A completely new ray tracing software has been developed at the German Aerospace Center. The main purpose of this software is the flux density simulation of heliostat fields with a very high accuracy in a small amount of computation time. The software is primarily designed to process real sun shape distributions and real highly resolved heliostat geometry data, which means a data set of normal vectors of the entire reflecting surface of each heliostat in the field. Specific receiver and secondary concentrator models, as well as models of objects that are shadowing the heliostat field, can be implemented by the user and be linked to the simulation software subsequently. The specific architecture of the software enables the provision of other...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
The heliostat field of solar central receiver systems (SCRS) is formed by hundreds, even thousands, ...
This paper summarizes the collaborative work done by CENER, Fraunhofer ISE and CRS4 within the scope...
A completely new ray tracing software has been developed at the German Aerospace Center. The main p...
A heliostats field is an array of mirrors concentrating the solar power on a receiver, typically pla...
AbstractSolar field performance is dependent upon the ability of each heliostat to project a concent...
AbstractWe present an accurate and simple model for calculating the spillage and the power contribut...
The optimized layout of a central receiver power plants requires an accurate but fast simulation of...
ABSTRACT: Heliostat field layout design is a critical task in solar tower power plant construction d...
Computing the flux densities provided by solar concentrators or focusing heliostats can be done in t...
There are two sun-tracking methods widely used for the heliostat, which are conventional Azimuth-Ele...
Copyright © 2013 Paola Sansoni et al. This is an open access article distributed under the Creative ...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
Ray tracing is a common approach to calculate the flux density distribution on an evaluation plane, ...
International audienceEDF is investigating the dynamic behavior of a tower Concentrated Solar Power ...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
The heliostat field of solar central receiver systems (SCRS) is formed by hundreds, even thousands, ...
This paper summarizes the collaborative work done by CENER, Fraunhofer ISE and CRS4 within the scope...
A completely new ray tracing software has been developed at the German Aerospace Center. The main p...
A heliostats field is an array of mirrors concentrating the solar power on a receiver, typically pla...
AbstractSolar field performance is dependent upon the ability of each heliostat to project a concent...
AbstractWe present an accurate and simple model for calculating the spillage and the power contribut...
The optimized layout of a central receiver power plants requires an accurate but fast simulation of...
ABSTRACT: Heliostat field layout design is a critical task in solar tower power plant construction d...
Computing the flux densities provided by solar concentrators or focusing heliostats can be done in t...
There are two sun-tracking methods widely used for the heliostat, which are conventional Azimuth-Ele...
Copyright © 2013 Paola Sansoni et al. This is an open access article distributed under the Creative ...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
Ray tracing is a common approach to calculate the flux density distribution on an evaluation plane, ...
International audienceEDF is investigating the dynamic behavior of a tower Concentrated Solar Power ...
A new optical measurement method that simplifies and optimizes the mounting and canting of heliostat...
The heliostat field of solar central receiver systems (SCRS) is formed by hundreds, even thousands, ...
This paper summarizes the collaborative work done by CENER, Fraunhofer ISE and CRS4 within the scope...