EFFECT OF NANOFLUID FLOW AND PROTRUSION RIBS ON PERFORMANCE IN SQUARE CHANNELS: AN EXPERIMENTAL INVESTIGATION

Kumar Sunil; Kothiyal Alok Darshan; Bisht Mangal Singh; Kumar Anil

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EFFECT OF NANOFLUID FLOW AND PROTRUSION RIBS ON PERFORMANCE IN SQUARE CHANNELS: AN EXPERIMENTAL INVESTIGATION

机译：纳米流体流动和突出肋对方形通道性能的影响：一项实验研究

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Effects of nanofluid flow and protrusion transverse rib roughness particle concentration, particle diameter, stream wise pitch, span wise pitch, relative print diameter ratio, and Reynolds number on the thermal and hydrodynamic performance of square channel were analyzed. The nanofluid was prepared as solid nanoparticles of Al2O3 suspended in distilled water. Thermal hydrodynamic performance was determined for different sets of protrusion transverse rib roughness and flow parameters. The highest value of thermal hydrodynamic is observed at nanoparticle concentration of 4.0%, particle diameter of 30, stream wise pitch, of 1.79, span wise pitch of 1.79, and relative print diameter ratio of 1.0. The maximum value of the hydrodynamic and thermal performance was 2.37 for the range of parameters examined.

机译：分析了纳米流体流动和突出的横向肋粗糙度颗粒浓度，粒径，流向节距，跨度节距，相对印刷直径比和雷诺数对方通道热和流体力学性能的影响。将纳米流体制备为悬浮在蒸馏水中的Al2O3固体纳米颗粒。确定了不同组的突出物横向肋的粗糙度和流动参数的热流体动力学性能。在纳米颗粒浓度为4.0％，粒径为30，流向螺距为1.79，跨径螺距为1.79，相对打印直径比为1.0时观察到最高的热流体动力学值。在所检查的参数范围内，水动力和热力性能的最大值为2.37。

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来源
《Journal of enhanced heat transfer》 |2019年第1期|75-100|共26页
作者
Kumar Sunil; Kothiyal Alok Darshan; Bisht Mangal Singh; Kumar Anil;
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作者单位

Uttarakhand Tech Univ, Dept Math, Dehra Dun 248007, Uttar Pradesh, India|Shoolini Univ, Sch Mech & Civil Engn, Solan 173229, India;

BFIT Dehradun, Dept Math, Uttarakhand 248007, India;

Govind Ballabh Pant Engn Coll, Dept Math, Uttarakhand 246194, India;

Shoolini Univ, Sch Mech & Civil Engn, Solan 173229, India|Shoolini Univ, Himalayan Ctr Excellence Nanotechnol, Solan 173229, India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
heat transfer enhancement; nanofluid; rough surface; friction factor;

机译：传热增强纳米流体粗糙表面摩擦系数;

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1. TiO_2H_2O nanofluid flow and heat transfer analysis in V-pattern with combined protrusion obstacle square channel: experimental analysis and CFD validation [J] . Yashwant Singh, Anil Kumar, Rajesh Maithani, International journal of ambient energy . 2021,第1a8期

机译：TiO_2H_2O纳米流体流量和传热分析V形型突出障碍物频道：实验分析和CFD验证
2. Numerical analysis of thermal hydraulic performance of nanofluid flowing through a protrusion obstacles square mini channel [J] . Sunil Kumar, Alok Darshan Kothiyal, Mangal Singh Bisht, Case Studies in Thermal Engineering . 2017,第1期

机译：纳米流体流经突出障碍方形小通道的热工水力性能数值分析
3. Entropy Generation and Heat Transfer Performances of Al 2 O 3 -Water Nanofluid Transitional Flow in Rectangular Channels with Dimples and Protrusions [J] . Yonghui Xie, Lu Zheng, Di Zhang, Entropy . 2016,第4期

机译：带有凹痕和突起的矩形通道中Al 2 O 3-水纳米流体过渡流的熵产生和传热性能
4. Effect of Ratio of Protrusion Height to Print Diameter on Thermal Behaviour of Al_2O_3-H_2O Nanofluid Flow in a Protrusion Obstacle Square Channel [C] . Sunil Kumar, Alok Darshan Kothiyal, Mangai Singh Bisht, International Conference on Intelligent Communication, Control and Devices . 2017

机译：突起高度与印刷直径的影响突出障碍物径沟槽中Al_2O_3-H_2O纳米流体流动的热行为
5. Experimental Investigation of Heat Transfer Performance in Turbine Airfoil Cooling Channels Roughened with Wrap-Around Ribs. [D] . Yang, Fan. 2016

机译：涡流肋肋涡轮机翼冷却通道传热性能的实验研究。
6. Investigation of Laminar Convective Heat Transfer for Al2O3-Water Nanofluids Flowing through a Square Cross-Section Duct with a Constant Heat Flux [O] . Hsien-Hung Ting, Shuhn-Shyurng Hou 2015

机译：Al2O3-水纳米流体在恒定通量下通过方形截面管道的层流对流换热研究
7. Numerical analysis of thermal hydraulic performance of Al2O3–H2O nanofluid flowing through a protrusion obstacles square mini channel [O] . Sunil Kumar, Alok Darshan Kothiyal, Mangal Singh Bisht, 2017

机译：al2O3-H2O纳米流体突出障碍物方形微通道热工水力性能数值分析

EFFECT OF NANOFLUID FLOW AND PROTRUSION RIBS ON PERFORMANCE IN SQUARE CHANNELS: AN EXPERIMENTAL INVESTIGATION

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