Introduction

The desire to integrate electric power into an Internal Combustion Engine (ICE) car is increasingly common as environmental concerns and technological advancements push the boundaries of automotive engineering. However, finding a cost-effective and practical solution has proven to be a daunting task. In this article, we will explore the challenges and potential solutions for adding 80kW electric power to an ICE car, emphasizing the significant cost associated with doing so.

Understanding the Costs

There is no simple, cheap way to add 80kW electric power to an ICE car. The primary cost driver is the battery, which remains one of the most expensive components in electric vehicle (EV) technology. Batteries are crucial for storing and supplying the necessary electric power, and their cost can dominate the overall expense of the conversion.

Based on my extensive experience building electric sports cars, I can confidently say that the odds of success are slim without substantial capital and expertise. The story of Australia's first electric sports car is a testament to the difficulties involved. Despite my efforts and innovative approaches, we could not attract the necessary funding, leading to the eventual bankruptcy of the project. The website remains operational only for historical purposes.

Conversion Kits and Professional Expertise

There are conversion kits available in the market that claim to make the process easier. However, the implementation requires a high degree of expertise and an understanding of working with high voltages and currents. Without proper knowledge, the process can be extremely dangerous, leading to potential accidents and injuries.

If you are seriously considering this conversion, it is highly recommended to engage a professional who specializes in electric vehicle modifications. The presence of high-risk components such as batteries and high-voltage systems poses a significant hazard, and such expertise is crucial to ensure a safe and successful project.

Considering Cost-Effective Alternatives

The most practical solution might be to buy a second-hand electric car that is already commercially built. These vehicles are designed with all the necessary components and safety features, making them a much safer and cost-effective option. While there may be some initial costs associated with purchasing and modifying a second-hand EV, this approach stands a much higher chance of success and safety compared to DIY conversions.

Conclusion

In summary, the best way to add 80kW electric power to an ICE car is not straightforward and does not come cheaply. The integration process requires significant expertise and a substantial initial investment due to the high costs of electric vehicle components such as batteries. For those who do not possess the necessary skills or capital, it is advisable to consider purchasing a pre-built electric car and making the necessary modifications through professional services. This approach ensures a safer and more effective integration of electric power into your vehicle.

Keywords: electric power integration, ICE car, cost-effective conversion.