Abstract
Abstract Solar energy is one of the most promising types of renewable energy. Flat facet solar concentrators were proposed to decrease the cost of materials needed for production. They used small flat mirrors for approximation of parabolic dish surface. The first prototype of flat facet solar concentrators was made in Australia in 1982. Later various prototypes of flat facet solar concentrators were proposed. It was shown that the cost of materials for these prototypes is much lower than the material cost of conventional parabolic dish solar concentrators. To obtain the overall low cost of flat facet concentrators it is necessary to develop fully automated technology of manufacturing and assembling processes. Unfortunately, the design of known flat facet concentrators is too complex for automation process. At present we develop the automatic manufacturing and assembling system for flat facet solar concentrators. For this purpose, we propose the design of flat facet solar concentrator that is convenient for automatization. We describe this design in the paper. At present, almost all solar-energy plants in the world occupy specific areas that are not used for agricultural production. This leads to a competition between the solar-energy plants and agriculture production systems. To avoid this competition, it is possible to co-locate solar-energy devices in agricultural fields. The energy obtained via such co-location can be used for agricultural needs (e.g., water extraction for irrigation) and other purposes (e.g., sent to an electrical grid). In this study, we also describe the results of an investigation on co-location methods for the minimal loss of agricultural harvest too.
Highlights
Solar energy is one of the most promising types of renewable energy
It was shown that the cost of materials for these prototypes is much lower than the material cost of conventional parabolic dish solar concentrators
We propose the design of flat facet solar concentrator that is convenient for automatization
Summary
Abstract: Solar energy is one of the most promising types of renewable energy. Flat facet solar concentrators were proposed to decrease the cost of materials needed for production. Almost all solar-energy plants in the world occupy specific areas that are not used for agricultural production. We aim to investigate the possibilities of solar-energy device placement in areas occupied by agricultural crops considering the specific conditions of arid and semi-arid regions. The second step involves the design and development of solar concentrator prototypes, as well as their installation in an experimental agricultural field. The fifth step involves the development of the first version of an optimal strategy for the placement of solar concentrators in agricultural crops. For agriculture that requires irrigation, especially if the water is extracted from the soil via electrical energy, the use of solar prototypes can reduce the cost of the crop production in the agro system.
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