A novel methodology for the design of heliostat fields is presented, based on the selection of heliostats from an oversized field by means of a polygon. To obtain the ideal field shape, the polygon vertices are optimized with an evolutionary algorithm. The objective function calculates a weighted tradeoff between annual optical efficiency and ground usage and is applied to the entire field instead of individual heliostats. Various other figures of merit could be readily integrated. To be able to deal with complex shaped land available for the Solar Tower plant, area boundaries are taken into account during the optimization phase. The application of the methodology is demonstrated by means of a reference scenario and multiple variations of p...
In solar power tower (SPT) systems, selecting the optimum location of thousands of heliostats and th...
This paper summarizes the collaborative work done by CENER, Fraunhofer ISE and CRS4 within the scope...
AbstractWe present a new algorithm to compute the placement of heliostats in a solar field which is ...
The paper discusses the interest of the multi-objective optimization approaches for the design of co...
A new heliostat field optimization method is presented. The method is intended for the further perfo...
The design of a Solar Power Tower plant involves the optimization of the heliostat field layout. Fie...
AbstractThe most widely used methods for heliostat field optimization assume a particular pattern an...
A new method for the heliostat field optimization is presented. The method is intended for further ...
Of all the renewable power generation technologies, solar tower power system is expected to be the m...
AbstractIn this paper a complete review of the most relevant algorithms for the generation of helios...
The design of a Solar Power Tower plant involves the optimization of the heliostat field layout. Fi...
This paper presents an analysis of the effect of the land cost on the size and shape of the solar fi...
The heliostat field of a solar power tower system, considering both its deployment cost and potentia...
A method of optimising the thermodynamic and economic performance of a heliostat fieldwithin a solar...
A heliostats field is an array of mirrors concentrating the solar power on a receiver, typically pla...
In solar power tower (SPT) systems, selecting the optimum location of thousands of heliostats and th...
This paper summarizes the collaborative work done by CENER, Fraunhofer ISE and CRS4 within the scope...
AbstractWe present a new algorithm to compute the placement of heliostats in a solar field which is ...
The paper discusses the interest of the multi-objective optimization approaches for the design of co...
A new heliostat field optimization method is presented. The method is intended for the further perfo...
The design of a Solar Power Tower plant involves the optimization of the heliostat field layout. Fie...
AbstractThe most widely used methods for heliostat field optimization assume a particular pattern an...
A new method for the heliostat field optimization is presented. The method is intended for further ...
Of all the renewable power generation technologies, solar tower power system is expected to be the m...
AbstractIn this paper a complete review of the most relevant algorithms for the generation of helios...
The design of a Solar Power Tower plant involves the optimization of the heliostat field layout. Fi...
This paper presents an analysis of the effect of the land cost on the size and shape of the solar fi...
The heliostat field of a solar power tower system, considering both its deployment cost and potentia...
A method of optimising the thermodynamic and economic performance of a heliostat fieldwithin a solar...
A heliostats field is an array of mirrors concentrating the solar power on a receiver, typically pla...
In solar power tower (SPT) systems, selecting the optimum location of thousands of heliostats and th...
This paper summarizes the collaborative work done by CENER, Fraunhofer ISE and CRS4 within the scope...
AbstractWe present a new algorithm to compute the placement of heliostats in a solar field which is ...