Resumé
well as influence the air content (dust, pollution etc.). Architects and engineers need to acquire qualitative and quantitative information about the interactions between building characteristics and natural ventilation in order to design buildings and systems consistent with a passive low-energy approach.
These lecture notes focus on modelling of natural and hybrid ventilation driven by thermal buoyancy, wind and/or mechanical driving forces for a single zone with one, two or several openings.
Originalsprog | Engelsk |
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Udgivelses sted | Aalborg |
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Forlag | Department of Civil Engineering, Aalborg University |
Antal sider | 54 |
Status | Udgivet - 2006 |
Navn | DCE Lecture notes |
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Nummer | 4 |
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Emneord
- Natural Ventilation
- Hybrid Ventilation
- Air Quality
- Infiltration
- Air Flow
- Air Humidity
Citer dette
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Modelling of Natural and Hybrid Ventilation. / Heiselberg, Per.
Aalborg : Department of Civil Engineering, Aalborg University, 2006. 54 s. (DCE Lecture notes; Nr. 4).Publikation: Bog/antologi/afhandling/rapport › Bog › Undervisning
TY - BOOK
T1 - Modelling of Natural and Hybrid Ventilation
AU - Heiselberg, Per
PY - 2006
Y1 - 2006
N2 - The effectiveness of natural ventilation, i.e. its ability to ensure indoor air quality and passive cooling in a building, depends greatly on the design process. Mechanical ventilation systems can be designed separately from the design of the building in which they are installed. They can also be installed in existing buildings after a few modifications. In contrast, ventilation systems using only natural forces such as wind and thermal buoyancy need to be designed together with the building, since the building itself and its components are the elements that can reduce or increase air movement aswell as influence the air content (dust, pollution etc.). Architects and engineers need to acquire qualitative and quantitative information about the interactions between building characteristics and natural ventilation in order to design buildings and systems consistent with a passive low-energy approach.These lecture notes focus on modelling of natural and hybrid ventilation driven by thermal buoyancy, wind and/or mechanical driving forces for a single zone with one, two or several openings.
AB - The effectiveness of natural ventilation, i.e. its ability to ensure indoor air quality and passive cooling in a building, depends greatly on the design process. Mechanical ventilation systems can be designed separately from the design of the building in which they are installed. They can also be installed in existing buildings after a few modifications. In contrast, ventilation systems using only natural forces such as wind and thermal buoyancy need to be designed together with the building, since the building itself and its components are the elements that can reduce or increase air movement aswell as influence the air content (dust, pollution etc.). Architects and engineers need to acquire qualitative and quantitative information about the interactions between building characteristics and natural ventilation in order to design buildings and systems consistent with a passive low-energy approach.These lecture notes focus on modelling of natural and hybrid ventilation driven by thermal buoyancy, wind and/or mechanical driving forces for a single zone with one, two or several openings.
KW - Natural Ventilation
KW - Hybrid Ventilation
KW - Air Quality
KW - Infiltration
KW - Air Flow
KW - Air Humidity
KW - Natural Ventilation
KW - Hybrid Ventilation
KW - Air Quality
KW - Air Humidity
KW - Air Flow
KW - Infiltration
M3 - Book
T3 - DCE Lecture notes
BT - Modelling of Natural and Hybrid Ventilation
PB - Department of Civil Engineering, Aalborg University
CY - Aalborg
ER -