A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Design Methodologies for Energy Conservation and Passive Heating of Buildings Utilizing Improved Building Components. Progress Report No. 3, January 15--April 15, 1978
The recently completed MIT Solar Building 5 demonstrates direct gain solar space heating through the use of new architectural finish materials. February 1978 measurements are summarized. Results indicate the building performed nearly as expected. (ERA citation 04:012929)
Design Methodologies for Energy Conservation and Passive Heating of Buildings Utilizing Improved Building Components. Progress Report No. 3, January 15--April 15, 1978
The recently completed MIT Solar Building 5 demonstrates direct gain solar space heating through the use of new architectural finish materials. February 1978 measurements are summarized. Results indicate the building performed nearly as expected. (ERA citation 04:012929)
Design Methodologies for Energy Conservation and Passive Heating of Buildings Utilizing Improved Building Components. Progress Report No. 3, January 15--April 15, 1978
N. J. Habraken (author) / T. E. Johnson (author)
1978
11 pages
Report
No indication
English
Solar Energy , Heating & Cooling Systems , Architectural Design & Environmental Engineering , Building materials , Passive solar heating systems , School buildings , Cost , Economic analysis , Energy conservation , Heat losses , Insolation , Latent heat storage , Massachusetts , Monitoring , Payback period , Performance , Phase change materials , Silica , Sodium chlorides , Sodium sulfates , Windows , ERDA/140901 , Solar space heating