王永磊
1.代表性授权国家专利
1)发明专利:一种强化除磷与污泥减量型污水处理装置,ZL201710070536.4,1/10,授权公告日:2023年03月14日。
2)发明专利:一种微纳米气泡表面功能改性剂及其强化气浮的净水方法,ZL 202110889531.0,1/10,授权公告日:2023年03月31日。
3)发明专利:一种水下微气泡及其絮体测量装置,ZL202010135209.4,1/13,专利申请日:2020年3月2日。
4)发明专利:一种微气泡表面功能改性剂及其制备方法,ZL202110889533.X,1/10,专利申请日:2021年08月04日。
5)发明专利:一种生物炭循环型共聚气浮池净水系统及方法,ZL201710201544.8,1/10,授权公告日:2020年10月09日。
6)发明专利:一种强化除磷与污泥减量型污水处理工艺,ZL201710070523.7,1/10,授权公告号:2020年07月21日。
7)发明专利:一种污泥减量与脱氮除磷耦合处理装置与方法,ZL201610037950.0,1/12,授权公告日:2018年8月14日。
8)实用新型:去除饮用水中嗅味物质的高级氧化联用活性炭处理系统,ZL201922206264.3,3/11,授权公告日:2020年5月19日。
9)实用新型:一种适于气浮工艺气泡直径观测装置,ZL201922234037.1,3/11,授权公告日:2020年9月22日。
10)实用新型:一种超声波和紫外高级氧化耦合净水系统,ZL201821643853.7,1/14,授权公告日:2020年7月10日。
11)实用新型:一种用于处理藻类的一体化高效臭氧气浮装置,ZL202122726865.4,4/7,授权公告日:2022年3月15日。
2.代表性标准/规范
(1)农村供水水厂等级评价导则:DB37/T 4566-2022,山东省市场监督管理局,2022.
(2)农村供水管网运行管护及安全调控技术要求:DB37/T 4605-2023,山东省市场监督管理局,2023.
(3)水处理生物膜速净工艺(BFM) 技术规程:T/SDEPI 031-2022,山东省环境保护产业协会,2022.
(4)城镇供水系统全过程水质管控技术规程:T/CUWA 20054 - 2022,中国城镇供水排水协会,2022.
(5)城镇供水设施建设与改造技术规程:DB 37/T 5242-2022,山东省住房和城乡建设厅,山东省市场监督管理局,2022.
(6)旱改厕粪污处理与资源化利用工程建设技术指南:T/SDEPI 034-2023,山东省环境保护产业协会,2023.
(7)旱改厕粪污处理与资源化利用设施运行维护技术导则:T/SDEPI 035- -2023,山东省环境保护产业协会,2023.
(8)城镇给水紫外线高级氧化系统:T/CAMIE 01-2021,中国环保机械行业协会,2021.
(9)城镇给水气浮处理工程技术规程:T/CECS 791-2020,中国工程建设标准化协会,2020.
(10)山东省城市生活用水量标准:J 14112-2018,山东省住房和城乡建设厅,山东省质量技术监督局,2018.
(11)山东省城市雨源型季节性黑臭水体整治技术导则:JD14-035-2017,山东省住房和城乡建设厅,2017.
3.代表性科研论文
1) Yonglei Wang*, Jie Xue, Wentao Sun, et al. Efficiency and mechanism of ozonated microbubbles for enhancing the removal of algae and algae-derived organic matter[J]. Chemosphere, 2023, 312: 137220.
2) Xinglin Wang, Xuelin Wang, Jiru Mi, Zhenqi Du, Yonglei Wang*, et al. UV/H2O2/O3 removal efficiency and characterization of algae-derived organic matter and odorous substances[J]. Journal of environmental chemical engineering, 2023, 11(1): 109128.
3)沈虎, 王永磊*, 鞠玲, 田立平, 贾瑞宝, 宋武昌. 城镇给水气浮工艺运行效果及经济性研究[J].中国给水排水, 2023, 39(03): 47-55.
4) 王永磊*, 刘杰, 王猛, 刘宇雷, 田立平, 于海洋, 王晓波. 紫外高级氧化工艺降解土臭素(GSM)和2-甲基异莰醇(2-MIB)的对比[J].环境化学, 2022, 41(9): 3083-3093.
5)Yonglei Wang*, Huiyuan Ma, Xiaobo Wang, et al. Study on the operation performance and floc adhesion mechanism of dissolved air flotation equipment[J]. Environmental science and pollution research international, 2022, 29(36): 54219-54233.
6)Yonglei Wang*, Xinglin Wang, Liping Tian, et al. Removal effect and mechanism of amphiphilic chitosan modified microbubbles on microcystis aeruginosa[J]. Journal of Water Process Engineering, 2022, 46: 102585.
7)Yonglei Wang*, Wentao Sun, Luming Ding, et al. A study on the feasibility and mechanism of enhanced co-coagulation dissolved air flotation with chitosan-modified microbubbles[J]. Journal of Water Process Engineering , 2021, 40: 101847.
8)Yonglei Wang*, Yanan Li, Liping Tian, et al. The removal efficiency and mechanism of microplastic enhancement by positive modification dissolved air flotation[J]. Water Environment Research, 2021, 93(5): 693-702.
9)Yonglei Wang* , Xuelin Wang , Anran Zhou , et al. A modified membrane filtration-ultraviolet photocatalytic system for the removal of trace sulfadiazine in drinking water[J]. Chemosphere, 2021, 272: 129867.
10) Zhenqi Du, Ruibao Jia, Wuchang Song, Yonglei Wang*, et al. The characteristic of N-nitrosodimethylamine precursor release from algal organic matter and degradation performance of UV/H2O2/O3 technology[J]. Science of the Total Environment, 2021, 795: 148739.
11) Guilin He,Tuqiao Zhang, Qingzhou Zhang, Feilong Dong, Yonglei Wang*. Characterization of enoxacin (ENO) during ClO2 disinfection in water distribution system: Kinetics, byproducts,toxicity evaluation and halogenated disinfection byproducts (DBPs) formation potential[J]. Chemosphere, 2021, 283: 131251.
12) Xuelin Wang, Xiuwei Ao, Tianyang Zhang, Zifu Li, Ran Cai, Zhongyun Chen, Yonglei Wang*, Wenjun Sun*. Ultraviolet-Light-emitting-diode activated monochloramine for the degradation of carbamazepine: Kinetics, mechanisms, by-product formation, and toxicity [J]. Science of the Total Environment, 2022, 806: 151372.
13) 王永磊*, 刘杰, 韩延镇, 刘文明, 孙文韬, 王学琳. 畜禽养殖废水处理工艺分析研究[J]. 工业水处理, 2021, 41(8): 41-46
14) Xiaohong Wang, Yonglei Wang*, Liping Tian, et al. Pilot test study on the performance of multiphase flow pump DAF equipment and reservoir water pollution removal by the DAF process[J]. Journal of Water Process Engineering, 2022, 46: 102543.
15) Qingyue Jiang, Yonglei Wang*, Liping Tian **, et al. Polit-scale and mechanistic study on the degradation of typical odors and organic compounds in drinking water by a combined UV/H2O2-BAC Process[J]. Chemosphere, 2022, 292: 133419.
16)Anran Zhou , Yonglei Wang*, Shaohua Sun, et al. Removal of sulfadiazine in a modified ultrafiltration membra (PVDF-PVP-TiO,-FeCl) filtration-photocatalysis system: parametersoptimizing and interferences of drinking water[J]. Environmental Science and Pollution Research, 2020, 27: 45605-45617.
17) Yonglei Wang*, Zhenqi Du, Yongjian Liu, et al. The nitrogen removal and sludge reduction performance of a multi-stage anoxic/oxic (A/O) biofilm reactor[J]. Water Environment Research, 2020, 92(1): 94-105.
18) Yonglei Wang *, Ling Ju, Fei Xu, et al. Effect of a nanofiltration combined process on the treatment of high-hardness and micropolluted water[J]. Environmental Research, 2020, 182: 109063.
19) Faming Chen, Wei Liu, Zhangbin Pan, Yonglei Wang*, et al. Characteristics and mechanism of chitosan in flocculation for water coagulation in the Yellow River diversion reservoir[J]. Journal of Water Process Engineering, 2020, 34: 101191.
20) Yonglei Wang*, Yanan Li, Wenhao Wang, et al. The influence of coagulation mechanism on coagulation effects under different Al-based coagulants conditions[J]. Desalination and Water Treatment, 2020, 204: 204-212.
21) Yonglei Wang*, Yanan Li, Liping Tian, et al. Research on the Enhanced Biological Nitrogen Removal of Wastewater by the Ultrasound‐Hydrolysis Acidification of Excess Sludge[J]. Water Environment Research, 2020.
22) Yonglei Wang*, Wentao Sun, Luming Ding, et al. A study on the feasibility and mechanism of enhanced co-coagulation dissolved air flotation with chitosan-modified microbubbles[J]. Journal of Water Process Engineering, 2021, 40: 101847.