Ferry Porsche
Inspired by techniques used to create electrified high-performance sports cars and charging infrastructure, we design and engineer the natural evolution of carports for photovoltaics: Solar Ports. They combine aesthetics, sustainability, and economic efficiency in renewable power plants.
Highlights
Some of the highlights of the modular substructure include:
Driven by our strive for leading dual use of land applications and inspired by the challenges of SMEs regarding energy supply, energy cost, and liquidity, we design the natural evolution of rooftop photovoltaic installations: Vertical Applications. These installations combine the ecological advantages of green roofs with aesthetics and economic efficiency in renewable power plants.
Highlights
Driven by our strive for leading dual use of land applications and inspired by the challenges in AgriVoltaic, we design the natural evolution of ground-mounted photovoltaic installations: Vertical Applications. These installations combine advantages in land use with modern renewable power plants.
Highlights
Driven by our strive for leading dual use of land applications and inspired by the challenges in AgriVoltaic, we design the natural evolution of ground-mounted photovoltaic installations: wooden photovoltaic installations. These installations combine the advantages of cover and renewable materials with modern renewable power plants.
Highlights
Albert Einstein
Our Solar Ports represent the logical evolution of carports. The substructure has been designed to maximize the energy yield per cost of the installed structure. We transferred what we learned from developing lightweight but rigid structures in high-performance sportscar applications.
The result: a renewable energy power plant that just happens to be a carport, too.
Combining opposites, our Vertical Rooftop Applications enable photovoltaics on flat green roofs. Designed based on latest data from vertical solar applications with green flat roofs in mind. Our engineers transferred approaches from the solar port to use renewable materials and avoid concrete ballast.
The result: a renewable energy power plant that allows green flat roofs to go solar.
Dieter Rams' ten theses:
What does design need to be good and successful?
More than a decade in electric mobility and renewable energy have led to a holistic understanding of the opportunities. From a seamless charging experience to optimizing the generation and use of solar energy.
We designed and engineered the Solar Port, made from wood and intended for utility-scale application by a leading company in renewable energy. The result represents the logical evolution of carports. It was developed with scalability, bi-facial solar modules, and bi-directionality in focus, along with captivating design, sustainability, and economic efficiency as guiding principles.
It's not about the product
The solar port is even stronger as part of an integrated energy solution. Working with leading companies in the field of renewable energy enables solutions that allow customers to have the cake and eat it. Contact us to find out more.