MXene Based Palm Oil Methyl Ester as an Effective Heat Transfer Fluid

Dieter Rahmadiawan; Navid Aslfattahi; N. Nasruddin; Rahman Saidur; A. Arifutzzaman; Hussein A. Mohammed

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MXene Based Palm Oil Methyl Ester as an Effective Heat Transfer Fluid

机译：基于MXENE的棕榈油甲酯作为有效的传热液

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In this research, MXene (Ti_(3)C_(2)) nanoflakes are implanted for the first time with Palm oil methyl ester (POME) to improve the nanofluids (POME/MXene) thermo-physical properties. The preparation, characterization, thermal and rheological properties was evaluated. POME/MXene nanofluid was induced with five different concentrations (0.01, 0.03, 0.05, 0.08, and 0.1 wt.%) of MXene to achieve the optimal properties that would be superior for a new heat transfer fluid. It is found that introducing more MXene nanoflakes into POME would expand the thermo-physical properties which will induce the rapid cooling of MXene based-nanofluids. Maximum enhancement of thermal conductivity for a MXene concentration and temperature of 0.1 wt.% and 65~(o)C respectively was measured to be ~ 176 % compared to the base fluid. Increasing amount of MXene did not effect the viscosity of the nanofluid. These results enable it to be utilized as a promising heat transfer fluid.

机译：在本研究中，使用棕榈油甲酯（Pome）首次植入髓样（Ti_（3）C_（2））纳米薄片，以改善纳米流体（Pome / mxene）热物理性质。评价制备，表征，热和流变性质。用五种不同浓度（0.01,0.03,0.05,0.08和0.1重量％）诱导Pome / mxEne纳米流体，以达到新的传热流体的最佳性能。结果发现，将更多M×纳米薄膜引入底物将扩大热物理性质，该性质将诱导乳蛋白纳米流体的快速冷却。与基础流体相比，测量分别的MxEne浓度和温度为0.1重量％的温度和0.1重量％的温度的最大增强。增加的m烷量没有影响纳米流体的粘度。这些结果使其能够用作有前途的传热液。

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《Journal of nano research》 |2021年第1期|17-34|共18页
作者
Dieter Rahmadiawan; Navid Aslfattahi; N. Nasruddin; Rahman Saidur; A. Arifutzzaman; Hussein A. Mohammed;
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正文语种 eng
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关键词
Viscosity; Heat Transfer Fluid; Nanofluid; Thermal Conductivity; MXenes;

机译：粘度;传热液;纳米流体;导热率;mxenes;
入库时间 2022-08-19 02:28:48

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MXene Based Palm Oil Methyl Ester as an Effective Heat Transfer Fluid

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