The 'Uppgrenna Nature House' is a combination glass greenhouse and traditionally designed Swedish nature house.
Located in the south of Sweden on the edge of Lake Vättern, this unique combination spa and event space measures in at 5,600 square feet, and follows a sustainable housing concept first developed in the 1970s. A core living area is covered in an insulating glass shell protected from the elements during the winter. The glass greenhouse roof sits on top of traditional Swedish barn body and shutters painted a special rust red color sourced from a local copper mine.
Inside the barn building are dining facilities, a spa treatment room, garden space and also a guest bedroom. The structure also features a sustainable sewage system that actually feeds nutrients to different vegetable and fruit plants inside the building.
Glass Greenhouse Barns
This Swedish Barn is Designed After a Sustainable Housing Concept
Trend Themes
1. Glass Greenhouse Barns - Disruptive Innovation Opportunity: Explore the potential of combining glass greenhouses with traditional building structures to create unique and sustainable spa and event spaces.
2. Sustainable Housing Concepts - Disruptive Innovation Opportunity: Develop innovative housing concepts that incorporate sustainable design principles, such as insulating glass shells and locally sourced materials.
3. Sustainable Sewage Systems - Disruptive Innovation Opportunity: Create sewage systems that can double as a nutrient source for indoor plants, promoting sustainable agriculture in urban environments.
Industry Implications
1. Hospitality - Disruptive Innovation Opportunity: Integrate glass greenhouse barns into the hospitality industry to offer guests unique and environmentally friendly accommodations and experiences.
2. Construction - Disruptive Innovation Opportunity: Apply sustainable housing concepts in the construction industry to create eco-friendly buildings that blend seamlessly with their natural surroundings.
3. Agriculture - Disruptive Innovation Opportunity: Incorporate sustainable sewage systems in agricultural practices to optimize resource usage and enhance indoor farming capabilities.