Fabrication and Characterisation of Slim Flat Vacuum Panels Suitable for Solar Applications

Arya, Farid; Hyde, Trevor; Henshall, Paul; Eames, Philip C.; Moss, R.W.; Shire, Stan

doi:10.18086/eurosun.2014.16.02

Cited by 2 publications

(2 citation statements)

References 5 publications

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“…Vacuum FPSCs have a great advantages, which include excellent thermal characteristics and optical properties due to a combination of high vacuum thermal insulation and their wide surface area [110]. However, maintaining the vacuum in FPSC is a major challenge that depends on the materials used in fabrication, forming a durable hermetic seal around the periphery of the vacuum [111]. In order to eliminate convective losses, several researchers have directed their studies by creating a vacuum around the absorber.…”

Section: Vacuum Collectormentioning

confidence: 99%

Performance Augmentation of the Flat Plate Solar Thermal Collector: A Review

et al. 2021

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The need for hot water in residential buildings requires a significant energy potential. Therefore, an efficient water heating system is important to achieve the goal of saving high-grade energy. The most simple and cheapest solar water heater is a flat plate solar collector (FPSC), which can increase the thermal energy of fluid by absorbing solar radiation. The performance of FPSC is comparatively low due to the dilute nature of solar insolation. Therefore, advancement of FPSC is being undertaken to improve the performance and achieve size reduction. In past, several techniques have been exploited to improve the performance of FPSC, which are presented in the present paper. These techniques include surface modifications, use of nanofluids, solar selective coating, and applications of a mini/macro channel, heat pipe, and vacuum around absorber. Surface modification on the absorber/absorber tube techniques are exploited to transfer the maximum possible solar energy to working fluids by increasing the heat transfer rate. Insertion of wire mesh, coil, and twisted tapes in the flow has great potential to increase the Nusselt number by 460% at the expense of a large pressure drop. Selective coating of Cu0.44 Ti0.44 Mn0.84 helps to absorb up to 97.4% of the incident solar energy, which is more significant. Many nanofluids have been exploited as heat transfer fluids, as they not only increase the performance but also reduce the fluid inventory. So, these techniques play a very prominent role in the performance of FPSC, which are discussed in detail. Summaries of the results are presented and recommendations proposed.

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Section: Vacuum Collectormentioning

confidence: 99%

Performance Augmentation of the Flat Plate Solar Thermal Collector: A Review

et al. 2021

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“…The convective heat losses resulting in higher efficiencies is reduced by creating a vacuum (less than 0.01mbar) around a solar absorbent due to use evacuated windows. Prototypes of flat vacuum panels with solar applications were fabricated and tested by Arya et al 2015 [10]. Heat transfer enhancement in microchannel using extended surface has been carried out numerically by Yadav et al 2016 [11].…”

Section: Introductionmentioning

confidence: 99%

Vacuum Effect on the Performance of Solar Air Collector with Micro-Channel Absorber Plate

Jalil

Abdulkadhim

2019

ETJ

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Fabrication and Characterisation of Slim Flat Vacuum Panels Suitable for Solar Applications

Cited by 2 publications

References 5 publications

Performance Augmentation of the Flat Plate Solar Thermal Collector: A Review

Performance Augmentation of the Flat Plate Solar Thermal Collector: A Review

Vacuum Effect on the Performance of Solar Air Collector with Micro-Channel Absorber Plate

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