A 3D Opened Hollow Photothermal Evaporator for Highly Efficient Solar Steam Generation

Herein, using hierarchical porous CuS-cellulose composite as photothermal materials, a 3D opened hollow photothermal evaporator is designed and fabricated to target high solar evaporation rates. Such a unique structure not only imparts the solar evaporator with an efficient water evaporation by minimizing energy loss, introducing cold evaporation surfaces for drawing additional energy from the bulk water and surrounding air, but also fully activates evaporation on both inner and outer evaporation surfaces, thus delivering superior evaporation rates compared to the enclosed evaporators. Moreover, under convective flow, this special structure effectively promotes the escape of vapor inside the evaporator to avoid the vapor accumulation, further enhancing the evaporation on inner evaporation surfaces, thus improving the evaporation rate up to11.911 kg m(-2) h(-1) under a convective flow rate of 4.0 m s(-1) and 1.0 sun irradiation. The operability of the as-prepared solar evaporator under natural environmental conditions is examined by outdoor evaporation tests. The obtained solar evaporator is demonstrated to be applicable for generating clean water from model seawater and dye wastewater. An impetus for promoting practical application of solar steam generation in seawater desalination and wastewater purification is provided.

Automated summary

A 3D opened hollow photothermal evaporator using hierarchical porous CuS-cellulose composite as photothermal materials is designed and fabricated in this study. This structure achieves efficient water evaporation through minimizing energy loss, introducing cold evaporation surfaces, and improving the evaporation efficiency of the surfaces.