Abstract
This paper describes the accelerated ageing of commercially available silvered polymer film by contact cleaning using brushes and water in the presence of soiling created by dust and sand particles. These conditions represent cleaning regimes in real concentrating solar power (CSP) solar fields in arid environments, where contact cleaning using brushes and water is often required to clean the reflecting surfaces. Whilst suitable for glass reflectors, this paper discusses the effects of these established cleaning processes on the optical and visual characteristics of polymer film surfaces, and then describes the development of a more benign but effective contact cleaning process for cleaning polymer reflectors. The effects of a range of cleaning brushes are discussed, with and without the presence of water, in the presence of sand and dust particles from selected representative locations. The experiments were repeated using different experimental equipment at Plataforma Solar de Almería (PSA) in Spain and Cranfield University in the UK. The results highlight differences that are attributable to the experimental methods used. Reflectance measurements and visual inspection show that a soft cleaning brush with a small amount of water, used in a cleaning head with both linear and rotational motion, can clean polymer film reflecting surfaces without inflicting surface damage or reducing specular reflectance.
Highlights
Concentrated solar power is becoming one of the most relevant technologies to cover sustainable cities demands for renewable energy [1,2,3]
The results were validated by carrying out the soiling trials in two locations with different
Silvered polymer film solar reflectors can reduce the cost of solar heating and cooling in experimental apparatuses and different analytical tools
Summary
Concentrated solar power (both thermal and photovoltaic) is becoming one of the most relevant technologies to cover sustainable cities demands for renewable energy [1,2,3]. Parabolic-trough collectors represent the most extended technology both for power generation with concentrating solar power (CSP) plants [4] and to cover the thermal energy demand in the temperature range from 100 to 250 ◦ C in applications such as industrial process heat, domestic hot water, space heating, solar cooling, pumping irrigation water, organic Rankine cycles, and desalination [5]. The performance of parabolic-trough plants is critically dependent on the optical efficiency of the solar field, within which the reflectance of the solar collector mirrors play a major role [6]. One of the important aspects that may degrade the mirror surface is the cleaning task, mainly when it involves a contact device, which sometimes is indispensable for removing a soiling layer that is strongly attached [8]
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