WIND COMFORT
VISUAL COMFORT:
Citation:
Hopkinson 1941 cited in Alexander 2013
Reference:
Alexander, D., October-November 2013. L. Lectures SAE. Welsh School of Architecture, MSC Environmental Design of Buildings, Cardiff University.
Hopkinson 1941 cited in Alexander 2013
Reference:
Alexander, D., October-November 2013. L. Lectures SAE. Welsh School of Architecture, MSC Environmental Design of Buildings, Cardiff University.
LIGHTING LEVELS
CITATION: The engineering toolbox 2013
REFERENCE: engineering toolbox 2013, Illuminance - Recommended Light Levels [Online] available at:http://www.engineeringtoolbox.com/light-level-rooms-d_708.html, Accessed: 02 December 2013
REFERENCE: engineering toolbox 2013, Illuminance - Recommended Light Levels [Online] available at:http://www.engineeringtoolbox.com/light-level-rooms-d_708.html, Accessed: 02 December 2013
TEMPERATURE: (19°C - 23°C) @ Relative Humidity 40% to 70%
Citation: Alexander 2013
Reference: Alexander, D., October-November 2013. L. Lectures SAE. Welsh School of Architecture, MSC Environmental Design of Buildings, Cardiff University.
RELATIVE HUMIDITY:
Within Comfort range of ( 19°C - 23°C) within range of 40% to 70%
As stated in Alexander 2013,'at high air temperatures (approaching average skin of 34°C) evaporation heat loss is important to maintain comfort'
Alexander, D., October-November 2013. L. Lectures SAE. Welsh School of Architecture, MSC Environmental Design of Buildings, Cardiff University.
Within Comfort range of ( 19°C - 23°C) within range of 40% to 70%
As stated in Alexander 2013,'at high air temperatures (approaching average skin of 34°C) evaporation heat loss is important to maintain comfort'
Alexander, D., October-November 2013. L. Lectures SAE. Welsh School of Architecture, MSC Environmental Design of Buildings, Cardiff University.