Graphene in the Form of Liquid Suspension by Shear Exfoliation of Liquids: Stability Study of Gasoline, Diesel, Kerosene and Water Based Nanofluids Containing Graphene Nanolayers

Dilan S. Udawattha, Kasthurige Se, M. Narayana
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引用次数: 2

Abstract

Nano fluids consist of thermal conductivity enhancement compared to the base fluid, but the cost of synthesizing of nanoparticles hinders its industrial applications. Recently, it was found that graphene nanolayers can be obtained by shear exfoliation of liquids. Moreover, graphene synthesizes by relatively abandon material graphite. In contrast to conventional heat transfer liquid like water, nanofluids are not transparent to solar thermal applications. It has been proven beyond doubt that kerosene, diesel and gasoline based nanofluids heat transfer coefficient enhancement would improve their efficiency of applications. In this paper water, kerosene, gasoline and diesel based nanofluids containing graphene nanolayers were prepared by shear exfoliation of fluids. Presents of graphene nanolayers were confirmed by scanning electron microscopic images. A spectrophotometer used to measure the stability of water, kerosene, gasoline and diesel nanofluids. Absorption of water-graphene nanofluid was examined to analyze the effectiveness of water based nanofluid for the solar collectors.
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通过剪切剥离液体以液体悬浮液形式存在的石墨烯:含石墨烯纳米层的汽油、柴油、煤油和水基纳米流体的稳定性研究
与基液相比,纳米流体具有导热性增强的特点,但纳米颗粒的合成成本阻碍了其工业应用。最近,人们发现可以通过剪切剥离液体来获得石墨烯纳米层。此外,石墨烯是由相对废弃的材料石墨合成的。与传统的传热液体如水相比,纳米流体对太阳能热应用是不透明的。毫无疑问,提高煤油、柴油和汽油基纳米流体的传热系数将提高其应用效率。本文采用剪切剥离的方法制备了含石墨烯纳米层的水基、煤油基、汽油基和柴油基纳米流体。扫描电镜图像证实了石墨烯纳米层的存在。用于测量水、煤油、汽油和柴油纳米流体稳定性的分光光度计。研究了水-石墨烯纳米流体的吸附性能,分析了水基纳米流体在太阳能集热器中的应用效果。
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