Add to ORKGA 400 kilowatt argon arc lamp for a solar simulator has been designed, operated, and evaluated. The lamp is designed to produce one solar constant on a test area 4.6 by 9.2 meters when used with a collimator. The divergence angle of the beam is about 1 deg. The lamp is designed to operate completely within a vacuum environment. Over 80 kilowatt of directed radiation was monitored and measured for a 25-hour period during a recent test. In another test, an arc was operated at 400 kilowatt for 110 hours without removal or refurbishing of the electrodes. These tests have proven the cleanliness and integrity of the radiation source
The solar simulator is the key facility for indoor research of solar PV cells, solar heat collectors...
This work presents an adjustable large-scale solar simulator based on metal halide lamps. The design...
This work presents an adjustable large-scale solar simulator based on metal halide lamps. The design...
A solar simulator utilizing nine 30-kW xenon arc lamps was built to provide radiant power for testin...
In this paper we present an experimentally validated process for the design of high flux solar simul...
In this paper we present an experimentally validated process for the design of high flux solar simul...
In this paper we present an experimentally validated process for the design of high flux solar simul...
The purpose of this thesis is to develop a general modeling approach to guide the design of high-flu...
Solar simulators are used to test components and systems under controlled and repeatable conditions,...
Spectral irradiance measurements over the range of 200 to 1060 nm were made on a 1000-watt xenon arc...
The design and development of two solar radiation simulators with an intensity variation ranging fro...
Esen, Vedat (Arel Author)As solar power usage is increasing nowadays, performance tests have become ...
The solar simulator is the key facility for indoor research of solar PV cells, solar heat collectors...
Design and instrumentation of fluid transpiration arc as radiation source for solar simulatio
This work presents an adjustable large-scale solar simulator based on metal halide lamps. The design...
The solar simulator is the key facility for indoor research of solar PV cells, solar heat collectors...
This work presents an adjustable large-scale solar simulator based on metal halide lamps. The design...
This work presents an adjustable large-scale solar simulator based on metal halide lamps. The design...
A solar simulator utilizing nine 30-kW xenon arc lamps was built to provide radiant power for testin...
In this paper we present an experimentally validated process for the design of high flux solar simul...
In this paper we present an experimentally validated process for the design of high flux solar simul...
In this paper we present an experimentally validated process for the design of high flux solar simul...
The purpose of this thesis is to develop a general modeling approach to guide the design of high-flu...
Solar simulators are used to test components and systems under controlled and repeatable conditions,...
Spectral irradiance measurements over the range of 200 to 1060 nm were made on a 1000-watt xenon arc...
The design and development of two solar radiation simulators with an intensity variation ranging fro...
Esen, Vedat (Arel Author)As solar power usage is increasing nowadays, performance tests have become ...
The solar simulator is the key facility for indoor research of solar PV cells, solar heat collectors...
Design and instrumentation of fluid transpiration arc as radiation source for solar simulatio
This work presents an adjustable large-scale solar simulator based on metal halide lamps. The design...
The solar simulator is the key facility for indoor research of solar PV cells, solar heat collectors...
This work presents an adjustable large-scale solar simulator based on metal halide lamps. The design...
This work presents an adjustable large-scale solar simulator based on metal halide lamps. The design...