Curve-fitting on experimental data for predicting the thermal-conductivity of a new generated hybrid nanofluid of graphene oxide-titanium oxide water

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Curve-fitting on experimental data for predicting the thermal-conductivity of a new generated hybrid nanofluid of graphene oxide-titanium oxide water

机译：用于预测石墨烯氧化钛水的新型杂化纳米流体的导热系数的实验数据曲线

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The objective of this experimental study is to study the effects of a hybrid utilization of graphene oxide (GO) and titanium oxide (TiO2) nano-materials on the water thermal-conductivity. The experiments were carried out for different concentrations of 0.05, 0.1, 0.2, 0.4, 0.6, 0.8 and 1% and in the temperature range of 20 to 50 degrees C. The experiments showed that higher temperature and concentrations of nano-materials result in a higher the thermal-conductivity. The maximum thermal-conductivity enhancement was 32.8%. Moreover, a new accurate correlation for the thermal-conductivity was presented based on the experimental data obtained in the laboratory in terms of temperature and nano-materials volume fraction. (C) 2019 Elsevier B.V. All rights reserved.

机译：该实验研究的目的是研究石墨烯（GO）和氧化钛（TiO 2）纳米材料对水导热率的影响。对于不同浓度的0.05,0.1,0.2,0.4,0.6,0.8和1％，在20至50℃的温度范围内进行实验。实验表明，纳米材料的较高温度和浓度产生越高导热率。最大导热性增强为32.8％。此外，基于在温度和纳米材料体积分数方面基于实验室中获得的实验数据，提出了对导热率的新准确相关性。（c）2019 Elsevier B.v.保留所有权利。

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《Physica, A. Statistical mechanics and its applications》 |2020年第2020期|共11页
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正文语种 eng
中图分类物理学;
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Curve-fitting; Hybrid nanofluid; Thermal-conductivity; Graphene and titanium oxides;

机译：曲线拟合;杂交纳米流体;导热率;石墨烯和氧化钛;

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1. Curve-fitting on experimental data for predicting the thermal-conductivity of a new generated hybrid nanofluid of graphene oxide-titanium oxide water [J] . Physica, A. Statistical mechanics and its applications . 2020,第期

机译：用于预测石墨烯氧化钛水的新型杂化纳米流体的导热系数的实验数据曲线
2. An experimental study on stability and thermal conductivity of water-graphene oxide/aluminum oxide nanoparticles as a cooling hybrid nanofluid [J] . International Journal of Heat and Mass Transfer . 2019,第DECa期

机译：氧化石墨烯/氧化铝纳米颗粒作为冷却杂化纳米流体的稳定性和导热性的实验研究
3. Using perceptron feed-forward Artificial Neural Network (ANN) for predicting the thermal conductivity of graphene oxide-Al2O3/water-ethylene glycol hybrid nanofluid [J] . Shaopeng Tian, Noreen Izza Arshad, Davood Toghraie, Case Studies in Thermal Engineering . 2020,第a期

机译：使用感知馈电前馈人工神经网络（ANN）预测石墨烯氧化物-Al2O3 /水 - 乙二醇杂交纳米流体的导热率
4. EXPERIMENTAL INVESTIGATION OF GRAPHENE OXIDE NANOFLUIDS ON THERMAL PERFORMANCE OF HEAT PIPE [C] . Weilin Zhao, Jun Xu, Jinkai Li International Conference on Micro/Nanoscale Heat and Mass Transfer . 2019

机译：氧化石墨烯纳米流体对热管热性能的实验研究
5. The effect of graphene nanoplatelet volume fraction on water graphene nanofluid thermal conductivity and viscosity [D] . Bahaya, Bernard. 2014

机译：石墨烯纳米片的体积分数对水石墨烯纳米流体导热系数和粘度的影响
6. Improving pitting corrosion resistance of the commercial titanium through graphene oxide-titanium oxide composite [O] . Talal A. Aljohani, Muntathir I. Albeladi, Basheer A. Alshammari 2021

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7. Multilevel ultrafast flexible nanoscale nonvolatile hybrid graphene oxide-titanium oxide memories [O] . Nagareddy VK, Barnes MD, Zipoli F, 2017

机译：多级超快柔性纳米级非易失性氧化石墨烯-氧化钛杂化存储器

Curve-fitting on experimental data for predicting the thermal-conductivity of a new generated hybrid nanofluid of graphene oxide-titanium oxide water

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