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Solar engineering of wastewater treatment for full mineralization of organic pollutants

矿化(土壤科学) 太阳能 化学 污染物 环境化学 环境工程 环境科学 有机化学 工程类 电气工程 氮气
作者
Nana Li,Meng Wang,Zhiqiang Qiao,Zesong Li,Di Gu,Lingyue Zhu,Chao Yan,Dandan Yuan,Hongjun Wu,Baohui Wang
出处
期刊:Environmental Technology [Taylor & Francis]
卷期号:44 (2): 240-250 被引量:1
标识
DOI:10.1080/09593330.2021.1968508
摘要

Full mineralization of organic pollutants is a tough task with existing technologies. Even if all conventional energies and extremes are exhausted, high-temperature wastewater treatment is not worth the loss from the perspective of energy. Solar engineering holds promise for the full mineralization of organic pollutants to tackle the global fossil energy shortage. Here, we report solar engineering for full mineralization and efficient solar utilization. The solar energies and spectrum were fully utilized to initiate the solar heat and solar electricity. Two energies were applied to trigger the thermochemical and electrochemical oxidation of the organic pollutants. Our study bridges the gap between the energy and environment towards efficient solar utilization and effective water treatment. As a proof-of-concept study, this demonstrates a solar engineering of full phenol mineralization in wastewater. A record phenol mineralization rate was achieved to reach an oxidation rate of 98% and COD of 93% under a constant current density of 50mA/cm2 at 150°C. UV and HPLC were used to detect the intermediate products during variable time intervals. The results showed that the intermediate products are composed of maleic acid, hydroquinone and p-benzoquinone. In the extreme high temperature (90°C), the solar oxidation time and pathway are greatly altered. The reaction rate constant at 150°C is about 11 times than that at 90°C. More solar heat significantly reduces the activated energy of the pollutant oxidation and lowers the potential of electrolysis.
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