Evaluation of the thermophysical and heating properties of a composite rubber membrane with energy harvesting purposes

This paper evaluates the thermal behaviour of recycled rubber membranes from End of Life Tyres (ELTs) reinforced with steel wool fibres, and their potential use as solar collectors. The thermophysical and heating properties of the rubber membranes with different steel wool fibre contents were evalua...

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Bibliographic Details
Published in:Polymer testing 2017-12, Vol.64, p.145-155
Main Authors: Norambuena-Contreras, J., Concha, J.L., Borinaga-Treviño, R.
Format: Article
Language:English
Subjects:
Construction materials
End of life
Energy harvesting
Fibre influence
Heating
Heating rate
Membranes
Rubber
Rubber membranes
Solar collector prototype
Solar collectors
Solar energy
Solar radiation
Steel fibers
Studies
Thermal performance
Thermophysical properties
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Summary:This paper evaluates the thermal behaviour of recycled rubber membranes from End of Life Tyres (ELTs) reinforced with steel wool fibres, and their potential use as solar collectors. The thermophysical and heating properties of the rubber membranes with different steel wool fibre contents were evaluated. The thermal performance of a solar collector prototype manufactured with these membranes was also evaluated. It was proven that the addition of metallic fibres can increase the amount of heat absorbed and the heating rate in the membranes. However, fibre addition over 0.5%/v does not contribute to an increase in the temperature reached. A solar collector prototype fabricated with rubber membranes with 0.5%/v of fibres can transmit the heat absorbed by the membrane to the water, reaching a temperature of 45 °C, thus demonstrating that it can be used as new sustainable construction material for energy harvesting applications. •Rubber membranes containing metallic fibres were used to build a solar collector.•Thermophysical and heating properties as radiation absorbing material were analysed.•Metallic fibres added to the membranes increased their thermophysical properties.•Heating does not depend on the fibres content, but on their distribution inside the membranes.•Rubber membranes can be used as solar collector with low-temperature applications.
ISSN:0142-9418
1873-2348
DOI:10.1016/j.polymertesting.2017.09.042