Heat and Mass Transfer最新文献

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Effect of dense packed micro-/nano-porous thin film surfaces developed by a combined method of etching, electrochemical deposition and sintering on pool boiling heat transfer performance 采用蚀刻、电化学沉积和烧结相结合的方法制备的致密微/纳米多孔薄膜表面对池沸腾传热性能的影响

IF 2.2 4区工程技术 Q3 MECHANICS

Heat and Mass Transfer

Pub Date : 2023-11-15 DOI: 10.1007/s00231-023-03438-9

Sanjay Kumar Gupta, Rahul Dev Misra

The transportation of quick latent heat during phase change heat transfer (boiling) guides its prospective application in various heat transfer devices. The stability of the fabricated cavity/porous surfaces with the base substrate is a significant concern for the degradation of boiling performance. Therefore, a new three-step surface fabrication method (wet etching, electrochemical deposition, and sintering) is proposed in this work. Initially, the three micro/nanostructured surfaces (ES#3, ES#2, and ES#1) are fabricated by using wet/chemical etching. The best-performing wet/chemical etching surface (ES#3) is further used as a cathode for next-of-surface fabrication, i.e., electrochemical deposition. The electrochemically deposited surface (ES#4) is sintered in a predefined atmosphere to increase the bonding between the coated surface (copper-alumina) and the etching surface (ES#3). The higher boiling performance found on the final surface (ES#4) is due to the proper bonding between the ES#3 and electrodeposited copper-alumina nanoparticles. A decrease in the intermediate resistance due to proper binding boosts the percentage of heat transmission by keeping the temperature constant between the top surface of the heater and the tip of the fin. For ES#4, the critical heat flux (CHF) improvement over bare copper is 98%. Comparing the ES#4 coated surface to the bare copper surface results in a 260% increase in heat transfer coefficient (HTC). The effect of various macro and micro-scale constraints on pool boiling heat transfer phenomena is also investigated. Following multiple testing cycles, the decrease in superheat temperatures, surface morphology, and wettability for ES#4 is significantly lower, which indicates healthier stability of ES#4 surface.

相变传热(沸腾)过程中快速潜热的传递指导了其在各种传热装置中的应用前景。制备的孔洞/多孔表面与基体的稳定性是影响沸腾性能的一个重要因素。因此，本文提出了一种新的三步表面制备方法(湿法蚀刻、电化学沉积和烧结)。最初，三个微/纳米结构表面(ES#3, ES#2和ES#1)是通过湿/化学蚀刻制造的。性能最好的湿/化学蚀刻表面(ES#3)进一步用作下一层表面制造的阴极，即电化学沉积。电化学沉积表面(ES#4)在预定的气氛中烧结，以增加涂层表面(铜氧化铝)和蚀刻表面(ES#3)之间的结合。在最终表面(es# 4)发现较高的沸腾性能是由于es# 3和电沉积铜氧化铝纳米颗粒之间的适当结合。通过保持加热器顶部表面和翅片尖端之间的温度恒定，适当的结合降低了中间电阻，从而提高了传热的百分比。对于es# 4，临界热流密度(CHF)比裸铜提高了98%。将ES#4涂层表面与裸铜表面进行比较，传热系数(HTC)增加260%。研究了各种宏观和微观尺度约束对池沸腾换热现象的影响。经过多次测试循环后，ES#4的过热温度、表面形貌和润湿性的下降幅度明显降低，这表明ES#4表面的稳定性更佳。

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