Add to ORKGThe design and development of two solar radiation simulators with an intensity variation ranging from 0.01 to greater than 100 solar constants under vacuum conditions are discussed. The characteristics of the simulators are presented in terms of spectral content, beam uniformity, and stability. Preliminary thermal radiative property data obtained at high temperatures are reported. The general operating characteristics of the simulator are automatic starting, control of both positive and negative electrodes, and uninterrupted operation for periods in excess of 24 hours
Design and performance of two vacuum chambers and solar-radiation simulators for solar-cell researc
The performance of a new high-flux solar simulator consisting of 18 x 2.5 kWel radiation modules has...
Space environment and solar simulator - design specifications and construction problem
This simulator is unique in that it is capable of producing intensities up to 16.0 solar constants (...
Spectral radiance measurement of oxygen, nitrogen, xenon, and argon for simulation of radiant heatin...
A solar simulator utilizing nine 30-kW xenon arc lamps was built to provide radiant power for testin...
A vacuum chamber was designed and built that simulates the space environment making possible the tes...
The performance of a new high-flux solar simulator consisting of 18 × 2.5 kWel radiation modules has...
High flux solar simulators, used to produce controlled high temperature experiments are a valuable t...
A vacuum chamber was designed and built that simulates the space environment making possible the tes...
Measurement of spectral emission from solar simulators - photoelectric photometr
A vacuum chamber was designed and built that simulates the space environment making possible the tes...
In the last few years, several studies have been carried out on concentrating solar thermal and ther...
A 400 kilowatt argon arc lamp for a solar simulator has been designed, operated, and evaluated. The ...
A high flux solar simulator for indoor performance assessment of systems in solar thermal, thermoche...
Design and performance of two vacuum chambers and solar-radiation simulators for solar-cell researc
The performance of a new high-flux solar simulator consisting of 18 x 2.5 kWel radiation modules has...
Space environment and solar simulator - design specifications and construction problem
This simulator is unique in that it is capable of producing intensities up to 16.0 solar constants (...
Spectral radiance measurement of oxygen, nitrogen, xenon, and argon for simulation of radiant heatin...
A solar simulator utilizing nine 30-kW xenon arc lamps was built to provide radiant power for testin...
A vacuum chamber was designed and built that simulates the space environment making possible the tes...
The performance of a new high-flux solar simulator consisting of 18 × 2.5 kWel radiation modules has...
High flux solar simulators, used to produce controlled high temperature experiments are a valuable t...
A vacuum chamber was designed and built that simulates the space environment making possible the tes...
Measurement of spectral emission from solar simulators - photoelectric photometr
A vacuum chamber was designed and built that simulates the space environment making possible the tes...
In the last few years, several studies have been carried out on concentrating solar thermal and ther...
A 400 kilowatt argon arc lamp for a solar simulator has been designed, operated, and evaluated. The ...
A high flux solar simulator for indoor performance assessment of systems in solar thermal, thermoche...
Design and performance of two vacuum chambers and solar-radiation simulators for solar-cell researc
The performance of a new high-flux solar simulator consisting of 18 x 2.5 kWel radiation modules has...
Space environment and solar simulator - design specifications and construction problem