Performance enhancement study of ag@
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              SiO
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            core‐shell nanoplate plasmonic hybrid spectral splitting nanofluid based photovoltaic thermal system in a temperate region

Meraje, Warga Chegeno; Huang, Ching-Cheng; Ujihara, Masaki; Kuo, Chung‐Feng Jeffrey

doi:10.1002/er.8202

Cited by 3 publications

(1 citation statement)

References 69 publications

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“…Existing studies reported that solar absorbance over 98% in the optical length under 10 mm could be secured by various types of NPs [33]. Moreover, it is reported that solar radiative energy can be efficiently converted to thermal energy by techniques like modified shape [13,18,19,21], dopping [16,34] of NPs, and hybrid NF [6,[35][36][37] for considering solar spectrum distribution characteristics.…”

Section: Introductionmentioning

confidence: 99%

Numerical Study of Thermal Performance Influence on Design Parameter and Fe3O4 Nanofluid of Flat Plate Direct Absorption Solar Collector

Tong

Ham

Cho

2023

International Journal of Energy Research

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In this study, the influence of design factors (concentration of Fe3O4 nanofluid (NF), mass flow rate, FPDASC height, and emissivity of the receiver) of flat plate direct absorption solar collector (FPDASC) using Fe3O4 NF was investigated using the CFD (computational fluid dynamics) method. As a result, when the concentration of Fe3O4 NF increases up to 0.1 wt%, the thermal and exergy efficiencies increase by 0.773 and 0.0293, respectively, due to the increased optical absorbance. Increasing the mass flow rate of Fe3O4, NF decreases the outlet temperature; however, thermal efficiency increases due to reduced heat loss and improved heat transfer. Moreover, there is little effect on the irreversibility of the FPDASC due to the Bejan number with almost one, although the mass flow rate increases the pressure loss. The increasing height of the FPDASC and the emissivity of the receiver improve the thermal and exergy efficiencies in the case of water with low optical absorbance. In contrast, the increasing height of the FPDASC and the emissivity of the receiver decrease the thermal and exergy efficiencies when the optical absorbance is high (0.1 wt% Fe3O4 NF).

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Section: Introductionmentioning

confidence: 99%

Numerical Study of Thermal Performance Influence on Design Parameter and Fe3O4 Nanofluid of Flat Plate Direct Absorption Solar Collector

Tong

Ham

Cho

2023

International Journal of Energy Research

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Performance analysis of a nanofluid spectral splitting concentrating PV/T system with triangular receiver based on MCRT-FVM coupled method

Ma,

Han,

Chen

et al. 2024

Applied Thermal Engineering

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Optimization and performance assessment of Ag@SiO2 core–shell nanofluids for spectral splitting PV/T system: Theoretical and experiment analysis

Xu,

Chen,

Yuan

et al. 2024

Solar Energy

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Performance enhancement study of ag@ SiO ₂ core‐shell nanoplate plasmonic hybrid spectral splitting nanofluid based photovoltaic thermal system in a temperate region

Cited by 3 publications

References 69 publications

Numerical Study of Thermal Performance Influence on Design Parameter and Fe3O4 Nanofluid of Flat Plate Direct Absorption Solar Collector

Numerical Study of Thermal Performance Influence on Design Parameter and Fe3O4 Nanofluid of Flat Plate Direct Absorption Solar Collector

Performance analysis of a nanofluid spectral splitting concentrating PV/T system with triangular receiver based on MCRT-FVM coupled method

Optimization and performance assessment of Ag@SiO2 core–shell nanofluids for spectral splitting PV/T system: Theoretical and experiment analysis

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Performance enhancement study of ag@ SiO 2 core‐shell nanoplate plasmonic hybrid spectral splitting nanofluid based photovoltaic thermal system in a temperate region

Cited by 3 publications

References 69 publications

Numerical Study of Thermal Performance Influence on Design Parameter and Fe3O4 Nanofluid of Flat Plate Direct Absorption Solar Collector

Numerical Study of Thermal Performance Influence on Design Parameter and Fe3O4 Nanofluid of Flat Plate Direct Absorption Solar Collector

Performance analysis of a nanofluid spectral splitting concentrating PV/T system with triangular receiver based on MCRT-FVM coupled method

Optimization and performance assessment of Ag@SiO2 core–shell nanofluids for spectral splitting PV/T system: Theoretical and experiment analysis

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Performance enhancement study of ag@ SiO ₂ core‐shell nanoplate plasmonic hybrid spectral splitting nanofluid based photovoltaic thermal system in a temperate region