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THIS PROJECT WILL BE TO DESIGN, MODEL, AND TEST A SOLAR RECEIVER CAPABLE OF CONVERTING SOLAR ENERGY INTO ULTRA-HIGH TEMPERATURE HEAT, AND TO TRANSFER THAT HEAT TO CHEMICAL REACTORS AND THERMAL STORAGE USING FORCED AIR AS THERMAL FLUID. A 150 KW-THERMAL RATED OPEN-AIR SOLAR RECEIVER MADE FROM SILICON CARBIDE (SIC) FOR A HELIOSTAT TOWER WILL BE MODELED, DESIGNED, AND MANUFACTURED USING BINDER-JET 3D PRINTING PROCESSES.

$635,460FY2022Department of EnergyDOE

Dimensional Energy, Inc.

Investigators

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THIS PROJECT WILL BE TO DESIGN, MODEL, AND TEST A SOLAR RECEIVER CAPABLE OF CONVERTING SOLAR ENERGY INTO ULTRA-HIGH TEMPERATURE HEAT, AND TO TRANSFER THAT HEAT TO CHEMICAL REACTORS AND THERMAL STORAGE USING FORCED AIR AS THERMAL FLUID. A 150 KW-THERMAL RATED OPEN-AIR SOLAR RECEIVER MADE FROM SILICON CARBIDE (SIC) FOR A HELIOSTAT TOWER WILL BE MODELED, DESIGNED, AND MANUFACTURED USING BINDER-JET 3D PRINTING PROCESSES. · GrantIndex