Effect of IF-WS2 Nanolubricant on R134a Boiling on a Reentrant Cavity Surface.

International journal of transport phenomena Pub Date : 2019-02-04 DOI:10.1002/https://doi.org/10.6028/NIST.TN.2033

M. Kędzierski, L. Lin

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引用次数: 4

Abstract

This report quantifies the influence of inorganic fullerene-like tungsten disulfide (IF-WS2) nanoparticles on the pool-boiling performance of R134a/polyolester mixtures on a commercial (Turbo-ESP) boiling surface. Tungsten disulfide nanoparticles, of roughly 150 nm, were used at a 15% mass fraction in a base polyolester lubricant to produce the test nanolubricant. The nanolubricant was mixed with R134a at a 1% mass fraction. The study showed that the nanolubricant caused an average 37% degradation in the boiling heat flux as compared to R134a/neat-lubricant boiling on a reentrant cavity surface at the same superheat. Similarly, boiling with R134a/neat-lubricant caused, on average, a 27% degradation in the boiling heat flux as compared to pure R134a boiling and the same superheat. An analysis was presented which showed that the nanoparticles were too large and too dense to promote a boiling enhancement. In addition, the fullerene-like structure and the large size encouraged nanoparticle settling, which presumably filled cavities of the boiling surface leading to additional boiling degradations.

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IF-WS2纳米润滑剂对R134a在再入腔表面沸腾的影响。

本报告量化了无机富勒烯类二硫化钨（IF-WS2）纳米颗粒对R134a/多元醇酯混合物在商业（Turbo ESP）沸腾表面上的池沸腾性能的影响。在基础多元醇酯润滑剂中以15%的质量分数使用大约150nm的二硫化钨纳米颗粒来生产测试纳米润滑剂。将纳米润滑剂与R134a以1%质量分数混合。研究表明，与R134a/在相同过热度下在凹腔表面上沸腾的纯润滑剂相比，纳米润滑剂的沸腾热通量平均降低37%。类似地，与纯R134a沸腾和相同过热相比，用R134a/纯润滑剂沸腾平均导致27%的沸腾热通量下降。分析表明，纳米颗粒过大、过密，无法促进沸腾增强。此外，富勒烯状结构和大尺寸促进了纳米颗粒的沉淀，这可能填充了沸腾表面的空腔，导致了额外的沸腾降解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of transport phenomena

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