Add to ORKGAn unsteady computational fluid dynamics model is employed to simulate summer-time buoyancy-driven turbulent ventilation in gable-roof attics of residential buildings. The energy performance of vented attics is assessed by comparing their performance to sealed attics with the same geometry and insulation configurations. The simulated boundary conditions of the roof-top temperature ranging between 295.15 K and 345.15 K, coupled with an ambient temperature ranging between 295.15 K and 315.15 K, resemble the summer attic conditions with effects of solar irradiance on the roofs. Simulation results indicate that both the vented and sealed attics are dominated by thermal stratification. The cooling load of the sealed attic is predicted to be abou...
This paper presents the developed mathematical models that characterize the thermal-air regime of a ...
Attic air temperature of wooden houses usually rises more than 50°C during daytime in the summer sea...
Vita.A transient heat and mass transfer model was developed to predict ceiling heat gain/loss throug...
An unsteady computational fluid dynamics model is employed to simulate summer-time buoyancy-driven t...
An unsteady computational fluid dynamics model is employed to simulate summer-time buoyancy-driven t...
An unsteady computational fluid dynamics model is employed to simulate summer-time buoyancy-driven t...
A 2D unsteady computational fluid dynamics (CFD) model is employed to simulate buoyancy-driven turbu...
A 2D unsteady computational fluid dynamics (CFD) model is employed to simulate buoyancy-driven turbu...
Attic design and construction have significant impacts on residential buildings’ energy performance....
The impacts of ventilation ratio and vent balance on cooling load and air flow of naturally ventilat...
Attic design and construction have significant impacts on residential buildings’ energy performance....
The impacts of ventilation ratio and vent balance on cooling load and air flow of naturally ventilat...
The impacts of ventilation ratio and vent balance on cooling load and air flow of naturally ventilat...
Pitch value is an important consideration in residential gable roof design and construction. However...
AbstractAttic air ventilation can be influenced by various vent considerations. In addition to vent ...
This paper presents the developed mathematical models that characterize the thermal-air regime of a ...
Attic air temperature of wooden houses usually rises more than 50°C during daytime in the summer sea...
Vita.A transient heat and mass transfer model was developed to predict ceiling heat gain/loss throug...
An unsteady computational fluid dynamics model is employed to simulate summer-time buoyancy-driven t...
An unsteady computational fluid dynamics model is employed to simulate summer-time buoyancy-driven t...
An unsteady computational fluid dynamics model is employed to simulate summer-time buoyancy-driven t...
A 2D unsteady computational fluid dynamics (CFD) model is employed to simulate buoyancy-driven turbu...
A 2D unsteady computational fluid dynamics (CFD) model is employed to simulate buoyancy-driven turbu...
Attic design and construction have significant impacts on residential buildings’ energy performance....
The impacts of ventilation ratio and vent balance on cooling load and air flow of naturally ventilat...
Attic design and construction have significant impacts on residential buildings’ energy performance....
The impacts of ventilation ratio and vent balance on cooling load and air flow of naturally ventilat...
The impacts of ventilation ratio and vent balance on cooling load and air flow of naturally ventilat...
Pitch value is an important consideration in residential gable roof design and construction. However...
AbstractAttic air ventilation can be influenced by various vent considerations. In addition to vent ...
This paper presents the developed mathematical models that characterize the thermal-air regime of a ...
Attic air temperature of wooden houses usually rises more than 50°C during daytime in the summer sea...
Vita.A transient heat and mass transfer model was developed to predict ceiling heat gain/loss throug...