Concentrated. Solar. Power.

The energy revolution is powered by the sun.

We enable commercial & industrial enterprises to become their very own power plant by providing best in class climate-centred technology.
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Product overview

Introducing: The SolarSteamer

The SolarSteamer is a modular solar energy generation system that uses direct and diffuse solar radiation to generate steam, eliminating the need for additional energy carrier media and heat exchangers. The system preheats water using diffuse and direct solar radiation and generates steam in thin capillary tubes arranged at an angle. The steam generated can be converted into electricity with high efficiency or used as process heat in different temperature ranges.
A 3D rendering of the SolarSteamer module

Highly efficient. Small form factor.

Our SolarSteamer offers high temperature heat up to 600 ºC. Depending on the application, e.g. for the production of electricity or for the use of the heat or residual heat after electricity generation.
600 ºC
maximum temperature
1,2 sqm
module size
Features

The SolarSteamer comes packed with features

The SolarSteamer is a revolutionary new solar energy generation system that offers a number of significant advantages over traditional solar power plants.

High efficiency

The SolarSteamer utilizes a highly insulated absorber system to concentrate solar radiation and generate steam. This steam can then be used to generate electricity and harness waste heat at different temperature levels, allowing for more than 80% of the energy input to be converted into useful energy. This makes the SolarSteamer a highly efficient and cost-effective alternative to traditional solar power plants.

Modular design

The SolarSteamer can be constructed in modular units that can be connected together to form larger systems. This allows for a decentralized application, close to the consumer, with a variety of options for thermal energy utilization.

Compact design

The compact design of the SolarSteamer also makes it an ideal option for regions with high diffuse solar radiation. The SolarSteamer can deliver previously unattainable high electricity yields in these areas, making it an ideal solution for regions that are not typically well-suited for traditional solar power plants.

Year long energy

The SolarSteamer can generate heat, predominantly from diffuse radiation, in the winter months, when the demand for space heating is high, and can fully utilize it for this purpose.

Highly effective

The SolarSteamer is a highly efficient and cost-effective solar thermal system that can deliver previously unattainable high electricity yields in regions with high diffuse solar radiation, and can fully utilize the generated heat in the winter months.

Meet our team

Meet the dedicated team behind the SolarSteamer, the innovative solar energy generation system, who are committed to creating a sustainable future through cutting-edge technology. Get to know our experts in engineering, research and development and contact us if you have any questions.
An image of Georg Euler-Duchmann
Georg Euler-Duchmann
Founder & CEO
Managing director.
An image of Dirk besier
Dipl. Ing. Dirk Besier
Co-founder and CTO
Inventor of the SolarSteamer and shareholder.
An image of Michael Schneider
Dipl. Ing. Michael Schneider
Co-founder and CFO
Entrepreneur, consultant and shareholder.
We got the answers

Frequently asked questions

Everything you need to know about the product and the state of the project.
How can the SolarSteamer system be integrated into an existing production facility or building?
Solar thermal systems can be used to integrate solar energy into the heat circulation of an industrial process in a number of ways. Some common ways to use solar thermal energy in industrial processes include:

Direct heating: Solar thermal collectors can be used to directly heat fluids or gases, which can then be used to transfer heat to an industrial process. For example, a solar thermal system could be used to heat water or steam, which can then be used to heat a reactor or drying system.

Indirect heating: Solar thermal energy can be used to heat a storage medium, such as molten salt or hot water, which can then be used to transfer heat to an industrial process. For example, a solar thermal system could be used to heat a tank of molten salt, which can then be used to heat a process through a heat exchanger.

Process integration: Solar thermal energy can be integrated directly into an industrial process by using the heat generated by the sun to drive a chemical reaction or other process. For example, solar thermal energy could be used to produce hydrogen gas through the electrolysis of water.
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