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What's Broken in EV Charging And How to Fix It
While the conversation around the electric vehicle (EV) revolution typically gravitates toward battery range or autonomous driving software, a significant yet often overlooked challenge remains. The physical installation of EV chargers presents a major bottleneck in infrastructure rollout.
Traditional installation methods are fraught with complications. The process involves excavating trenches, navigating underground utilities, pouring concrete, and managing unpredictable weather delays. These factors collectively slow down the deployment of essential charging networks.
The Solution: Pre-Cast Foundations
In a recent discussion with Trevor Palmer, the founder of EV Blocks, he highlighted how innovation in pre-cast concrete foundations is transforming the installation landscape.
Starting his career as an electrician in London before transitioning to EV installations for Volkswagen showrooms, Palmer encountered constant project delays caused by on-site concrete curing and adverse weather. He identified that wet concrete was the primary bottleneck. His solution was a pre-made foundation that eliminates drying time, turning a sluggish process into a highly efficient operation.
Why the Industry Needs EV Blocks
The EV Blocks system offers several critical advantages that streamline deployment:
- Rapid Installation: The pre-cast nature of the foundation saves significant time and eliminates delays caused by rain or cold temperatures.
- Universal Adaptability: A universal adapter plate ensures the infrastructure is future-proof, allowing site owners to easily upgrade chargers, such as switching from Tesla to Kempower hardware, without digging up the ground.
- Modular Design: The system simplifies cabling and upgrades, making it easier to scale sites as demand grows.
- Enhanced Security: Built-in features protect valuable cabling from theft before the chargers are even installed.
Smart Scaling Through Local Manufacturing
Scaling the production of a heavy product like a 180kg concrete block presents logistical challenges. To overcome this, EV Blocks utilises a licensing model. By partnering with local pre-cast producers, the company reduces shipping costs and carbon footprint.
This approach also allows for regional adaptation. For instance, blocks manufactured for the US market are designed to accommodate deeper frost lines. Today, EV Blocks successfully operates across the UK, US, France, Belgium, and Australia.
The Shift Toward Modular Charging
The future of EV infrastructure is moving away from bulky, all-in-one chargers toward modular systems. In this setup, a central power cabinet feeds smaller, more cost-effective satellite units.
This configuration offers distinct benefits:
- Lower Repair Costs: Damaged satellite units are cheaper to fix than standalone chargers.
- Scalability: Site owners can add more charging points over time with minimal disruption.
- Speed: With pre-cast foundations, adding or upgrading satellite units becomes a fast and cost-effective process.
Building the Foundations for the Future
Trevor Palmer’s journey from launching EV Blocks just days before global lockdowns to scaling production is a testament to the resilience required in this sector. His approach demonstrates how practical engineering solutions are vital for driving the EV revolution forward.
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By Chris KirbyWhile the conversation around the electric vehicle (EV) revolution typically gravitates toward battery range or autonomous driving software, a significant yet often overlooked challenge remains. The physical installation of EV chargers presents a major bottleneck in infrastructure rollout.
Traditional installation methods are fraught with complications. The process involves excavating trenches, navigating underground utilities, pouring concrete, and managing unpredictable weather delays. These factors collectively slow down the deployment of essential charging networks.
The Solution: Pre-Cast Foundations
In a recent discussion with Trevor Palmer, the founder of EV Blocks, he highlighted how innovation in pre-cast concrete foundations is transforming the installation landscape.
Starting his career as an electrician in London before transitioning to EV installations for Volkswagen showrooms, Palmer encountered constant project delays caused by on-site concrete curing and adverse weather. He identified that wet concrete was the primary bottleneck. His solution was a pre-made foundation that eliminates drying time, turning a sluggish process into a highly efficient operation.
Why the Industry Needs EV Blocks
The EV Blocks system offers several critical advantages that streamline deployment:
- Rapid Installation: The pre-cast nature of the foundation saves significant time and eliminates delays caused by rain or cold temperatures.
- Universal Adaptability: A universal adapter plate ensures the infrastructure is future-proof, allowing site owners to easily upgrade chargers, such as switching from Tesla to Kempower hardware, without digging up the ground.
- Modular Design: The system simplifies cabling and upgrades, making it easier to scale sites as demand grows.
- Enhanced Security: Built-in features protect valuable cabling from theft before the chargers are even installed.
Smart Scaling Through Local Manufacturing
Scaling the production of a heavy product like a 180kg concrete block presents logistical challenges. To overcome this, EV Blocks utilises a licensing model. By partnering with local pre-cast producers, the company reduces shipping costs and carbon footprint.
This approach also allows for regional adaptation. For instance, blocks manufactured for the US market are designed to accommodate deeper frost lines. Today, EV Blocks successfully operates across the UK, US, France, Belgium, and Australia.
The Shift Toward Modular Charging
The future of EV infrastructure is moving away from bulky, all-in-one chargers toward modular systems. In this setup, a central power cabinet feeds smaller, more cost-effective satellite units.
This configuration offers distinct benefits:
- Lower Repair Costs: Damaged satellite units are cheaper to fix than standalone chargers.
- Scalability: Site owners can add more charging points over time with minimal disruption.
- Speed: With pre-cast foundations, adding or upgrading satellite units becomes a fast and cost-effective process.
Building the Foundations for the Future
Trevor Palmer’s journey from launching EV Blocks just days before global lockdowns to scaling production is a testament to the resilience required in this sector. His approach demonstrates how practical engineering solutions are vital for driving the EV revolution forward.
Subscribe to stay up to date!