Ying Zhang
Northeast Agricultural University
302 Papers
555 Citations
Ying Zhang is an academic researcher from Northeast Agricultural University. The author has contributed to research in topics: Chemistry & Adsorption. The author has an hindex of 39, co-authored 223 publications. Previous affiliations of Ying Zhang include Anhui University & Chengdu University of Information Technology.
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Papers
Effects of bok choy on the dissipation of dibutyl phthalate (DBP) in mollisol and its possible mechanisms of biochemistry and microorganisms.
TL;DR: Some enriched genera were responsible for DBP dissipation, Alsobacter, Lacibacter, Myceligenerans, Schrenkiella parvula and Undibacterium, and bok choy amendments, which has a specific microbial community structure and a high abundance of Actinobacteria and Acidobacteria.
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Exploratory of immobilization remediation of hydroxyapatite (HAP) on lead-contaminated soils.
TL;DR: In remediation of Pb2+-contaminated soil experiments, the adsorption rate of HAP was significantly higher than that of non-HAP soil with increasing immobilization days, indicating that HAP is a potential material for remediating environmental pollution with Pb
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The performance and membrane fouling rate of a pilot-scale anaerobic membrane bioreactor for treating antibiotic solvent wastewater under different cross flow velocity.
Zhaobo Chen,Tingting Xiao,Dongxue Hu,Jiao Xu,Xue Li,Fuquan Jia,Haixu Wang,Fuguang Gu,Haiyan Su,Ying Zhang +9 more
TL;DR: It is suggested that the model proposed could reflect and manage the membrane fouling of AnMBR treating antibiotic solvent wastewater and showed that model well fitted the laboratory data.
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A combined system of microwave-functionalized rice husk and poly-aluminium chloride for trace cadmium-contaminated source water purification: Exploration of removal efficiency and mechanism.
Qu Jianhua,Xianlin Meng,Ying Zhang,Qingjuan Meng,Yue Tao,Qi Hu,Xingying Jiang,Hong You,Christine A. Shoemaker +8 more
TL;DR: Predictably, this simple and scalable RHMW-M/PAC system could afford a promising end-of-pipe solution for heavy-metal contamination, exhibiting much better performance than traditional alkali precipitation.
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