A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Energy saving potential and repercussions on indoor air quality of demand controlled residential ventilation strategies
Because of several motivators, such as the mitigation of global warming, the reaching of peak oil and health concerns related to fossil fuel burning, contemporary building practise is searching for advanced concepts and technological innovations that will allow to maintain or improve the comfort level that is currently reached while reducing the energy consumption that is related to it. Ventilation is ambiguously related with this energy saving rationale. Since it makes up for about half of the energy consumption in well insulated building, it is an attractive target for energy saving measures. However, simply reducing ventilation rates has unwanted repercussions on the indoor air quality. Two main strategies have been developed to reconcile these seemingly opposing interests, namely heat recovery and demand control ventilation. This paper focuses on the energy saving potential of demand controlled mechanical exhaust ventilation in residences and on the influence such systems may have on the indoor air quality to which the occupants of the dwellings are exposed. The conclusions are based on simulations done with a multi-zone airflow model of a detached house that is statistically representative for the average Belgian dwelling. Several approaches to demand based control are tested and reported. Both energy demand and exposures are reported in comparison with a classic system, operating with continuous flowrates, that is building code compliant. This is necessary to assure that the reported energy saving potential does not derogate the indoor air quality. Within the paper exposure to carbon dioxide and to an odour tracer gas are used as indoor air quality indicators. Monte-Carlo techniques are used to ensure that the reported results are representative for the diverse boundary conditions and parameters that may occur with real life implementation of such a system. Under the conditions that were applied, reductions on the energy demand for ventilation - with the exclusion of adventitious ventilation and ...
Energy saving potential and repercussions on indoor air quality of demand controlled residential ventilation strategies
Because of several motivators, such as the mitigation of global warming, the reaching of peak oil and health concerns related to fossil fuel burning, contemporary building practise is searching for advanced concepts and technological innovations that will allow to maintain or improve the comfort level that is currently reached while reducing the energy consumption that is related to it. Ventilation is ambiguously related with this energy saving rationale. Since it makes up for about half of the energy consumption in well insulated building, it is an attractive target for energy saving measures. However, simply reducing ventilation rates has unwanted repercussions on the indoor air quality. Two main strategies have been developed to reconcile these seemingly opposing interests, namely heat recovery and demand control ventilation. This paper focuses on the energy saving potential of demand controlled mechanical exhaust ventilation in residences and on the influence such systems may have on the indoor air quality to which the occupants of the dwellings are exposed. The conclusions are based on simulations done with a multi-zone airflow model of a detached house that is statistically representative for the average Belgian dwelling. Several approaches to demand based control are tested and reported. Both energy demand and exposures are reported in comparison with a classic system, operating with continuous flowrates, that is building code compliant. This is necessary to assure that the reported energy saving potential does not derogate the indoor air quality. Within the paper exposure to carbon dioxide and to an odour tracer gas are used as indoor air quality indicators. Monte-Carlo techniques are used to ensure that the reported results are representative for the diverse boundary conditions and parameters that may occur with real life implementation of such a system. Under the conditions that were applied, reductions on the energy demand for ventilation - with the exclusion of adventitious ventilation and ...
Energy saving potential and repercussions on indoor air quality of demand controlled residential ventilation strategies
Laverge, Jelle (author) / Van Den Bossche, Nathan (author) / Janssens, Arnold (author) / Gawin, Dariusz / Kisilewicz, Tomasz
2010-01-01
RESEARCH ON BUILDING PHYSICS ; ISBN: 9788372833679
Conference paper
Electronic Resource
English
DDC:
690
| British Library Online Contents | 2011