Improving condensing performance of a low-cost floating solar still by surface characteristic alteration

This work focuses on improving the performance of floating solar still by varying wettability and contact angle hysteresis of the cover surface. Static and dynamic characteristics of droplets on transparent PVC sheet and antifog film are measured and applied on a floating solar still prototype. The experimental result shows that wettability is insignificant to transmissivity and absorber temperature since the static contact angles for PVC (44.86 degrees) and anti-fog (13.71 degrees) are below the contact angle critical value (48.63 degrees). However, low contact angle hysteresis found in the anti-fog film promotes the first sliding cycle phenomenon to occur and hence increases the water collection by 33.18%. To assess the quality of the distilled water for domestic use, a heterotrophic plate count (HPC) analysis was also conducted, showing a lower amount of microbial content in the distilled water. These findings can be further considered as a guideline in designing high-performance floating solar still.

Automated summary

This study aims to improve the performance of floating solar still by altering the wettability and contact angle hysteresis of the cover surface. The results show that while wettability does not significantly affect transmissivity and absorber temperature, low contact angle hysteresis in the anti-fog film increases water collection. Additionally, the distilled water has a lower microbial content, making it suitable for domestic use.