Evaporation Performance of Wood‐Based Evaporator for Solar Interfacial Vapor Generation

Abstract: Inspired by the natural transpiration of plants, an interfacial evaporator based on natural wood and a carbon black cellulose film (CB film) is designed. The existence of the CB film significantly improves the light absorptance of the woodblock from 21% to 96%. After the woodblock is modified with ammonia, the evaporation efficiency increases by 15%. The evaporation efficiency of the woodblock coated with a CB film is 30% higher than that without a CB film. The influence of evaporator size on evaporation perfo… Show more

“…It showed that CAEP-PFO had super solar absorption capacity. Through comparison and searching data, it was found that the absorption efficiency of similar material without surface carbonization of wood fiber can only reach about 30 % ∼ 50 %, [32][33][34] which might be attributed to the surface of CAEP-PFO was graphitized after carbonization, resulting in a wider range of light absorption. The relationship between mass and temperature variation of the CAEP and CAEP-PFO was studied by thermogravimetric analysis (TGA).…”

An Expanded Perlite‐Based Aerogel with Oil‐Repellent Properties for Efficient Solar Evaporation in Oil‐bearing Wastewater

“…It showed that CAEP-PFO had super solar absorption capacity. Through comparison and searching data, it was found that the absorption efficiency of similar material without surface carbonization of wood fiber can only reach about 30 % ∼ 50 %, [32][33][34] which might be attributed to the surface of CAEP-PFO was graphitized after carbonization, resulting in a wider range of light absorption. The relationship between mass and temperature variation of the CAEP and CAEP-PFO was studied by thermogravimetric analysis (TGA).…”

An Expanded Perlite‐Based Aerogel with Oil‐Repellent Properties for Efficient Solar Evaporation in Oil‐bearing Wastewater

Passive interfacial photothermal evaporation and sky radiative cooling assisted all-day freshwater harvesting: System design, experiment study, and performance evaluation

Three birds with one stone: Constructing Janus multilayer carbon fabric to boost solar-driven interfacial evaporation, electrical power generation and inhibit VOCs volatilization