A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Energy performance of façade integrated decentralised ventilation systems
Graphical abstract
Highlights An energy evaluation method was developed for decentralised ventilation systems. Two different façade integrated devices were evaluated. A calorimetric method is especially relevant for regenerative heat exchangers. The method has been extended to a seasonal evaluation of energy performance.
Abstract The current methods used to assess the energy performance of ventilation devices do not consider all the aspects necessary for a comprehensive evaluation of decentralised ventilation concepts and can only be partially adapted to their needs. In order to improve the energy evaluation and to ensure the comparability of different systems, a calorimetric method was developed and implemented in test facilities for the evaluation of two decentralised devices: one equipped with a recuperative counter flow heat exchanger and one with a regenerative heat exchanger. This method, based on direct measurements of the heating load in an insulated test room, includes the effect of the electrical consumption of the fans on the energy performance of the ventilation devices. The calorimetric evaluation method was extended to a seasonal evaluation on the basis of a heating-degree-day method implemented for a warm, a cool and a moderate location in Europe: Athens, Strasbourg and Copenhagen. All the results are above 50% efficiency for both devices, even in Athens where the use of heat recovery ventilation is not usual.
Energy performance of façade integrated decentralised ventilation systems
Graphical abstract
Highlights An energy evaluation method was developed for decentralised ventilation systems. Two different façade integrated devices were evaluated. A calorimetric method is especially relevant for regenerative heat exchangers. The method has been extended to a seasonal evaluation of energy performance.
Abstract The current methods used to assess the energy performance of ventilation devices do not consider all the aspects necessary for a comprehensive evaluation of decentralised ventilation concepts and can only be partially adapted to their needs. In order to improve the energy evaluation and to ensure the comparability of different systems, a calorimetric method was developed and implemented in test facilities for the evaluation of two decentralised devices: one equipped with a recuperative counter flow heat exchanger and one with a regenerative heat exchanger. This method, based on direct measurements of the heating load in an insulated test room, includes the effect of the electrical consumption of the fans on the energy performance of the ventilation devices. The calorimetric evaluation method was extended to a seasonal evaluation on the basis of a heating-degree-day method implemented for a warm, a cool and a moderate location in Europe: Athens, Strasbourg and Copenhagen. All the results are above 50% efficiency for both devices, even in Athens where the use of heat recovery ventilation is not usual.
Energy performance of façade integrated decentralised ventilation systems
Coydon, Fabien (author) / Herkel, Sebastian (author) / Kuber, Tejas (author) / Pfafferott, Jens (author) / Himmelsbach, Sascha (author)
Energy and Buildings ; 107 ; 172-180
2015-08-05
9 pages
Article (Journal)
Electronic Resource
English
IMPROVED INTEGRATED VENTILATION MECHANISMS ON PANEL FACADE SYSTEMS
| European Patent Office | 2023
Energy & Ventilation Performance of Double Facade Office Buildings
| British Library Conference Proceedings | 1994