A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Introduction to integration of renewable energy in demand controlled hybrid ventilation systems for residential buildings
AbstractIn the scope of the EU supported project RESidential buildings HYbrid VENTilation (RESHYVENT), the possible integration of renewable energy solutions (RES) into hybrid ventilation systems has been analysed. The focus has been on solar and wind applications to substitute the use of fossil fuel. The feasibility of the investigated options depends on the ventilation concept the RES is integrated into, the location of the building geographically, placement of the RES in the building and on the urban environment. This paper describes the different renewable technologies, options and constrains in connection with integration into hybrid ventilation systems.
Introduction to integration of renewable energy in demand controlled hybrid ventilation systems for residential buildings
AbstractIn the scope of the EU supported project RESidential buildings HYbrid VENTilation (RESHYVENT), the possible integration of renewable energy solutions (RES) into hybrid ventilation systems has been analysed. The focus has been on solar and wind applications to substitute the use of fossil fuel. The feasibility of the investigated options depends on the ventilation concept the RES is integrated into, the location of the building geographically, placement of the RES in the building and on the urban environment. This paper describes the different renewable technologies, options and constrains in connection with integration into hybrid ventilation systems.
Introduction to integration of renewable energy in demand controlled hybrid ventilation systems for residential buildings
Antvorskov, S. (author)
Building and Environment ; 43 ; 1350-1353
2007-01-01
4 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2008