Locally adaptive controllable wettability coupling microstructure enhanced boiling heat transfer method
A locally adaptive and enhanced boiling technology, applied in the field of enhanced heat transfer, can solve problems such as bubble growth and vaporization core increase, and achieve the effect of improving heat transfer efficiency
Active Publication Date: 2019-04-16
NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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Problems solved by technology
For the microstructure boiling surface of tens of microns or more, limited by processing methods and wettability treatment methods, the bottom of the microstructure is generally a hydrophilic matrix, and the top is treated with hydrophobic treatment; the advantage is that the number of vaporized cores increases, and the bubbles easily rise to the top of the microstructure and grow up; but the disadvantage is also obvious, that is, the bubbles are not easy to get out
Method used
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Embodiment 1
[0035] Single crystal silicon is selected as the heat exchange substrate material, flat, with a size of 30mm×10mm×2mm; the surface is designed with a microcolumn array, the size of the microcolumns is 150μm×150μm×150μm, and the spacing is 200μm; the surface of the heat exchange substrate is metal oxide with excellent thermal conductivity Physical insulating layer with a thickness of 100nm.
[0036] A conductive gold film with a thickness of 100nm is provided as an electrode film on the top of the microcolumn, and the conductive gold film with a thickness of 100nm is used as an electrode lead to connect and lead out the electrode films distributed on the top of the microcolumn. Both have a metal oxide insulating layer with a thickness of 100nm and excellent thermal conductivity.
[0037] Metal copper nanoparticles with a particle size of 30nm are selected, charged with anion and cation surfactants and hydrophobic treatment, and configured into a nanofluid as a heat-exchange worki...
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The invention discloses a locally adaptive controllable wettability coupling microstructure enhanced boiling heat transfer method, and belongs to the technical field of enhanced heat transfer. The locally adaptive controllable wettability coupling microstructure enhanced boiling heat transfer method comprises the specific steps that an electrode film is arranged on a microstructure of a heat transfer base, the electrode film is connected to a metal electrode to form an electric field, charged metal nanoparticles in a heat transfer medium are adsorbed on the heat transfer surface intermittentlyunder the action of the electric field, and the controllable conversion of heat transfer surface wettability is realized. According to the locally adaptive controllable wettability coupling microstructure enhanced boiling heat transfer method, the active controllable conversion of surface wettability is introduced into the boiling process, the nucleation and separation of bubbles are actively controlled, controllable enhanced boiling and adaptive phase heat transfer are possible, and far-reaching academic value and application value are achieved.
Description
technical field [0001] The invention belongs to the technical field of enhanced heat transfer, in particular to a method for enhancing boiling heat transfer with local self-adaptive controllable wettability coupling microstructure. Background technique [0002] As a high-efficiency heat transfer method, boiling phase change heat transfer is widely used in high-efficiency heat exchangers, rockets and other fields that require enhanced heat transfer and rapid cooling. Based on the basic physical understanding of the boiling process, the boiling stage can be divided into natural convection heat transfer, nucleate boiling, transition boiling and film boiling. When the wall superheat is small, the heating surface and the heat exchange fluid mainly exchange heat in the form of natural convection heat transfer. At this time, the heat flux density is low and no boiling bubbles are generated, which is called the natural convection stage; when the wall superheat increases to a certain...
Claims
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Login to View More IPC IPC(8): F28D21/00
CPCF28D21/00
Inventor 陈宏霞肖红洋孙源刘霖
Owner NORTH CHINA ELECTRIC POWER UNIV (BAODING)