CLEAN ENERGY TO SAFE THE PLANET

How we boost Wind Energy

using Heppolt Turbines

When it comes to Wind Turbines, chances are you think about wind parks with 150 meters high Horizontal Axis Wind Turbines (HAWTs). They may appear slim due to their elongated blades and tower structure.

In fact: Heppolt Turbines = Vertical Axis Wind Turbines (VAWTs) require less width and work more efficiently.
We streamlined them for maximum output - proven and patented.

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This is a paragraph. Writing in paragraphs lets visitors find what they are looking for quickly and easily.

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This is a paragraph. Writing in paragraphs lets visitors find what they are looking for quickly and easily.

Learn more

This is a paragraph. Writing in paragraphs lets visitors find what they are looking for quickly and easily.

Learn more

Jane Faber, New York

This is a paragraph. Writing in paragraphs lets visitors find what they are looking for quickly and easily.

This is a paragraph. Writing in paragraphs lets visitors find what they are looking for quickly and easily.

Jane Faber, New York

Jane Faber, New York

Do you sense the Heppolt wind of change? 

About Heppolt's Superpowers 

What are the critical key design features that distinguish Heppolt from conventional horizontal axis wind turbines? 

We have improved and tuned all features until it has equipped our Heppolt turbines with real superpowers, rendering them exceptionally advantageous.


Let's boost wind energy starting with our proven and patented superpowers:

Both enabling us to better direct and utilize wind energy - multiplying the output.


Boosting

Wind Energy >> 1

Patented System REDIRECTING the wind
Heppolt's design ingeniously redirects the wind by incorporating a scoop at the inlet, guiding the flow inside the housing, and channeling it through the roof. This innovative approach maximizes the utilization of the wind's energy.

Boosting

Wind Energy >> 2

Patented System CONCENTRATING the wind
Concentration of the Wind:
By efficiently concentrating the wind within the turbine, Heppolt taps into low-pressure zones from the external flow, achieving remarkable levels of energy extraction.

HYDROGEN COST PER KG (1 squaremile)

In order to achieve 1.0 $/kg we are focusing on electricity costs as the biggest lever. Thanks to significantly lower electricity costs, considerably lower capital costs and an improvement in efficiency, our Heppolt energy systems are already achieving 1.0$/kg H2.

Our Superpower >> Clean Energy for 1/5 of the
HYDROGEN COST PER KG (1 squaremile)

Calculation of energy costs


Heppolt Turbines ...

  • can extract significantly more energy per square mile (750 MW to 1.4 GW) compared to HAWT and PV systems, while also requiring less land.
  • offer a cost-effective solution with an average cost of $0.4 to $0.6 million per MW, whereas traditional HAWT and PV systems typically have higher installation costs.

Our Efficiency Boost >>  ENERGY OUTPUT (1 squaremile)
Conventional vs. Heppolt​

Robust Rotor Design

Through large moment of inertia of rotor:
Vertically supported rotor design provides substantial inertia, enabling the turbine to withstand turbulent winds and reducing maintenance costs.

Ground-level Operation

Advantages of low altitude siting:
Ground-level or rooftop placement simplifies maintenance logistics and can potentially increase efficiency by co-locating with existing wind farms.

Cost-efficient and sustainable

Cost-effective construction and O&M: Ground-level installation reduces construction and maintenance costs compared to traditional turbines.

Wider Wind speed Exploitation

Harvesting wind at low and high speeds: Captures wind at speeds ranging from 3m/s to 30m/s, covering a broader range than traditional turbines, and requires no pre-rotational startup energy.

Scalable Design

Versatile design allows for installations in various settings and sizes, from large wind plants to rooftop applications.

Environmental friendly

Low-altitude siting potentially reduces threats to wildlife, aligning with environmentally responsible energy generation.

Reduced Noise

High rotor inertia (mass) and housing design minimize vibrations and rotor noise, making Heppolt quieter than traditional turbines.

FAQ > Output of Heppolt Wind Turbines (VAWT)

  • What makes Heppolt turbines UNIQUE compared to conventional wind turbines?

    Heppolt turbines feature a vertical axis design (VAWT) that redirects and concentrates wind, allowing for higher efficiency and energy extraction compared to traditional horizontal axis wind turbines (HAWT).



  • How do Heppolt turbines contribute to COST-EFFECTIVE HYDROGEN production?

    Heppolt turbines can generate electricity at a cost-effective rate, making it feasible to produce green hydrogen at an ultra-competitive cost of $1 per kilogram within the next three years.

  • What makes Heppolt turbines SUPERIOR to HAWT in terms of ENERGY OUTPUT and land use?

    Heppolt turbines can extract significantly more energy per square mile (750 MW to 1.4 GW) compared to HAWT and PV systems, while also requiring less land.


  • What is the expected return on investment (ROI) for projects utilizing Heppolt turbines?

    Projects using Heppolt turbines can expect a significant ROI due to the high energy output, low installation, and maintenance costs, and the ability to produce green hydrogen at competitive prices.


  • What are the SCALABLE OPTIONS for Heppolt turbines?

    Heppolt turbines can be scaled for various applications, from large wind plants to rooftop installations, offering versatile deployment options.