A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Improvements to solar thermal collectors
A dish structure (10) has a virtual front surface, the front surface having a periphery, and a plurality of spaced apart non overlapping elongate front beams (16), each of which extends between two points on the periphery. Each front beam (16) has at least one mounting area (20) for receiving a reflective panel (150), the at least one mounting area (20) conforming substantially to the virtual front surface in the longitudinal direction of the front beam (16).
Improvements to solar thermal collectors
A dish structure (10) has a virtual front surface, the front surface having a periphery, and a plurality of spaced apart non overlapping elongate front beams (16), each of which extends between two points on the periphery. Each front beam (16) has at least one mounting area (20) for receiving a reflective panel (150), the at least one mounting area (20) conforming substantially to the virtual front surface in the longitudinal direction of the front beam (16).
Improvements to solar thermal collectors
PYE JOHN DOWNING (author) / LOVEGROVE KEITH MALCOLM (author) / BRUNSWICK ROBERT (author) / BURGESS GREGORY JOHN (author) / COVENTRY JOSEPH SYDNEY (author) / PRESTON JESSICA NEETA (author) / JOE WIE SHUEN (author)
2016-12-15
Patent
Electronic Resource
English
Review of materials for solar thermal collectors
| British Library Online Contents | 2005
| British Library Conference Proceedings | 2004
Thermal modeling of evacuated tube solar air collectors
| British Library Online Contents | 2015
Thermal modeling of evacuated tube solar air collectors
| British Library Online Contents | 2015
Facade integration of solar thermal collectors: present and future
| British Library Conference Proceedings | 2007