TY - CPAPER AU - Eliyahu Neeman AU - Stephen E Selkowitz AB -

This paper reviews many of the design considerations required to enable a design team to utilize daylight to the maximum possible extent in order to reduce electric lighting loads and associated building energy-consumption. Among steps that must be taken is a thorough analysis of all heating and cooling loads inside the building and the heat exchange through the building envelope. Data on local climate and sunshine availability must also be considered.

Although the energy aspects have recently dominated our design considerations, daylights influence on human well-being is gaining importance. In this respect, the variability of daylight, the quality of its spectral composition, the view out, and health effects are among the aspects that should be considered when determining an appropriate role for daylighting in energy efficient buildings.

BT - International Passive and Hybrid Cooling Conference C1 -

Windows and Daylighting Group

C2 - LBL-13399 CN - LBL-13399 LA - eng N2 -

This paper reviews many of the design considerations required to enable a design team to utilize daylight to the maximum possible extent in order to reduce electric lighting loads and associated building energy-consumption. Among steps that must be taken is a thorough analysis of all heating and cooling loads inside the building and the heat exchange through the building envelope. Data on local climate and sunshine availability must also be considered.

Although the energy aspects have recently dominated our design considerations, daylights influence on human well-being is gaining importance. In this respect, the variability of daylight, the quality of its spectral composition, the view out, and health effects are among the aspects that should be considered when determining an appropriate role for daylighting in energy efficient buildings.

PY - 1981 SP - 670 EP - 681 T2 - International Passive and Hybrid Cooling Conference T3 - International Passive and Hybrid Cooling Conference TI - Efficient Daylighting in Thermally Controlled Environments ER -