Wenjun Zhao scite author profile

The phenomenon of droplet bouncing on superhydrophobic surfaces has received extensive attention in the academic and industrial fields, as it is critical for various engineering applications such as anti-icing, spray cooling and metal quenching. In this review, the research of droplet bouncing behaviors are comprehensively introduced from the bouncing mechanism, research methods and potential applications. The bouncing mechanism is related to three aspects: droplet properties, surface characteristics and ambient conditions. Among them, droplet size, impact velocity, gas film, surface morphology, surface temperature and applied electric field are frequently concerned. Surface wettability is critical for droplet bouncing behaviors, which affects the droplet movement on the surface. Momentum and mass distribution are essential to reduce contact time, which can be achieved through surface morphology design. The manipulation of solid-liquid contact lines and surface tension can achieve directional droplet transportation. In addition, typical droplet bouncing experiments are presented, and experimental studies of single and successive droplets in recent decades are collated. Volume of fluid, lattice Boltzmann method and molecular dynamics are described, which are typical simulation methods for droplet bouncing dynamics at different scales. Potential engineering applications such as surface self-cleaning, digital microfluidics, and enhanced heat transfer have been developed through theoretical foundations and research methods. Finally, the conclusions and the possible future research directions are outlined. The durability of superhydrophobic surfaces becomes a bottleneck for engineering applications. The life cycle research perspective may be applied to future studies.

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A computational fluid dynamics (CFD) investigation of the flow field and the primary atomization of the close coupled atomizer

Zhao

Cao

Ning

et al. 2012

Computers & Chemical Engineering

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Self-Cleaning Performance of Super-Hydrophilic Coatings for Dust Deposition Reduction on Solar Photovoltaic Cells

Zhao

2021

Coatings

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Dust deposition on solar photovoltaic (PV) cell surface will significantly decrease the PV power efficiency, as the transmittance of the solar cells would be greatly decreased by the deposited dust particles. This paper aims to study the anti-dust performance of super-hydrophilic coatings for the solar PV cells with water spraying condition. The solar cell covering glass was treated to be super-hydrophilic and compared with the bare glass sample. It was found that many dust particles adhere and aggregate on the uncoated glass while the particles deposited on the super-hydrophilic glass surface are densely distributed. When the water spraying process was conducted, the dust deposition mass for the bare and the coated glass samples are both reduced obviously with the increase time of water spraying. In addtion, dust deposition mass is significantly reduced with the increase of deposition and spraying tilt angles. The self-cleaning efficiency of super-hydrophilic coating on dust deposition is 92% higher than the bare glass cases. The spectral transmittance of glass samples for all the coated cases are significantly higher than that for all the bare cases. The maximum transmittance improvement can reach 26.5% when the deposition tilt angle is 30° and the spraying tilt angle is 60°.

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Wenjun Zhao

Effects of particle sizes and tilt angles on dust deposition characteristics of a ground-mounted solar photovoltaic system

CFD prediction of dust pollution and impact on an isolated ground-mounted solar photovoltaic system

A review of droplet bouncing behaviors on superhydrophobic surfaces: Theory, methods, and applications

A computational fluid dynamics (CFD) investigation of the flow field and the primary atomization of the close coupled atomizer

Self-Cleaning Performance of Super-Hydrophilic Coatings for Dust Deposition Reduction on Solar Photovoltaic Cells

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