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- 02 JulRobotically-driven Building initiated by Dr.-Ing. Henriette Bier has received funding from 3TU.Bouw and will be implemented in collaboration with CITG-TUD, TUE, ONL and Mebin
- 02 JulAchilleas Psyllidis is presenting at the 10th IEEE International Conference on Intelligent Environments (IE'14)
- 27 JunFinal presentation: MSc2 Inter-performing environments Design studio
- 12 JunAchilleas Psyllidis is guest lecturer at Second Nature summer school
- 03 JunLecture – Urban Informatics: Promises and Potentials by Achilleas Psyllidis
- 28 MayLecture: Architecture of Change by Branko Kolarevic in protoSPACE
- 28 MayInter-performing environments: update on Hyperbody MSc2 prototypes for the EU culture program Metabody
- 19 MayDr. Nimish Biloria appointed as Doctoral defence committee member at Ècole nationale supèrieure d'architecture Paris-Malaquais
- 14 MayDr. Nimish Biloria appointed as Scientific Committee member at the ICONARCH II, Innovative approaches in Architecture and Planning, Konya, Turkey
- 29 AprAchilleas Psyllidis's paper is accepted for the 10th IEEE International Conference on Intelligent Environments (IE'14)
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Hyperbody designs a SynSerre (Synergetic Greenhouse)
The heating and cooling of buildings is responsible for 40% of the total energy use and CO2 emission. Attaching a SynSerre to the building, e.g. the roof, reduces the heat loss of the existing building and at the same time reduces the cost of foundation and land for the greenhouse. Sincerely a synergetic solution! But will greenhouse farmers move to the roofs of buildings? Will transport of products be a problem? Can we combine with other functions? What will be the overall yearly cost and income of a SynSerre? Only a well-designed SynSerre prototype can answer these questions.