王颖慕

职称:副研究员

通讯地址:福州地区大学城学园路2号金沙集团186cc成色

邮政编码:350108

Email:wangym@fzu.edu.cn

招生方向

学术型硕士:市政工程

专业型硕士:土木工程(市政方向)

主要研究领域

城镇污水处理;污水脱氮除磷新技术;温室气体减排;营养盐回收;环境微生物

教育背景

2014/09-2020/06,重庆大学,市政工程,博士

2010/09-2014/06,重庆大学,给排水科学与工程,学士

工作经历

2022/01至今,福州大学,金沙集团186cc成色市政工程系,校聘副研究员

2020/07-2021/12,福州大学,金沙集团186cc成色市政工程系,助理研究员

代表性荣誉

福建省引进高层次人才 C类

代表性科研项目

2022/01-2024/12,国家自然科学基金青年项目(52100029),主持,在研

2020/12-2023/05,福建省中青年教师教育科研项目(JAT200041),主持,在研

2020/07-2022/12,福州大学引进人才科研启动项目(GXRC-20076),主持,在研

2012/01-2016/06,“十二五”国家水污染治理重大专项(2012ZX07307),参与,结题

2017/01-2022/06,“十三五”国家水污染治理重大专项(2017ZX07401001),参与,在研

代表性论文

Wang Y, Lin Z, Wang Y, et al. Sulfur and iron cycles promoted nitrogen and phosphorus removal in electrochemically assisted vertical flow constructed wetland treating wastewater treatment plant effluent with high S/N ratio [J]. Water Research, 2019, 151: 20-30. (自然指数期刊,中科院一区)

Wang Y, Lin Z, Huang W, et al. Electron storage and resupply modes during sulfur cycle enhanced nitrogen removal stability in electrochemically assisted constructed wetlands under low temperature [J]. Bioresource Technology, 2020, 300: 122704. (福州大学Top期刊,中科院一区)

Wang Y, Zhou J, Shi S, et al. Hydraulic flow direction alters nutrients removal performance and microbial mechanisms in electrolysis-assisted constructed wetlands[J]. Bioresource Technology, 2021, 325: 124692. (福州大学Top期刊,中科院一区)

Wang Y, Lin Z, Su X, et al. Cost-effective domestic wastewater treatment and bioenergy recovery in an immobilized microalgal-based photoautotrophic microbial fuel cell (PMFC) [J]. Chemical Engineering Journal, 2019, 372: 956-965. (中科院一区)

Wang Y, Lin Z, He L, et al. Simultaneous partial nitrification, Anammox and denitrification (SNAD) process for nitrogen and refractory organic compounds removal from mature landfill leachate: Performance and metagenome-based microbial ecology [J]. Bioresource Technology, 2019, 294: 122166. (福州大学Top期刊,中科院一区)

Liu Y, Wang Y* (通讯作者), Fan G, et al. Metagenomics reveals functional species and microbial mechanisms of an enriched thiosulfate-driven denitratation consortia[J]. Bioresource Technology, 2021, 341: 125916. (福州大学Top期刊,中科院一区)

Wang Y, Chen S, Zhou J, et al. Enhanced degradation capability of white-rot fungi after short-term pre-exposure to silver ion: Performance and selectively antimicrobial mechanisms[J]. Science of The Total Environment, 2021: 151672. (中科院二区)

Wang Y, Gong B, Lin Z, et al. Robustness and microbial consortia succession of simultaneous partial nitrification, ANAMMOX and denitrification (SNAD) process for mature landfill leachate treatment under low temperature [J]. Biochemical Engineering Journal, 2018, 132: 112-121. (中科院二区)

He S, Wang Y, Li C, et al. The nitrogen removal performance and microbial communities in a two-stage deep sequencing constructed wetland for advanced treatment of secondary effluent [J]. Bioresource Technology, 2018, 248: 82-88. (福州大学Top期刊,中科院一区)

Lin Z, Wang Y, Huang W, et al. Single-stage denitrifying phosphorus removal biofilter utilizing intracellular carbon source for advanced nutrient removal and phosphorus recovery [J]. Bioresource Technology, 2019, 277: 27-36. (福州大学Top期刊,中科院一区)

Gong B, Wang Y, Wang J, et al. Intensified nitrogen and phosphorus removal by embedding electrolysis in an anaerobic–anoxic–oxic reactor treating low carbon/nitrogen wastewater [J]. Bioresource Technology, 2018, 256: 562-565. (福州大学Top期刊,中科院一区)

Huang Y, Wang Y, Liu S, et al. Enhanced hydrolysis-acidification of high-solids and low-organic-content sludge by biological thermal-alkaline synergism[J]. Bioresource Technology, 2019, 294: 122234. (福州大学Top期刊,中科院一区)

Su X, Wen T, Wang Y, et al. Stimulation of N2O emission via bacterial denitrification driven by acidification in estuarine sediments[J]. Global Change Biology, 2021, 27(21): 5564-5579. (中科院一区)

Huang W, Gong B, Wang Y, et.al. Metagenomic analysis reveals enhanced nutrients removal from low C/N municipal wastewater in a pilot-scale modified AAO system coupling electrolysis [J]. Water Research, 2020, 173: 115530. (自然指数期刊,中科院一区)

Wang J, Zhou J, Wang Y, et al., Efficient nitrogen removal in a modified sequencing batch biofilm reactor treating hypersaline mustard tuber wastewater: the potential multiple pathways and key microorganisms [J]. Water Research, 2020, 177, 115734. (自然指数期刊,中科院一区)

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