Large scale central receiver systems typically deploy between thousands to more than a hundred thousand heliostats. During solar operation, each heliostat is aligned individually in such a way that the overall surface normal bisects the angle between the sun’s position and the aim point coordinate on the receiver. Due to various tracking error sources, achieving accurate alignment ≤1 mrad for all the heliostats with respect to the aim points on the receiver without a calibration system can be regarded as unrealistic. Therefore, a calibration system is necessary not only to improve the aiming accuracy for achieving desired flux distributions but also to reduce or eliminate spillage. An overview of current larger-scale central receiver system...
AbstractSeveral error sources can contribute to the global tracking error of heliostats. These sourc...
The SolarPACES Guideline for Heliostat Performace Testing finally provides a solid base for standard...
Solar Power Tower technology requires accurate techniques to ensure the optical performance of the h...
Large scale central receiver systems typically deploy between thousands to more than a hundred thous...
AbstractThe heliostat field is by far the most expensive part of a typical Central Receiver (CR) pla...
AbstractIn central receiver solar power plants the accuracy of heliostat aiming affects directly the...
Heliostat calibration is a vital task in solar tower plants to ensure high plant efficiencies. Curre...
In solar tower power plants, the sun's energy is focused onto a receiver at the top of a solar tower...
Heliostat alignment evaluation is among the main issues in solar tower concentration plant operation...
AbstractThis study provides a demonstration of an eight-parameter heliostat tracking-error correctio...
AbstracteSolar provides a low-cost, modular heliostat field solution for tower-based CSP facilities....
AbstractLow-cost heliostats with open-loop tracking systems require careful calibration in order to ...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
The heliostat field collects, reflects and concentrates solar radiation and irradiates the receiver ...
none3noThis paper investigates the effect of tracking errors in heliostats used in solar tower power...
AbstractSeveral error sources can contribute to the global tracking error of heliostats. These sourc...
The SolarPACES Guideline for Heliostat Performace Testing finally provides a solid base for standard...
Solar Power Tower technology requires accurate techniques to ensure the optical performance of the h...
Large scale central receiver systems typically deploy between thousands to more than a hundred thous...
AbstractThe heliostat field is by far the most expensive part of a typical Central Receiver (CR) pla...
AbstractIn central receiver solar power plants the accuracy of heliostat aiming affects directly the...
Heliostat calibration is a vital task in solar tower plants to ensure high plant efficiencies. Curre...
In solar tower power plants, the sun's energy is focused onto a receiver at the top of a solar tower...
Heliostat alignment evaluation is among the main issues in solar tower concentration plant operation...
AbstractThis study provides a demonstration of an eight-parameter heliostat tracking-error correctio...
AbstracteSolar provides a low-cost, modular heliostat field solution for tower-based CSP facilities....
AbstractLow-cost heliostats with open-loop tracking systems require careful calibration in order to ...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
The heliostat field collects, reflects and concentrates solar radiation and irradiates the receiver ...
none3noThis paper investigates the effect of tracking errors in heliostats used in solar tower power...
AbstractSeveral error sources can contribute to the global tracking error of heliostats. These sourc...
The SolarPACES Guideline for Heliostat Performace Testing finally provides a solid base for standard...
Solar Power Tower technology requires accurate techniques to ensure the optical performance of the h...