Download This PaperBiomass Microcrystalline Cellulose Based Solar Evaporator with Aligned Channels for Clean Water and Electricity Co-Generation
16 Pages Posted: 5 Aug 2024
Abstract
Solar-driven interfacial evaporation co-generation (SDIE-CG) technology can effectively solve the problems such as low latent heat utilization in the evaporation process, which provides a reliable solution to the problem of hydropower shortage in remote areas. Herein, we report a tea residue microcrystalline cellulose (TMCC) aerogel (abbreviated as TCA), in which TMCC is regenerated by dissolution through the co-solvent method, and microcrystalline cellulose is rearranged by the directional slow freezing technique to get a TCA with a directional aligned pore structure, resulting in a good mechanical and salt-resistant property. Due to the internal doping of carbon black particles, the TCA has an average ultra-high absorbance of 97.46%. The evaporation rate of TCA up to 3.066 kg m-2 h-1 under 3 kW m-2 illuminations. The maximum output voltage of the TCA is 44.801 mV under 2 kW m-2 illuminations through the introduction of a suitable wind-assisted hydropower generation device. In addition, the TCA can effectively purify the wastewater containing traditional Chinese medicine, the chemical oxygen demand (COD) value in wastewater shows a significant decrease after treatment. It is worth noting that TCA can maintain structural integrity and stable evaporation performance in saltwater under extreme pH conditions (2
Keywords: Waste biomass, Photothermal materials, wastewater, Desalination, Hydrovoltaic effect
Suggested Citation: Suggested Citation