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Ying Cheng
Researcher at Zhejiang University of Technology
Publications - 9
Citations - 735
Ying Cheng is an academic researcher from Zhejiang University of Technology. The author has contributed to research in topics: Catalysis & Persulfate. The author has an hindex of 6, co-authored 9 publications receiving 335 citations.
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Recent advances in municipal landfill leachate: A review focusing on its characteristics, treatment, and toxicity assessment.
TL;DR: It is found that individual biological or physical-chemical treatment is unable to meet strict effluent guidelines, whereas a combination of biological and physical- chemical treatments can achieve satisfactory removal efficiencies of both COD and ammonia nitrogen.
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Review of leaching behavior of municipal solid waste incineration (MSWI) ash.
TL;DR: This review summarizes extensive studies on leaching behavior of municipal solid waste incineration ash, pollutants generated through leaching, factors governingLeaching, methodologies to study leach, leaching mechanisms, and treatments to reduce leaching.
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Synergistic activation of peroxymonosulfate and persulfate by ferrous ion and molybdenum disulfide for pollutant degradation: Theoretical and experimental studies
Dongqin He,Ying Cheng,Yifeng Zeng,Hongwei Luo,Kai Luo,Jun Li,Xiangliang Pan,Damià Barceló,John C. Crittenden +8 more
TL;DR: The combination of a commercially available MoS2 catalyst with a low dosage of Fe2+ is a promising and effective approach for efficient activation of PMS and PS to produce SO4- and OH.
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Enhanced decomposition of H2O2 by molybdenum disulfide in a Fenton-like process for abatement of organic micropollutants
TL;DR: A new pathway for efficient decomposition of H2O2 by Fe3+ ions in an extended pH range is provided, which is considered a facile and promising strategy for wastewater treatment.
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Rapid removal of organic micropollutants by heterogeneous peroxymonosulfate catalysis over a wide pH range: Performance, mechanism and economic analysis
TL;DR: In this article, a class of commercial MoS2 nanoparticles was introduced as a co-catalyst to facilitate the PMS activation by Fe3+ ion, which greatly accelerated the reduction of Fe3 + to Fe2+ and the decomposition of PMS, thereby resulting in increased mineralization efficiency of pollutants.