VO2 self-adaptive radiation cooling device based on F-P resonant cavity structure and preparation method of VO2 self-adaptive radiation cooling device

The invention discloses a vanadium dioxide self-adaptive radiation cooling device based on an F-P resonant cavity structure and a preparation method of the vanadium dioxide self-adaptive radiation cooling device, and belongs to the technical field of passive radiation cooling. The dynamic radiation...

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Hauptverfasser:	XIA ZHILIN, HU JIAQI, WANG YUXIANG, LU SIQIAN, LI BIN, JIANG YUHENG, XIAO YING'AO, ZHU KONGXU
Format:	Patent
Sprache:	chi ; eng
Schlagworte:	APPLYING LIQUIDS OR OTHER FLUENT MATERIALS TO SURFACES, IN GENERAL BLASTING COLOUR PRINTING COMBINED HEATING AND REFRIGERATION SYSTEMS HEAT PUMP SYSTEMS HEATING LIGHTING LINING MACHINES LIQUEFACTION SOLIDIFICATION OF GASES MANUFACTURE OR STORAGE OF ICE MECHANICAL ENGINEERING PERFORMING OPERATIONS PRINTING PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES PROCESSES FOR APPLYING LIQUIDS OR OTHER FLUENT MATERIALS TOSURFACES, IN GENERAL REFRIGERATION MACHINES, PLANTS OR SYSTEMS REFRIGERATION OR COOLING SPRAYING OR ATOMISING IN GENERAL STAMPS TRANSPORTING TYPEWRITERS WEAPONS
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creator	XIA ZHILIN HU JIAQI WANG YUXIANG LU SIQIAN LI BIN JIANG YUHENG XIAO YING'AO ZHU KONGXU
description	The invention discloses a vanadium dioxide self-adaptive radiation cooling device based on an F-P resonant cavity structure and a preparation method of the vanadium dioxide self-adaptive radiation cooling device, and belongs to the technical field of passive radiation cooling. The dynamic radiation cooler comprises a VO2 two-phase mixing layer, an infrared transparent spacing layer and a high infrared reflection layer which are sequentially arranged in an overlapped mode from top to bottom, and the VO2 two-phase mixing layer is arranged in the mode that when the VO2 two-phase mixing layer is in a metal state at the high temperature, radiation refrigeration of the dynamic radiation cooler is started, and radiation refrigeration of the dynamic radiation cooler is started. And when the VO2 two-phase mixing layer is in an insulation state at a low temperature, radiation refrigeration of the dynamic radiation cooler is inhibited. Compared with a traditional static radiation cooling device which has the characteris
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The dynamic radiation cooler comprises a VO2 two-phase mixing layer, an infrared transparent spacing layer and a high infrared reflection layer which are sequentially arranged in an overlapped mode from top to bottom, and the VO2 two-phase mixing layer is arranged in the mode that when the VO2 two-phase mixing layer is in a metal state at the high temperature, radiation refrigeration of the dynamic radiation cooler is started, and radiation refrigeration of the dynamic radiation cooler is started. And when the VO2 two-phase mixing layer is in an insulation state at a low temperature, radiation refrigeration of the dynamic radiation cooler is inhibited. 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The dynamic radiation cooler comprises a VO2 two-phase mixing layer, an infrared transparent spacing layer and a high infrared reflection layer which are sequentially arranged in an overlapped mode from top to bottom, and the VO2 two-phase mixing layer is arranged in the mode that when the VO2 two-phase mixing layer is in a metal state at the high temperature, radiation refrigeration of the dynamic radiation cooler is started, and radiation refrigeration of the dynamic radiation cooler is started. And when the VO2 two-phase mixing layer is in an insulation state at a low temperature, radiation refrigeration of the dynamic radiation cooler is inhibited. 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The dynamic radiation cooler comprises a VO2 two-phase mixing layer, an infrared transparent spacing layer and a high infrared reflection layer which are sequentially arranged in an overlapped mode from top to bottom, and the VO2 two-phase mixing layer is arranged in the mode that when the VO2 two-phase mixing layer is in a metal state at the high temperature, radiation refrigeration of the dynamic radiation cooler is started, and radiation refrigeration of the dynamic radiation cooler is started. And when the VO2 two-phase mixing layer is in an insulation state at a low temperature, radiation refrigeration of the dynamic radiation cooler is inhibited. Compared with a traditional static radiation cooling device which has the characteris</abstract><oa>free_for_read</oa></addata></record>
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language	chi ; eng
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subjects	APPLYING LIQUIDS OR OTHER FLUENT MATERIALS TO SURFACES, IN GENERAL BLASTING COLOUR PRINTING COMBINED HEATING AND REFRIGERATION SYSTEMS HEAT PUMP SYSTEMS HEATING LIGHTING LINING MACHINES LIQUEFACTION SOLIDIFICATION OF GASES MANUFACTURE OR STORAGE OF ICE MECHANICAL ENGINEERING PERFORMING OPERATIONS PRINTING PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES PROCESSES FOR APPLYING LIQUIDS OR OTHER FLUENT MATERIALS TOSURFACES, IN GENERAL REFRIGERATION MACHINES, PLANTS OR SYSTEMS REFRIGERATION OR COOLING SPRAYING OR ATOMISING IN GENERAL STAMPS TRANSPORTING TYPEWRITERS WEAPONS
title	VO2 self-adaptive radiation cooling device based on F-P resonant cavity structure and preparation method of VO2 self-adaptive radiation cooling device
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