Innovative New Wind Technologies

Improving Accessibility to Grassroots Energy Schemes

In February, England’s largest wind turbine was erected in Bristol. The Lawrence Weston wind turbine is 150 metres tall with a capacity of 4.2MW. The turbine is owned by a group of residents from nearby Lawrence Weston, a deprived housing estate on the fringes of Bristol, and some of the income it generates will be used to help the local community.

Vijay Madlani, CEO of greentech innovator Katrick Technologies, explains how innovative new wind technologies can improve accessibility to grassroots energy schemes in urban areas.

In recent years, there has been an increasing interest in grassroots energy schemes as communities look for ways to reduce their carbon footprint and generate renewable energy. However, accessing funding for such grassroots energy scheme projects can be a challenge for local groups, especially in deprived areas where resources are limited. Fortunately, new wind technologies are emerging that could help improve accessibility to these schemes.

The aforementioned Lawrence Weston wind turbine is a prime example of a grassroots energy scheme that not only generates renewable energy but also benefits the local community. Traditional wind turbines can be costly to install and maintain, making them inaccessible for many grassroots initiatives. While the Government is consulting on making it easier to build onshore wind turbines, new wind technologies are emerging that could change this landscape dramatically.

One such technology is the vertical axis wind turbine (VAWT). Unlike traditional horizontal axis wind turbines (HAWT), VAWTs are designed to be more compact and efficient, making them ideal for urban areas. They also have a lower starting wind speed, which means they can generate energy even in areas with lower wind speeds.

Another emerging wind technology is the bladeless wind turbine. As the name suggests, these turbines don’t have blades but instead use a series of oscillating poles to generate energy. This design is not only more visually appealing but also safer for wildlife, which can sometimes collide with traditional wind turbines.

Katrick Technologies are developing innovative new wind panel technology that could revolutionise the way that renewable energy is generated.  The patented design is more efficient and flexible than traditional wind turbines and can generate energy even in low wind speeds. The panels consist of numerous channelling ducts, where multiple patented aerofoils are located. The aerofoils convert kinetic energy from wind to mechanical oscillations which are converted into electricity.

Katrick Technologies’ products are designed in a way that will increase accessible to grassroots initiatives in the future, making it easier for local communities to generate their own renewable energy. Empowering communities to take control of their own energy needs can create a more sustainable future for all. What’s more, they can be installed in a wider range of locations, including in urban and industrial environments. They are also more visually appealing and can be designed to blend in with their surroundings, making them more acceptable to local communities.

It’s clear that new wind technologies offer exciting opportunities for grassroots energy schemes in urban areas. These technologies are more cost-effective, efficient, and accessible than traditional wind turbines, making them ideal for communities that lack the resources to fund larger projects. With the help of innovative greentech companies we can empower communities to take control of their own energy needs and create a more sustainable future for all.


About Katrick Technologies

Founded in 2016, Katrick Technologies is a green energy start up. It is focused on innovative engineering technologies, performing energy research and development on eco-friendly concepts for a more sustainable planet.

Katrick Technologies utilises unharnessed energy, reducing carbon footprint in a profitable way. It has designed and patented technologies to capture and convert energy from waste heat, wind, and waves into mechanical vibrations, using them to produce carbon-free electricity.

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