Architectural Icon Marvin Malecha to Judge Saint-Gobain Multi-Comfort House Competition in Prague
Each year, CertainTeed’s parent company Saint-Gobain conducts an International Multi-Comfort House Competition. This competition, now in its seventh year invites architecture and engineering students to submit a design that is in accordance with the ISOVER Multi-Comfort-House definition and with passive house components.
This year, I am excited to announce, Marvin Malecha, FAIA and Dean of the College of Design at North Carolina State University has accepted our invitation to serve as a judge for the ISOVER Multi-Comfort House Competition to be held in Prague, Czech Republic and will serve as the lead judge for the competition. Last year, the lead judge was Professor Doctor Wolfgang Feist, founder of the Passive House. Most of the judges are European because the significant work on passive house and higher energy efficient building is truly embraced in Europe.
This year’s task for the Competition is to design a sustainable skyscraper in Lower Manhattan’s Greenwich Village in New York. The building has to have the building physics performance of an ISOVER Multi-Comfort House. This is an exciting task, especially on an International level.
One the students from Philadelphia University who participated in the finals for the Competition last year, mentioned that when they got to the International competition, the technical level of the final projects were so well matched that the aesthetics of the design played a larger part in the judging. The concept of sustainable design values simplicity. Think of Shaker furniture – the function and design is so simple, so perfect it is naturally beautiful.
Designing a skyscraper that would, not only, be state of the art in sustainability but also have high aesthetics will be something to see.
I can assure you that we will be blogging further on this year’s ISOVER Multi-Comfort House Competition. Stay tuned!
Lucas Hamilton is Manager, Building Science Applications for CertainTeed Corporation