首页|期刊导航|Green Energy & Environment|Coupling adsorption and in-situ Fenton-like oxidation by iron-containing low-grade attapulgite clay towards organic pollutant removal: From batch experiment to continuous operation
Coupling adsorption and in-situ Fenton-like oxidation by iron-containing low-grade attapulgite clay towards organic pollutant removal: From batch experiment to continuous operation
Chao Jiang Xiaoli Liu Xingpeng Wang Qihui Wang Huiyu Li Weiliang Tian Saeed Ahmed Yongjun Feng
Green Energy & Environment2025,Vol.10Issue(5):P.1015-1026,12.
Green Energy & Environment2025,Vol.10Issue(5):P.1015-1026,12.DOI:10.1016/j.gee.2024.10.004
Coupling adsorption and in-situ Fenton-like oxidation by iron-containing low-grade attapulgite clay towards organic pollutant removal: From batch experiment to continuous operation
摘要
关键词
Iron-containing attapulgite/Coupling strategy/Adsorption/Fenton-like oxidation/Fixed-bed reactor分类
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Chao Jiang,Xiaoli Liu,Xingpeng Wang,Qihui Wang,Huiyu Li,Weiliang Tian,Saeed Ahmed,Yongjun Feng..Coupling adsorption and in-situ Fenton-like oxidation by iron-containing low-grade attapulgite clay towards organic pollutant removal: From batch experiment to continuous operation[J].Green Energy & Environment,2025,10(5):P.1015-1026,12.基金项目
supported by Gansu Cuihua Technology Co.,Ltd.(H2020292) (H2020292)
Science and Technology Planning of Baiyin City,Fundamental Research Funds for the Central Universities (buctrc202208) (buctrc202208)
Engineering Research Center of Non-metallic Minerals of Zhejiang Province and the Beijing Engineering Center for Hierarchical Catalysts. Central Government Guiding Funds for Local Science and Technology Development (2022ZY015) (2022ZY015)
Nanjiang Technology Project(2023AB028) (2023AB028)
Open Laboratory of State Key Laboratory of Organic and Inorganic Composites (oic-202301006)。 (oic-202301006)
