纳米纤维素-乙二醇纳米流体热物理性质的实验研究

Journal of Advanced Research in Materials Science Pub Date : 2020-06-15 DOI:10.37934/arms.69.1.115

K. Farhana, K. Kadirgama, M. Rahman, M. M. Noor, D. Ramasamy, M. Samykano, W. Azmi, F. Tarlochan, A. S. F. Mahamude, G. Najafi, N. Sidik, S. N. A. Yusof

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引用次数: 3

摘要

摘要本实验研究的目的是评估晶体纳米纤维素(CNC)纳米流体的热行为。水溶液乙二醇(60:40;W: EG)作为基础液，这里指定了0.1%、0.3%和0.5%的体积浓度。采用两步法制备了晶体纳米纤维素纳米流体。采用标准的测量方法和设备对导热系数、粘度、密度、比热容和pH值进行了测定。在本研究中，0.3%的CNC纳米流体在80℃时导热系数提高了约25%;粘度降低;0.1%的纳米流体在80℃时粘度性能最低。此外，随着温度的升高，0.5%的CNC纳米流体的比热衰减性能更好，高达70℃，密度测量误差最小。然而，一些实验数据是

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Experimental Studies on Thermo-Physical Properties of Nanocellulose–Aqueous Ethylene Glycol Nanofluids

Iran ABSTRACT The aim of this experimental research study is to evaluate the thermal behaviour of crystal nanocellulose (CNC) nanofluids. Aqueous ethylene glycol (60: 40; W: EG) used as base fluid and 0.1%, 0.3% and 0.5% volume concentrations were designated here. Crystal nanocellulose nanofluids were prepared by two-step method. Thermal conductivity, viscosity, density, specific heat capacity and pH were assessed with standard measurement method and equipment. In this present work, thermal conductivity of 0.3% CNC nanofluids was increased of about 25% at 80 0 c; viscosity decreased; 0.1% nanofluid exhibit lowest viscosity performance at 80 0 c. In addition to this, 0.5% CNC nanofluid performed better declination of specific heat with increasing temperature up to 70 0 C and lowest error percentage in density measurement. However, some data of the experiments were

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Journal of Advanced Research in Materials Science

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