A STATE-OF-THE-ART REVIEW ON POOL BOILING ON NANOSTRUCTURE SURFACES

机译：纳米结构表面池沸腾的最新研究

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The differences in the heat transfer coefficient (HTC) and critical heat flux (CHF) behaviors between nanostructured and smooth surfaces are attributed to modifications on the surface wettability and capillarity effects through the porous matrix generated by the nanostructure layer. Both act in order of improving rewetting effects, explaining the CHF augmentation. The fact that the contact angle decreases is commonly considered to justify the HTC reduction for nanostructured surfaces. In this context, this study presents a critical review of the literature concerning the boiling phenomena on nanostructures surfaces. Care is exercised in order of characterizing the nanostructuring methods and compare heat transfer results obtained under almost similar conditions by different authors. Heat transfer mechanisms pointed in the literature as responsible for the heat transfer behaviors are also contrasted.

机译：纳米结构化表面与光滑表面之间的传热系数（HTC）和临界热通量（CHF）行为的差异归因于通过纳米结构层产生的多孔基质对表面润湿性和毛细作用的修改。两者均以改善再润湿效果的顺序起作用，解释了CHF的增加。通常认为接触角减小这一事实证明了纳米结构表面HTC减小的合理性。在这种情况下，这项研究提出了有关纳米结构表面沸腾现象的文献的批判性评论。谨慎行事以表征纳米结构方法，并比较不同作者在几乎相似的条件下获得的传热结果。还对文献中指出的负责传热行为的传热机理进行了对比。

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《2015 Proceedings of the ASME 13th international conference on nanochannels, microchannels, and minichannels》|2015年|V001T04A018.1-V001T04A018.8|共8页
会议地点 Sun Francisco CA(US);San Francisco CA(US)
作者
Isabela Ignacio; Elaine Maria Cardoso; Jose Luiz Gasche; Gherhardt Ribatski;
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UNESP - Univ Estadual Paulista, Department of Mechanical Engineering, Av. Brasil Centro, 56, 15385-000 Ilha Solteira, SP, Brazil;

UNESP - Univ Estadual Paulista, Department of Mechanical Engineering, Av. Brasil Centro, 56, 15385-000 Ilha Solteira, SP, Brazil;

UNESP - Univ Estadual Paulista, Department of Mechanical Engineering, Av. Brasil Centro, 56, 15385-000 Ilha Solteira, SP, Brazil;

Heat Transfer Research Group, Department of Mechanical Engineering, Escola de Engenharia de Sao Carlos (EESC), University of Sao Paulo (USP), Brazil;

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1. Pool boiling and flow boiling on micro- and nanostructured surfaces [J] . Shojaeian Mostafa, Kosar Ali Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2015,第Null期

机译：微结构和纳米结构表面上的池沸腾和流沸腾
2. Experimental determination of the role of increased surface area in pool boiling from nanostructured surfaces [J] . Doran Brendon, Zhang Bin, Walker Abigail, Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2020,第期

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3. Prediction methods for pool boiling heat transfer: A state-of-the-art review [J] . Dieter Gorenflo, Elmar Baumhogger, Gerhard Herres, International Journal of Refrigeration . 2014,第Null期

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4. A STATE-OF-THE-ART REVIEW ON POOL BOILING ON NANOSTRUCTURE SURFACES [C] . Isabela Ignacio, Jose Luiz Gasche, Elaine Maria Cardoso, ASME International Conference on Nanochannels, Microchannels, and Minichannels . 2015

机译：纳米结构表面上的池沸腾的最先进的综述
5. Pool boiling heat transfer from porous-coated surfaces in FC-72: The effects of subcooling and non-boiling immersion time. [D] . Xu, Kuiyan. 2005

机译：FC-72中多孔涂层表面的池沸腾传热：过冷和非沸腾浸泡时间的影响。
6. Pool Boiling of Nanofluids on Biphilic Surfaces: An Experimental and Numerical Study [O] . Eduardo Freitas, Pedro Pontes, Ricardo Cautela, 2021

机译：植物融合在双硅表面上的纳米流体：实验和数值研究
7. Effect of condition of heating surface on pool boiling heat transfer. On boiling for unwettable surface and grooving surface. [O] . Kinichi TORIKAI, Kohoichi SUZUKI, Takashi KANEKO 1989

机译：加热表面条件对池沸腾热传递的影响。煮沸的表面和开槽表面沸腾。

A STATE-OF-THE-ART REVIEW ON POOL BOILING ON NANOSTRUCTURE SURFACES

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