforts.

Scaling to High-Power Charging

The demand for high-power charging solutions for electric fleets and locations such as offices, hotels, and airport parking lots led to the scaling of dock chain from low-power alternating Current (AC) charging to high-power direct current (DC) charging. GoEV's dock chain system, when connected to a high-power DC charger, allows for the simultaneous charging of multiple vehicles. By utilizing a series of terminals off the charger, the system can effectively reduce installation costs and provide rapid DC charging capabilities.

GoEV's Charging Configurations

GoEV offers flexible software solutions to accommodate various charging requirements and configurations. Customers can choose to have a uniform average charge across all their vehicles or designate specific spaces for rapid charging, leaving the rest to charge as power availability allows. This customization ensures efficient utilization of power resources and maximizes charging capabilities Based on customer preferences.

Venture Launch and Seed Funding

In 2021, GoEV became the overall champion of Venture Launch, a dedicated accelerator program at University College Dublin for the commercialization of intellectual property developed by startups. This recognition further validated the feasibility and potential of the dock chain system. To support the implementation of their vision, GoEV is currently seeking 2.5 million pounds in seed funding. The funds will be used to run pilot programs, accelerate product development, and support team expansion, particularly in the US market.

GoEV's Vision and Expansion

GoEV envisions a future where rapid DC charging for parking spaces is as cost-effective as the current slow AC charging infrastructure. By offering a more accessible and practical charging solution, the company aims to accelerate the adoption of electric vehicles and promote sustainable transportation. As a shareholder in GoEV, both Imperial College London and University College Dublin maintain close collaborations, ensuring continued innovation and advancement of the dock chain system.

The Positive Collaboration with Universities

The collaboration between GoEV and the universities has been highly fruitful. Researchers, including Amar Malik at University College Dublin and the three researchers who moved to Imperial College London, Continue to contribute to the ongoing development and improvement of the dock chain system. The strong partnership between academia and industry highlights the potential for groundbreaking innovations and advancements in the field of electric vehicle charging.

Future Possibilities and Opportunities

GoEV's dock chain system opens up numerous possibilities for further advancements and applications. One potential avenue is utilizing electric vehicles connected to the system as energy storage units. Excess electricity generated during peak renewable energy production can be stored in the vehicles and later fed back into the GRID. This concept aligns with Professor Shorten's research on cyber-physical systems and distributed ledgers, aiming to Create a more efficient and interactive energy ecosystem.

Conclusion

With GoEV's dock chain system, the barriers to electric vehicle adoption are significantly reduced. By repurposing private charge points and implementing multi-vehicle charging capabilities, GoEV offers a practical and cost-effective solution for expanding the charging infrastructure. With ongoing research and collaboration, the future of electric vehicle charging looks promising, bringing us closer to a sustainable and cleaner transportation system.

Most people like

Are you spending too much time looking for ai tools?
App rating
4.9
AI Tools
100k+
Trusted Users
5000+
WHY YOU SHOULD CHOOSE TOOLIFY

TOOLIFY is the best ai tool source.

Browse More Content