Optical properties and photothermal conversion performances of graphene based nanofluids

Optical properties and photothermal conversion performances of graphene based nanofluids

•Single-layer graphene and GO nanofluids were designed for solar thermal application.•Uniform temperature distribution is achieved in nanofluids based on the RI-DASC mode.•The photothermal conversion efficiency of SLG is 49.13% at 100 ppm in the RI-DASC mode.•The photothermal conversion efficiency o...

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Bibliographic Details
Published in:Applied thermal engineering Vol. 203; p. 117948
Main Authors: Li, Zhijing, Kan, Ankang, Wang, Kongxiang, He, Yan, Zheng, Ni, Yu, Wei
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 25-02-2022
Elsevier BV
Subjects:
Carbon
Direct absorption solar collectors
Energy absorption
Energy utilization
Graphene
Graphite
Irradiation
Nanofluids
Optical properties
Optical property
Photothermal conversion
Photovoltaic cells
Solar collectors
Solar energy
Direct absorption solar collectors
Optical property
Graphene
Photothermal conversion
Nanofluids
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Summary:•Single-layer graphene and GO nanofluids were designed for solar thermal application.•Uniform temperature distribution is achieved in nanofluids based on the RI-DASC mode.•The photothermal conversion efficiency of SLG is 49.13% at 100 ppm in the RI-DASC mode.•The photothermal conversion efficiency of GO reaches 46.26% at 100 ppm in the RI-DASC mode. Direct absorption solar collectors (DASC) are extremely attractive in solar energy utilization. In this paper, starting from these two aspects, graphene-based nanofluids, including single-layer graphene (SLG) and graphene oxide (GO), are prepared to enhance solar absorption and photothermal conversion performance. The influence of nanofluids' concentration and two different irradiation modes: traditional DASC and reverse radiation DASC (RI-DASC) on the photothermal conversion performance of graphene-based nanofluids has been studied. The addition of a small amount of SLG or GO significantly improves the photothermal conversion efficiency of base fluid, and it increases along with the increase of the concentration. Furthermore, the RI-DASC mode has a more uniform thermal field distribution and the higher photothermal conversion efficiency than the DASC mode. In DASC mode, the photothermal conversion efficiency of pure water is 17.00%. By changing the irradiation mode, the introduction of GO and SLG nanofluids (100 ppm) increased the photothermal conversion efficiency by about 172% and 189%, reaching 46.26% and 49.13%. According to the photothermal-thermoelectric conversion experiment, the positive correlation between the output power of the TE module and the heating state of the nanofluid makes it possible to adjust the nanofluid in real-time. This work presents a feasible way to enhance solar energy absorption and improve the photothermal conversion efficiency of nanofluids for DASC.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2021.117948