This paper describes the backward-gazing method with four cameras optimized by using different process of data treatments. The method could be useful for the heliostats characterization in a Solar Tower Power Plant (STPP), to detect heliostat pointing errors, mirrors canting and waviness without disturbing the daily electricity production process. The method is based on the use of four cameras near the receiver, all pointing to the heliostat to be characterized, and a fifth one taking images of the Sun. The theoretical principle is explained and different kind of data treatment process are tested and compared by using heliostat images from numerical simulations. Each process model is explained and the software used for simulations is descri...
Solar tower power plants deliver climate-neutral electricity and process heat and can play a key rol...
International audienceEDF is investigating the dynamic behavior of a tower Concentrated Solar Power ...
Heliostats of central receiver solar power plants reach dimensions up to 150 m2 with focal lengths u...
In order to promote the energy transition and ensure current and future energy production, the techn...
Afin de favoriser la transition énergétique et d’assurer la production d’énergie actuelle et future,...
AbstractSolar field performance is dependent upon the ability of each heliostat to project a concent...
A heliostats field is an array of mirrors concentrating the solar power on a receiver, typically pla...
Concentrated solar power is a promising way for renewable energy production. Optical efficiency of t...
International audienceThis paper presents the first experimental results obtained with the four came...
Copyright © 2013 Paola Sansoni et al. This is an open access article distributed under the Creative ...
AbstractThis study analyzes the characteristics of the heliostat beams in response to various helios...
Solar Power Tower technology requires accurate techniques to ensure the optical performance of the h...
The characterization of the whole solar field of a solar tower power plant is a time consuming labor...
International audienceThis paper describes a sun backward gazing method with multiple cameras optimi...
In solar tower plants, thousands of heliostats reflect sunlight into a central receiver. Heliostats ...
Solar tower power plants deliver climate-neutral electricity and process heat and can play a key rol...
International audienceEDF is investigating the dynamic behavior of a tower Concentrated Solar Power ...
Heliostats of central receiver solar power plants reach dimensions up to 150 m2 with focal lengths u...
In order to promote the energy transition and ensure current and future energy production, the techn...
Afin de favoriser la transition énergétique et d’assurer la production d’énergie actuelle et future,...
AbstractSolar field performance is dependent upon the ability of each heliostat to project a concent...
A heliostats field is an array of mirrors concentrating the solar power on a receiver, typically pla...
Concentrated solar power is a promising way for renewable energy production. Optical efficiency of t...
International audienceThis paper presents the first experimental results obtained with the four came...
Copyright © 2013 Paola Sansoni et al. This is an open access article distributed under the Creative ...
AbstractThis study analyzes the characteristics of the heliostat beams in response to various helios...
Solar Power Tower technology requires accurate techniques to ensure the optical performance of the h...
The characterization of the whole solar field of a solar tower power plant is a time consuming labor...
International audienceThis paper describes a sun backward gazing method with multiple cameras optimi...
In solar tower plants, thousands of heliostats reflect sunlight into a central receiver. Heliostats ...
Solar tower power plants deliver climate-neutral electricity and process heat and can play a key rol...
International audienceEDF is investigating the dynamic behavior of a tower Concentrated Solar Power ...
Heliostats of central receiver solar power plants reach dimensions up to 150 m2 with focal lengths u...