In warm environments, room fans can provide comfort using substantially less energy than air- conditioning. The savings are greater if the fans make it possible to successfully condition the building with natural ventilation or evaporative cooling systems, instead of chillers. Although there are many laboratory studies of comfort using desk fans and personalized fans, tests for ceiling fans are rare, mainly in early studies from the 1980s. This study examines the cooling effect of a low-wattage ceiling fan on occupants when air comes from different directions with different speeds. We conducted 96 human subject tests in an environmental chamber. Sixteen college students each experienced 6 air movement conditions: two different air speeds an...
Elevated air movement produced by fans can offset air-conditioning energy requirements by allowing t...
It is well known that indoor environment is an important factor not only for occupants' comfort as a...
Ceiling fans provide cooling to indoor occupants and improve their thermal comfort in warm environme...
In warm environments, room fans can provide comfort using substantially less energy than air- condit...
Moving air cools human body. In warm environments, fans can provide comfort using less energy ...
The effects of air movement from ceiling fans on subjective thermal comfort and perceived air qualit...
Fans provide a major opportunity for buildings in that they enhance both energy efficiency and occup...
[[abstract]]The purpose of this study is to investigate the relationship between the greenhouse effe...
Ceiling fans can reduce the cooling demand in an indoor area, improve thermal comfort, and save ener...
This study examined the effects of personally controlled air movement on human thermal comfort and p...
Air movement from fans is an effective way to deliver thermal comfort in warm air temperatures. We m...
Ceiling fans can reduce the cooling demand in an indoor area, improve thermal comfort, and save ener...
It is well known that indoor environment is an important factor not only for occupants ’ comfort as ...
The purpose of this study was to clarify differences between evaluations of thermal environment unde...
Air movement is one of the six main variables determirzing human thermal comfort; air temperature, r...
Elevated air movement produced by fans can offset air-conditioning energy requirements by allowing t...
It is well known that indoor environment is an important factor not only for occupants' comfort as a...
Ceiling fans provide cooling to indoor occupants and improve their thermal comfort in warm environme...
In warm environments, room fans can provide comfort using substantially less energy than air- condit...
Moving air cools human body. In warm environments, fans can provide comfort using less energy ...
The effects of air movement from ceiling fans on subjective thermal comfort and perceived air qualit...
Fans provide a major opportunity for buildings in that they enhance both energy efficiency and occup...
[[abstract]]The purpose of this study is to investigate the relationship between the greenhouse effe...
Ceiling fans can reduce the cooling demand in an indoor area, improve thermal comfort, and save ener...
This study examined the effects of personally controlled air movement on human thermal comfort and p...
Air movement from fans is an effective way to deliver thermal comfort in warm air temperatures. We m...
Ceiling fans can reduce the cooling demand in an indoor area, improve thermal comfort, and save ener...
It is well known that indoor environment is an important factor not only for occupants ’ comfort as ...
The purpose of this study was to clarify differences between evaluations of thermal environment unde...
Air movement is one of the six main variables determirzing human thermal comfort; air temperature, r...
Elevated air movement produced by fans can offset air-conditioning energy requirements by allowing t...
It is well known that indoor environment is an important factor not only for occupants' comfort as a...
Ceiling fans provide cooling to indoor occupants and improve their thermal comfort in warm environme...