Pressure drop characteristics and efficiency enhancement by using TiO_2-H_2O nanofluid in a sustainable solar thermal energy collector

T. V. R. Sekhar; Ravi Prakash; Gopal Nandan; M. Muthuraman

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Pressure drop characteristics and efficiency enhancement by using TiO_2-H_2O nanofluid in a sustainable solar thermal energy collector

机译：使用TiO_2-H_2O纳米流体在可持续的太阳能热能集电器中的压降特性和效率增强

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摘要

Titania nanofluid is procured and six different volumes fractions are prepared and homogenised. The nanofluid is subjected to experimental study in a built sustainable solar thermal energy collector model. Theoretical models for the calculation of pressure drop are used and the values are compared with results obtained using experimental setup. The experimental values obtained are on the higher side. At a volume fraction of 3% of the titania nanofluid, the collector exhibited thermal efficiency of 56% with a pressure drop of 16 mm of water column. This is compared with values using water with 28% thermal efficiency at a pressure drop of 4.5 mm of water column. Finally, a model is developed to predict the pressure drop and thermal efficiency by using TiO_2-H_2O nanofluid in a solar thermal energy collector.

机译：采购二氧化钛纳米流体，制备六种不同的体积级分并均化。在建造的可持续太阳能热能收集器模型中进行纳米流体进行实验研究。使用压降计算的理论模型，并将值与使用实验设置获得的结果进行比较。获得的实验值在较高侧。在三氧化钛纳米流体的3％的体积分数下，收集器表现出56％的热效率，压降为16mm水柱。将其与使用28％的水柱压降的水效率的水进行比较。最后，开发了一种模型来通过在太阳能热能集电器中使用TiO_2-H_2O纳米流体来预测压降和热效率。

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来源
《International Journal of Environment and Sustainable Development》 |2018年第3期|共22页
作者
T. V. R. Sekhar; Ravi Prakash; Gopal Nandan; M. Muthuraman;
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作者单位

Department of Mechanical and Automation Engineering Amity University;

Department of Mechanical and Automation Engineering Amity University;

Department of Mechanical and Automation Engineering Amity University;

Project Engineering Boiler and Auxiliaries NTPC Limited;

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原文格式 PDF
正文语种 eng
中图分类环境与发展;
关键词
Efficiency; Pressure drop; Solar thermal; Titania;

机译：效率;压降;太阳能热量;二氧化钛;

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Pressure drop characteristics and efficiency enhancement by using TiO_2-H_2O nanofluid in a sustainable solar thermal energy collector

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