A new optical measurement method that simplifies and optimizes the mounting and canting of heliostats and helps to assure their optical quality before commissioning of the solar field was developed. This method is based on the reflection of regular patterns in the mirror surface and their distortions due to mirror surface errors. The measurement has a resolution of about one million points per heliostat with a measurement uncertainty of less than 0.2 mrad and a measurement time of about one minute per heliostat. The system is completely automated and allows the automatic measurement of an entire heliostat field during one night. It was extensively tested at the CESA-1 heliostat field at the Plataforma Solar de Almería. Comparisons of flux s...
The optical quality of the collector field of concentrating solar power plants is a fundamental fact...
Large scale central receiver systems typically deploy between thousands to more than a hundred thous...
Heliostat alignment evaluation is among the main issues in solar tower concentration plant operation...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
A new measurement system able to measure the shape accuracy of complete mirrored heliostat modules i...
Solar Power Tower technology requires accurate techniques to ensure the optical performance of the h...
In solar tower plants, thousands of heliostats reflect sunlight into a central receiver. Heliostats ...
AbstractSolar field performance is dependent upon the ability of each heliostat to project a concent...
AbstractThis study provides a demonstration of an eight-parameter heliostat tracking-error correctio...
This paper presents a novel methodology to find out canting errors in the facets, i.e. mirror module...
The characterization of the whole solar field of a solar tower power plant is a time consuming labor...
Heliostats of central receiver solar power plants reach dimensions up to 150 m2 with focal lengths u...
Heliostats of central receiver solar power plants reach dimensions up to 150 m2 with focal lengths u...
The SolarPACES Guideline for Heliostat Performace Testing finally provides a solid base for standard...
AbstractThe QDec measurement system is designed and utilized for shape quality control of mirror pan...
The optical quality of the collector field of concentrating solar power plants is a fundamental fact...
Large scale central receiver systems typically deploy between thousands to more than a hundred thous...
Heliostat alignment evaluation is among the main issues in solar tower concentration plant operation...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
A new measurement system able to measure the shape accuracy of complete mirrored heliostat modules i...
Solar Power Tower technology requires accurate techniques to ensure the optical performance of the h...
In solar tower plants, thousands of heliostats reflect sunlight into a central receiver. Heliostats ...
AbstractSolar field performance is dependent upon the ability of each heliostat to project a concent...
AbstractThis study provides a demonstration of an eight-parameter heliostat tracking-error correctio...
This paper presents a novel methodology to find out canting errors in the facets, i.e. mirror module...
The characterization of the whole solar field of a solar tower power plant is a time consuming labor...
Heliostats of central receiver solar power plants reach dimensions up to 150 m2 with focal lengths u...
Heliostats of central receiver solar power plants reach dimensions up to 150 m2 with focal lengths u...
The SolarPACES Guideline for Heliostat Performace Testing finally provides a solid base for standard...
AbstractThe QDec measurement system is designed and utilized for shape quality control of mirror pan...
The optical quality of the collector field of concentrating solar power plants is a fundamental fact...
Large scale central receiver systems typically deploy between thousands to more than a hundred thous...
Heliostat alignment evaluation is among the main issues in solar tower concentration plant operation...