Abstract
The paper analyzes approaches to modeling the processes of interaction of concentrated solar radiation with materials. The experimental results obtained on the synthesis of materials from a melt in a solar furnace are presented. The features of the interaction of concentrated solar radiation with materials are analyzed. The mechanisms are described and a model for the interaction of concentrated solar radiation with materials is created. A feasibility study is proposed for the technology of glass-based glass materials obtained on the Big Solar Furnace.
Highlights
Prospects for the development of energy and improving the efficiency of materials science are associated with the expansion of the use of renewable energy sources, in particular the energy of the Sun
In the field of creating materials based on solar technologies, it is noted that, unlike traditional sources of energy, such materials make it possible to increase the heating rate hundreds of times, obtain and fix melts with a certain composition of the cluster structure, and thereby obtain materials with specified mechanical and dielectric properties
We studied the material synthesized from a melt in a solar furnace with a thermal power of 1 MW
Summary
Prospects for the development of energy and improving the efficiency of materials science are associated with the expansion of the use of renewable energy sources, in particular the energy of the Sun. In the field of creating materials based on solar technologies, it is noted that, unlike traditional sources of energy, such materials make it possible to increase the heating rate hundreds of times, obtain and fix melts with a certain composition of the cluster structure, and thereby obtain materials with specified mechanical and dielectric properties . In the stream of concentrated light radiation, special technological conditions of synthesis are formed, which can be used to obtain materials with desired properties.
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