Graphene nanoplatelet nanofluids stabilised by hybridisation with graphene oxide: preparation, stability, and performance in flat plate solar thermal collector

Huq Tahsinul; Ong Hwai Chyuan; Chew Bee TengKazi Salim NewazZubir Mohd Nashrul MohdOng Zhi ChaoAzlan Nuralmeera Balqis Binti Mohd

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Graphene nanoplatelet nanofluids stabilised by hybridisation with graphene oxide: preparation, stability, and performance in flat plate solar thermal collector

机译：Graphene nanoplatelet nanofluids stabilised by hybridisation with graphene oxide: preparation, stability, and performance in flat plate solar thermal collector

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Abstract This study examined hybrid nanofluids of graphene nanoplatelets (GNP) and graphene oxide (GO) in terms of their stability and performance as a working fluid in a flat plate solar thermal collector. Instead of functionalisation, this experiment utilises the synergetic effect of GO, which stabilises GNP nanofluids by acting like an amphiphilic surfactant. Experimental results found that stability is significantly improved with a sufficiently high concentration of GO. Stability improved as the proportion of GO was increased. In particular, the sample with an equal 50:50 ratio of GNP and GO showed good stability in sedimentation measurements, retaining over 90 of its concentration over one month. Stability was also measured under working pipe flow conditions in a solar collector test rig. This type of data has not previously been reported in the literature. Measurement of the change in concentration showed that in addition to sedimentation, concentration loss can occur via an alternative mechanism: deposition of the nanoparticles inside the pipes. The pristine GNP sample lost over 80 of its concentration over one day of running in the test rig, despite showing moderate stability over one month under still conditions. This shows that measurement of stability in still conditions does not fully describe the stability of nanofluids intended to be working fluids in heat transfer. The sample with a 50:50 ratio of GNP and GO retained around 66 of its concentration over five days of running in the test rig, and the concentration seemed to stabilise, reaching equilibrium, implying no further decreases. Viscosity measurements showed a small increase. Despite the moderately encouraging stability results, however, solar collector testing showed no discernible change in heat transfer performance when using nanofluids compared to water, making these nanofluids unsuitable for this particular flat plate solar collector design.

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来源
《Journal of thermal analysis and calorimetry》 |2023年第5期|2105-2118|共14页
作者
Huq Tahsinul; Ong Hwai Chyuan; Chew Bee TengKazi Salim NewazZubir Mohd Nashrul MohdOng Zhi ChaoAzlan Nuralmeera Balqis Binti Mohd;
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作者单位

National Yunlin University of Science and Technology;

University of Malaya;

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正文语种英语
中图分类物理化学（理论化学）、化学物理学;
关键词
Graphene nanoplatelets; Graphene oxide; Nanofluid; Heat transfer; Solar thermal collector;

Graphene nanoplatelet nanofluids stabilised by hybridisation with graphene oxide: preparation, stability, and performance in flat plate solar thermal collector

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