Andreas Haeuser is an aeronautical engineer based in Germany who created a 3D-Printed Solar Sterling Engine—the first of its kind to have a low-temperature stirling solar engine.
Although the 3D-printed solar engine is quite small, the design could easily be scaled up for the purposes of harvesting greater amounts of solar energy. After assembling the prototype for his eco-friendly engine, Haeuser has made the instructions for assembly available online. This smart and sustainable engine empowers makers to take energy production into their own hands.
As well as creating a 3D-printed engine, Haeuser also crafted a design for a wind turbine that can also be assembled with the right know-how. As 3D printers become more widely available and people become more mindful of their own energy consumption, more products like these could be seen everywhere.
3D-Printed Solar Engines
Andreas Haeuser's DIY Solar Energy Panels Have a Low-Temperature Engine
Trend Themes
1. 3D Printing in Energy Production - The use of 3D printing in creating eco-friendly engines presents opportunities for renewable energy production.
2. DIY Energy Production - The availability of instructions for assembly of sustainable engines empowers individuals to take energy production into their hands.
3. Personalized Energy Consumption - With more people mindful of their energy consumption, personalized energy production such as 3D-printed engines can lead to more sustainable energy sources.
Industry Implications
1. Renewable Energy - Renewable energy companies can explore the use of 3D-printing to produce engines and turbines for sustainable energy production.
2. Manufacturing - Manufacturing companies can explore 3D printing as a way to create more eco-friendly and sustainable products such as engines and turbines.
3. Consumer Electronics - Consumers can utilize 3D-printing to manufacture personalized solar and wind engines for their own energy consumption, leading to a disruption in the consumer electronics industry.