考研调剂招生信息
| 学校: | 青岛理工 |
| 专业: | 工学->环境科学与工程 |
| 年级: | 2022 |
| 招生人数: | 2 |
| 招生状态: | 正在招生中 |
| 联系方式: | 为保护个人隐私 |
补充内容
| 王华伟,博士,青岛理工大学环境与市政工程学院,副教授,博导/硕导,主要研究方向:污染水环境生物修复、污染土壤修复技术、固体废物处理与资源化。 邮箱:wanghuawei210@163.com;qq: 407039910 仅限学硕 主持和参与的科研项目: (1)国家重点研发计划子课题,2020YFC1807905,2020.11-2023.12,100万元,在研,主持; (2)国家自然科学基金青年基金,41907111,2020.1-2022.12,27万元,在研,主持; (3)山东省重点研发项目(公益类),2018GSF117030,2018.04-2020.12,15万元,结题,主持; (4)山东省自然科学基金青年项目,ZR2016DQ08,2016.11-2019.6,10万元,结题,主持; (5)中国博士后一等资助,2016M600829,2016.8-2020.12,8万元,结题,主持; (6)‘率先行动’中国博士后科学基金会与中国科学院联合资助优秀博士后项目”, 2016LH0048,2016.8-2020.12,20万元,结题,主持; (7)山东省自然科学基金重大基础研究项目,ZR2018ZC2364,2018.6-2021.12,100万元,在研,技术骨干; 代表性研究成果(10篇): [1] Wang, H.W., Chen, F., Mu, S., Zhang, D., Pan, X., Lee, D. J., Chang, J. S. 2013. Removal of antimony (Sb(V)) from Sb mine drainage: biological sulfate reduction and sulfide oxidation–precipitation. Bioresource Technology, 146, 799-802. (SCI, 中科院一区) [2] Wang, H.W., Lv, Z., Wang, B., Wang, Y. N., Sun, Y., Tsang, Y. F., Zhan, M. 2019. Effective stabilization of antimony in Waste-to-Energy fly ash with recycled laboratory iron–rich residuals. Journal of Cleaner Production, 230, 685-693. (SCI, 中科院一区) [3] Wang, Y. N., Wang, H.W*., Wu, Y.J., Sun, Y.J., Gong, Z.G., Liu, K.Q., Tsang, Y. F., Zhan, M.L. 2020. Effective removal of contaminants from biotreated leachate by a combined Fe(III)/O3 process: Efficiency and mechanisms. Journal of Cleaner Production, 276:123397. (SCI, 中科院一区) [4] Wang, H.W., Wang, Y.N., Li, X., Sun, Y., Wu, H., Chen, D. 2016. Removal of humic substances from reverse osmosis (RO) and nanofiltration (NF) concentrated leachate using continuously ozone generation-reaction treatment equipment. Waste Management, 56, 271-279. (SCI, 中科院二区, ESI 前3%) [5] Wang, H.W., Fan, X., Wang, Y. N., Li, W., Sun, Y., Zhan, M., Wu, G. 2018. Comparative leaching of six toxic metals from raw and chemically stabilized MSWI fly ash using citric acid. Journal of Environmental Management, 208, 15-23. (SCI, 中科院二区) [6] Wang, H.W., Zhang, D., Mou, S., Song, W., Al-Misned, F.A., Mortuza, M.G., Pan, X. 2015. Simultaneous removal of tetracycline hydrochloride and As (III) using poorly-crystalline manganese dioxide. Chemosphere, 136, 102-110. (SCI, 中科院二区) [7] Wang, Y. N., Tsang, Y. F., Wang, H.W*., Sun, Y.J., Song, Yi., Pan, X.L., Luo, S.Y. 2020. Effective stabilization of arsenic in contaminated soils with biogenic manganese oxide (BMO) materials. Environmental Pollution, 258:113481. (SCI, 中科院二区, ESI 前3%) [8] Wang, H.W., Liang, D., Wang, Y. N., Sun, Y., Li, W., Zhang, D., Tsang, Y, F., Pan, X. 2019. Fabricating biogenic Fe(III) flocs from municipal sewage sludge using NAFO processes: Characterization and arsenic removal ability. Journal of Environmental Management, 231, 268-274. (SCI, 中科院二区) [9] Wang, H.W., Li, X.Y., Hao, Z.P., Sun, Y.J., Wang, Y.N., Li, W.H., Tsang, Y.F. 2017. Transformation of dissolved organic matter in concentrated leachate from nanofiltration during ozone-based oxidation processes (O3, O3/H2O2 and O3/UV). Journal of Environmental Management, 191, 244-251. (SCI, 中科院二区, ESI 前3%) [10]王华伟, 李晓月, 李卫华, 孙英杰*. pH 和络合剂对五价锑在水钠锰矿和水铁矿表面吸附行为的影响. 环境科学, 2017, 38(01): 180-187.(EI) 专利: [1] Method of in-situ remediation of arsenic-contaminated soil [2]一种研究地下水砷转化的实验装置及监测方法. [3]一种利用负载型生物铁锰复合氧化物修复土壤方法. [4]一种细菌修复砷污染土壤的方法. [5]一种生物炭负载纳米零价铁协同细菌修复酸化砷污染土壤的方法. [6] 一种纳米零价铁协同细菌修复砷污染土壤的方法. [7] 一种磁性生物氧化锰吸附材料及其制备与应用. [8] 一种好氧微好氧条件下细菌诱导活性铁锰氧化物修复砷污染土壤的方法. [9]一种利用废旧反光膜制备水处理混凝剂的方法. [10] 一种渗滤液浓缩液MVR蒸发预处理的装置与系统. [11] 一种缓解填埋场浓缩液蒸发设备结垢的方法和装置. [12]一种渗滤液MBR工艺中泥水分离装置以及方法. [13] 一种冷却塔-生物滤池联合处理MVR蒸汽系统. [14]一种渗滤液曝气池泡沫消除装置. |