HEAT EXCHANGES INTENSIFICATION THROUGH A FLAT PLAT SOLAR COLLECTOR BY USING NANOFLUIDS AS WORKING FLUID

Maouassi A.; Baghidja A.; Douad S.; Zeraibi N.

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HEAT EXCHANGES INTENSIFICATION THROUGH A FLAT PLAT SOLAR COLLECTOR BY USING NANOFLUIDS AS WORKING FLUID

机译：通过使用纳米流体作为工作流体，通过平板太阳能集热器进行热交换强化

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This paper illustrates how practical application of nanofluids as working fluid to enhance solar flat plate collector efficiency. A numerical investigation of laminar convective heat transfer flow throw a solar collector is conducted, by using CuO-water nanofluids. The effectiveness of these nanofluids is compared to conventional working fluid (water), wherein Reynolds number and nanoparticle volume concentration in the ranges of 25–900 and 0–10 % respectively. The effects of Reynolds number and nanoparticles concentration on the skin-friction and heat transfer coefficients are presented and discussed later in this paper. Results show that the heat transfer increases with increasing both nanoparticles concentration and Reynolds number, where nanofluid CuO-water gives best improvement in terms of heat transfer. Full Text: PDF DOI: http://dx.doi.org/10.5098/hmt.10.35 ISSN: 2151-8629 About Us | Contact Us | Terms of Use | Privacy Policy | Disclaimer

机译：本文说明了如何将纳米流体作为工作流体实际应用来提高太阳能平板集热器效率。利用CuO-水纳米流体对层流对流换热流向太阳能集热器进行了数值研究。这些纳米流体的功效与常规工作流体（水）相比，其中雷诺数和纳米颗粒体积浓度分别在25％至900％和0％至10％的范围内。雷诺数和纳米粒子浓度对皮肤摩擦和传热系数的影响将在本文中介绍和讨论。结果表明，随着纳米颗粒浓度和雷诺数的增加，传热增加，其中纳米流体CuO-水在传热方面具有最佳的改善。全文：PDF DOI：http://dx.doi.org/10.5098/hmt.10.35 ISSN：2151-8629关于我们|联系我们|使用条款|隐私政策|免责声明

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《Frontiers in Heat and Mass Transfer》 |2018年第0期|共页
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Maouassi A.; Baghidja A.; Douad S.; Zeraibi N.;
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Frontiers in Heat and Mass TransferFrontiers in Fluid MechanicsFrontiers in Combustionthermal fluidscombustionfluid mechanicsheat and mass transferscienceengineering;

机译：传热传质前沿流体力学前沿燃烧热流体前沿流体力学传热与传质科学工程;

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1. HEAT EXCHANGES INTENSIFICATION THROUGH A FLAT PLAT SOLAR COLLECTOR BY USING NANOFLUIDS AS WORKING FLUID [J] . Maouassi A., Baghidja A., Douad S., Frontiers in Heat and Mass Transfer . 2018,第0期

机译：通过使用纳米流体作为工作流体，通过平板太阳能集热器进行热交换强化
2. Thermoeconomic assessment of integrated solar flat plat collector with cross flow heat exchanger as solar air heater using numerical analysis [J] . Hajabdollahi Hassan Renewable energy . 2021,第May期

机译：具有数值分析的跨流动热交换器与跨流动热交换器的综合太阳能平面平板电池的热经济评估
3. No-Contact Method of Determining Average Working-Surface Temperature of Plate-Type Radiation-Absorbing Thermal Exchange Panels of Flat Solar Collectors for Heating Heat-Transfer Fluid [J] . N. R. Avezova, R. R. Avezov Applied solar energy . 2015,第2期

机译：确定接触式平板集热器的平板型辐射吸收热交换板平均工作表面温度的无接触方法
4. Heat transfer by nanofluids through a flat plate solar collector [C] . Rehena Nasrin, Salma Parvin, MA Alim International Conference on Mechanical Engineering . 2015

机译：通过平板太阳能收集器通过纳米流体传热
5. Nanofluids development and characterization for heat exchanging intensification = [D] . Lamas, Bruno Cardoso. 2013

机译：纳米流体的发展和热交换强度表征=
6. Flat plate solar collector performance using alumina nanofluids: Experimental characterization and efficiency tests [O] . Rosa Mondragón, Daniel Sánchez, Ramón Cabello, -1

机译：使用氧化铝纳米流体的平板太阳能集热器性能：实验表征和效率测试
7. HEAT EXCHANGES INTENSIFICATION THROUGH A FLAT PLAT SOLAR COLLECTOR BY USING NANOFLUIDS AS WORKING FLUID [O] . A. Maouassi, A. Baghidja, S. Douad, 2018

机译：通过使用纳米流体作为工作流体，热交换通过平板太阳能收集器的强化
8. Organic Rankine Cycle Coupled to a Solar Pond by Direct-Contact Heat Exchange - Selection of a Working Fluid [R] . Wright, J. D. 1982

机译：有机朗肯循环通过直接接触式热交换耦合到太阳池 - 选择工作流体

HEAT EXCHANGES INTENSIFICATION THROUGH A FLAT PLAT SOLAR COLLECTOR BY USING NANOFLUIDS AS WORKING FLUID

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