Al2O3/Water纳米流体填充自然循环回路的热性能

IF 1.2 Q4 NANOSCIENCE & NANOTECHNOLOGY
Praveena Devi Nagireddy, S. R. Chalamalasetti, Kiran Kupireddi
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引用次数: 0

摘要

自然循环回路(NCL)也被称为热虹吸系统,是不使用泵或外部装置驱动回路流体的传热回路。本文对水和Al2O3/水纳米流体两种循环流体的热特性进行了对比研究。在自行设计的实验台上进行了实验。给出了回路流体的热水力特性。改变热输入、纳米流体浓度等两个参数,研究其单独和联合效应。综上所述,Al2O3/水纳米流体作为循环流体,其质量流率高于水。计算了不同的派生量,如努塞尔数和格拉绍夫数。对水和Al2O3/水纳米流体进行了定量比较。与水相比,使用氧化铝/水纳米流体作为循环流体,达到稳定状态的时间减少了22%。在1000W热输入下,Al2O3/水纳米流体基NCL的质量流率和Grashof数分别比水基NCL提高了6.75%和26%。在加热器处,由于Al2O3/水纳米流体的热学和输运性能比1000 W热输入的水更好,温度梯度降低了30.2%。当颗粒浓度从1%增加到5%时,当热输入为1000W时,努塞尔数从10.1增加到20.1。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal performance of natural circulation loop filled with Al2O3/Water nanofluid
Natural Circulation Loop (NCL) which is also called as a thermosyphon system is the heat transfer loop which uses no pump or external device to drive the loop fluid. In the present paper, a comparative study on thermal characteristics of two loop fluids viz. water and Al2O3/water nanofluid is made. Experiments are conducted on in-house designed test rig. Thermo-hydraulic behaviour of loop fluid is presented. Two parameters such as heat input, nanofluid concentration are varied in order to study their individual and combined effects. It is concluded that Al2O3/water nanofluid as loop fluid results in higher mass flow rates as compared to the water. Different derived quantities such as Nusselt number and Grashof number are calculated. Quantitative comparison is made between water and Al2O3/water nanofluid. Time to reach steady state is reduced by 22 % using Al2O3/water nanofluid as loop fluid when compared with water. Mass flow rate and Grashof number of the Al2O3/water nanofluid based NCL are enhanced by 6.75% and 26% respectively, when compared with water-based NCL at 1000W heat input. At the heater, the temperature gradient is reduced by 30.2% due to the improved thermal and transport properties of Al2O3/water nanofluid when compared with water at 1000 W heat input. As particle concentration increases from 1% to 5%, Nusselt number increases from 10.1 to 20.1, for the heat input of 1000W.
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来源期刊
international journal of nano dimension
international journal of nano dimension NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
2.80
自引率
20.00%
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