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王兵教授简介2024-03-07 作者:王兵 编辑:卿大咏 审核: 浏览:[]
◆ 教育、工作经历
◆ 主要研究课题 1.驱油用化学剂的环境友好因素研究,中石油科技项目,负责人,2022-2023 2.页岩气开发场地土壤及,地下水污染风险研究,中石化科技项目,负责人,2021-2022 3.致密气乙烷及以上组分综合利用方案咨询,中石油科技项目,负责人,2021-2023 4.钻井废弃物无害化治理技术,保技术开发有限公司工程应用项目,负责人,2021-2023 5.页岩气产出水强化水质前处理-多效蒸发-深度处理技术研究与中试装置试制,国家科技重大专项,编号:2015ZX05067004-001,负责人,2016-2020 6.多维电极技术定向处理页岩气返排液中难降解有机物作用机制研究,国家科技重大专项,编号:2016ZX05040003-004-002,负责人,2016-2020 7.高效混絮凝-吸附一体化炼化废水处理技术研究,国家科技支撑计划,编号:2011BAC06B05,负责人,2011-2016 8.基于强化隐性生长的城市污水厂污泥减量耦合水处理工艺及工业化设备及工程示范,四川省科技计划重点,编号:16ZC2067,负责人,2017-2018 9.页岩气井场区域土壤污染生态修复关键技术研究,四川省科技计划重点,编号:2015SZ007,负责人,2015-2017 10.Development of treatment and reuse technology for complexly contaminated water from energy source,国际合作项目,负责人,2015-2017 11.高含硫天然气净化工艺及检修过程优化,中石化科技项目,负责人,2015-2017 12.环境友好型钻井液技术研究,中石油川庆钻探,负责人,2014-2017 13.高含硫酸性气田水复合催化氧化耦合脱硫技术研究,中国石油天然气集团公司,负责人,2011-2013 14.炼厂活性污泥臭氧化减量技术研究,中国石油天然气集团公司低碳专项,负责人,2012-2013 15.聚驱采油废水高级氧化机理及影响因素研究,国家重点实验室开放基金,负责人,2011-2013 16.普光气田环境保护综合防治技术研究,中石化普光气田,负责人,2012-2013 17.四川广安核电厂可研阶段-厂址周围天然气井(田)和集输气管线对厂址安全的影响评价,中核西南核电,负责人,2011-2013 18.Bioremediation of Simulated Cuttings and Plant Growth,UNOCAL EAST CHINA SEA, LTD,负责人,2010-2011 ◆ 代表性论文、专著 1. Wang Bing, Zeng Yao ,Xiong Ming yang, Qiu, Ruisi. Adsorption performance and mechanism of mesoporous carbon-doped Al2O3 adsorbent derived from NH2-MIL-53 (Al) for removing Cr(Ⅵ) and methyl orange from aqueous solution.Journal of Environmental Chemical Engineering, 2023(3):110081 2. Wang Bing, Zeng Yao,Ou Jinghan,Xiong Ming yang, Qiu, Ruisi. Different strengthening effects of amino and nitro groups on the bisphenol A adsorption of an aluminum metal-organic framework in aqueous solution. Environmental Science And Pollution Research,2023(24):65712-65727 3. Gao Chunyang, Wang Bing, Li Xingchun,Zhang Yuzhu. Removal of Cr(VI) by hollow micron zero-valent iron in groundwater containing different ions: Mechanisms and mineralized products, Process Safety and Environmental Protection,2023(137):614-626 4. Zhang Yuzhu, Wang Bing, Gao Chunyang, Du Xianyuan, Developing novel persulfate pellets to remediate BTEXs-contaminated groundwater, Journal Of Water Process Engineering,2023(52):103505 5.Huan Zhang, Bing Wang, Mingyang Xiong. Process intensification of the ozone-liquid mass transfer in ultrasonic cavitation-rotational flow interaction coupled-field: Optimization and application. Journal of Environmental Management,310(2022)114710 6.Zhang H , Wang B , Gao C , et al. Effective degradation of hydrolyzed polyacryamide (HPAM) in a simultaneous combination of acoustic cavitation and microbubbles ozonation: Process optimization and degradation mechanism. Process Safety and Environmental Protection, 159(2022):465-476. 7.Ren, H. , Hou, D. , Zhou, S. , Wang, B. , Yang, D. Study on the effect of petroleum components on the elution of oily sludge by a compound biosurfactant,Langmuir, 2022 38 (6), 2026-2037 8.Huan Zhang , Bing Wang , Mingyang Xiong , Chunyang Gao. Process intensification in gas-liquid mass transfer by nanofluids Mechanism and current status, Journal of Molecular Liquids ,346 (2022) 118268 9.Li, X,Luo T, Wang Y, Wang B.Improving the degradation of benzo[a]pyrene and soil biodegradability by enhanced ozonation with mechanical agitation. Chemical Engineering Journal, 4(2021):130056. 10.Bing Wang,Wen Shi, Huan Zhang, et al. Promoting the ozone-liquid mass transfer through external physical fields and their applications in wastewater treatment: A review. Journal of Environmental Chemical Engineering ,9 (2021) 106115 11.Bing Wang,Mingyang Xiong ,Bin Shi, et al. Treatment of shale gas flowback water by adsorption on carbon-nanotube-nested diatomite adsorbent. Journal of Water Process Engineering, 42 (2021) 102074 12.Bing Wang, Chaoxiao Deng,Wei Ma , Yubo Sun. Modified nanoscale zero-valent iron in persulfate activation for organic pollution remediation: a review[J]. Environmental Science and Pollution Research, 2021, 28(26):34229-34247 13.BingWang, HuanZhang, QingjieMeng, et al. The enhancement of ozone–liquid mass transfer performance in a PTFE hollow fiber membrane contactor using ultrasound as a catalyzer. RSC Adv., 2021, 11:14017–14028 14.Xi Li, Yaxuan Wang, Ting Luo,Yongsong Ma, Bing Wang, et al. Remediation potential of immobilized bacterial strain with biochar as carrier in petroleum hydrocarbon and Ni co-contaminated soil. Environmental technology,2022, 43(7): 1068–1081 15.Bing Wang ,Mingyang Xiong ,Peijie Wang,Bin Shi. Chemical characterization in hydraulic fracturing flowbackand produced water (HF-FPW) of shale gas in Sichuan of China. Environmental Science and Pollution Research ,2020, 27:26532–26542 16.Hongyang Ren, Sanyu Zhou, Bing Wang, et al. Treatment mechanism of sludge containing highly viscous heavy oil using biosurfactant. Colloids and Surfaces A Physicochemical and Engineering Aspects, 2019, 585:124117. 17.Xi Li , Hongmin Mao,Yongsong Ma,Bing Wang,et al. Life cycle greenhouse gas emissions of China shale gas. Resources Conservation and Recycling, 152 (2020):104518 18.Wang Bing,Xie Hong-Li,Ren Hong-Yang ,Li Xi .Application of AHP, TOPSIS, and TFNs to plant selection for phytoremediation of petroleum-contaminated soils in shale gas and oil fields. Journal of Cleaner Production, 233 (2019): 13-22 19.Wang Bing , Tian Kun, Xiong Xingaoyuan, Ren Hongyang. Treatment of overhaul wastewater containing N-methyldiethanolamine (MDEA) through modified Fe-C microelectrolysis-configured ozonation: Investigation on process optimization and degradation mechanisms. Journal of Hazardous Materials, 369 (2019): 655–664 20.Bing Wang , Huan Zhang, Feifei Wang , Xingaoyuan Xiong ,et al.Application of Heterogeneous Catalytic Ozonation for Refractory Organics in Wastewater. Catalysts 2019, 9(241):2-40 21.Wang Bing, Xiong Xingaoyuan,Shui Yiyu, Huang Zhiyu ,et al.A systematic study of enhanced ozone mass transfer for ultrasonic-assisted PTFE hollow fiber membrane aeration process. Chemical Engineering Journal, 357 (2019) :678–688 22.Xiong Xingaoyuan, Wang Bing, Zhu Wei,Tian Kun,et al. A Review on Ultrasonic Catalytic Microbubbles Ozonation Processes: Properties, Hydroxyl Radicals Generation Pathway and Potential in Application. Catalysts. 2019, 9, 10,3-18 23.Yong song Ma, Xi Li, Hong min Mao, Bing Wang,et al. Remediation of hydrocarbon–heavy metal co-contaminated soil by electrokinetics combined with biostimulation. Chemical Engineering Journal. 353 (2018), 410–418 24.Bing Wang,Yiyu Shu,Min He,et al.Comparison of flocs characteristics using before and after composite coagulants under different coagulation mechanisms. Biochemical Engineering Journal ,121 (2017) 107–117 25.BingWang,Yiyu Shui,Puzhen Liu,Min He. Preparation, characterization and flocculation performance of the inorganic-organic composite coagulant polyferric chloride and polydimethyldiallylammonium chloride. J Chem Technol Biotechnol,2017,92(4):884-892 26.Bing Wang,Yiyu Shui, Hongyang Ren,Min He .Research of combined adsorption-coagulation process in treating petroleum refinery effluent. Environmental Technology,2017,38(4): 456-466 27.Bing Wang,Xingaoyuan Xiong,Hongyang Ren,et al.Preparation of MgO nanocrystals and catalytic mechanism on phenol ozonation. RSC Advances,2017,7 (69):43464-43473 28.Hongyang Ren, Lingli Ma, Bing Wang, Hang Gong, Zeng Yuan, Zhenzhen Li. Systematic analysis of the Biochemical Characteristics of Activated Sludge During Ozanation foe Lowering of Biomass Production. Ozone: Science & Engineering,2017,39(2):80-90 29.Yong-Tao Li, Dong Yue, Bing Wang,Hong-Yang Ren. Degradation of MDEA in aqueous solution in the thermally activated persulfate. Environmental technology, 2017,38(6):730-736 30.王兵,欧景菡,熊明洋等.磁性椰壳炭制备及对页岩气压返液中有机物的吸附研究[J].水处理技术, 2022, 48(363):30-35 31.王兵,师雯,孙玉波.陶瓷膜曝气强化臭氧传质研究[J].水处理技术, 2022, 48(362):61-69 32.王兵,张劲松,田坤等.表面活性剂主导的两阶段法强化对BaP的洗脱[J].环境科学与技术, 2021, 44(11):138-144 33.王兵,王佩洁,祝伟等.页岩气开发中压裂返排液的水质污染特征研究[J].安全与环境学报,2020, 20(1):231-237 34.陈丹丹,王兵,王波. Na2SO3氧化处理高浓度含硫废水的过程探讨[J].环境工程,2020(06):115-120 35.王兵,王佩洁,祝伟,熊明洋等.混凝-吸附联用预处理页岩气压裂返排液[J].环境工程学报,2019,13(10):2475-2481 36.任宏洋,彭磊,王兵等. 剩余污泥臭氧化溶胞过程研究[J].安全与环境学报,2019(04):1308-1315 37.王兵,谢红丽,任宏洋,李琋.基于层次分析法的石油污染土壤修复植物评价[J].安全与环境学报,2019,19(111):985-991 38.王兵,李珍珍,李琋,任宏洋. 页岩气井场土壤石油类污染特性及对理化性质的影响[J].安全与环境学报,2018, 18(106):1598-1604. 39.王兵,税奕瑜,刘璞真,曾扬等.臭氧在柱反应器中的强化传质过程[J].环境工程学报,2017, 11 (02) :760-768 40.王兵,舒帮云,任宏洋,王波.填充粒子对三维电极处理MDEA污水的影响[J].环境工程学报,2017,11 (01):205-210 41.王兵,陈丹丹,任宏洋等.高含硫废水受控氧化的混凝强化研究[J].工业水处理,2016(07):29-34 42.王兵,刘璞真,任宏洋,张悦等. 非均相催化臭氧化降解水中苯酚动力学[J].环境工程学报, 2016,10 (07):3427-3433 43.王兵,周鋆,任宏洋等.MgO催化臭氧氧化降解苯酚机理研究[J].环境科学学报,2016,36(11):4009-4016 44.王兵,李洁,任宏洋,李娟.电化学法处理聚驱采油废水的研究[J].安全与环境学报,2015,90(6):245-249 45.王兵,王波,任宏洋等.高级氧化技术处理天然气净化厂检修污水中试[J].中国给水排水,2015.31:105-109 46.王兵,王波,任宏洋,罗东宁. 电压波形对三维电极法降解苯酚的影响[J].环境化学,2015 ,34(05): 983-988 47.张悦,王兵,任宏洋. O3/Mn2O3对钻井废水多相催化臭氧化试验研究[J].环境科学学报,2015(10): 3185-3192 48.王兵,李洁,任宏洋等.臭氧氧化法分解聚驱采油废水中水解聚丙烯酰胺的过程分析[J]. 石油化工,2014(07):832-837 49.王兵等.环境工程综合实验教程.北京:化学工业出版社, 2010 50.诸林,刘瑾,王兵,王治红. 化工原理.北京:石油工业出版社,2007 ◆ 授权专利成果 1.发明专利:一种Fe0/TiO2-电气石催化臭氧化处理难降解有机废水的方法, ZL202110210617.6, 授权, 中国,2022-07 2.发明专利:一种碳纳米管嵌套硅藻土高效吸附材料制备方法及应用,Zl201910674721.3,授权,中国, 2022-04 3.发明专利:一种陶土/软锰矿高效除磷的环保吸附材料及制备方法,ZL201910911055.0, 授权, 中国, 2022-03 4.发明专利:一种磁性过渡金属颗粒活化过硫酸盐废水处理技术,ZL201910683002.8,授权,中国, 2022-03 5.发明专利:处理三磺体系废弃泥浆固体废弃物COD去除剂及应用,ZL201811398258.6, 授权, 中国, 2021-12 6.发明专利:一种卡鲁赛尔氧化沟耦合超声臭氧复合污泥减量方法及其设备,ZL201711362126.3 授权, 中国, 2021-06 7.发明专利:一种采用开关型混合溶剂体系处理含油废弃物的方法, ZL201810693198.4, 授权, 中国, 2021-05 8.发明专利:一种高温碱化改性生物炭基载体制备方法及应用, ZL201710785484.9, 授权, 中国, 2020-09 9.发明专利:一种页岩气返排液多维电极处理工艺, ZL201710521020.7, 授权,中国,2020-08 10.发明专利:一种基于生物炭缓释营养基固定化菌剂的制备方法, ZL201710785703.3, 授权, 中国, 2020-07 11.发明专利:一种强化SBR剩余污泥减量的方法及污泥减量用设备, ZL201711361979.5, 授权, 中国, 2020-05 12.实用新型:一种用于筛选高粘性降解菌的培养基, ZL201721123940.5, 授权, 中国, 2019-01 12.实用新型:一种填料式变气压强化剩余污泥臭氧减量化装置, ZL201721769314.3, 授权, 中国, 2018-12 13.实用新型:一种旋流式剩余污泥臭氧减量化装置, ZL201721769321.3, 授权, 中国, 2018-12 14.发明专利:一种软锰矿/石墨粉复合粒子电极及制备方法, ZL201610193901.6, 授权, 中国, 2018-10 15.发明专利:一种高含硫废水反应分离耦合回收单质硫的方法,ZL201510738851.0, 授权, 中国, 2017-12 16.发明专利:一种气田含硫废水超声复合受控氧化回收单质硫的方法,ZL201510734190.4,授权, 中国, 2017-10 17.发明专利:一种从油基泥浆钻井废弃物中回收油基泥浆的工艺,ZL201410033980.5,授权, 中国, 2017-01 18.发明专利:聚合硫酸铝-二甲基二烯丙基氯化铵均聚物无机有机复合混凝剂及其制备工艺和应用, ZL201410768555.0, 授权, 中国, 2016-10 19.发明专利:一种炼化废水同步除硅除COD的方法, ZL201410359409.2, 授权, 中国, 2016-05 20.实用新型:油田废水的深度处理装置, ZL201521058254.5, 授权, 中国, 2016-05 21.发明专利:一种从油基泥浆钻井废弃物中回收油基泥浆和油基工艺, ZL201410033209.8, 授权, 中国, 2016-03 22.发明专利:废弃油基泥浆或鉆屑中油基的药剂常温深度脱附回收工艺, ZL201410033210.0, 授权, 中国, 2016-01 23.实用新型:小型废弃油基泥浆及含油钻屑中基油随钻回收设备, ZL201420386347.X, 授权, 中国, 2014-12 24.实用新型, 废弃油基钻井废物中基油回收药剂常温深度脱附反应器, ZL201320791340.1, 授权, 中国, 2014-07 25.实用新型, 一种油基钻井含油废物中油基泥浆回收装置, ZL201320791189.1, 授权, 中国, 2014-06 ◆ 获奖成果 1.大型整装含硫气田采出水处理及资源化关键技术与应用,科技进步奖三等(2022-J-3-49-D02),四川省人民政府,排名2,2022 2.一种从油基泥浆钻井废弃物中回收油基泥浆和油基工艺(ZL201410033209.8),中国专利优秀奖, 国家知识产权局, 中国专利奖, 排名1, 2021 3. 显油气特色、强工程实践、重知识应用—化工专业教学模式改革与实践,教学成果奖三等奖四川省人民政府,排名1, 2018 4.川渝地区海相页岩气规模化开发环境保护关键技术级装备,环境保护科学技术奖二等奖(KJ2023-2-36),排名2,2023 5.油基泥浆全价值回收利用一体化技术, 环境技术进步奖一等奖,中国环保产业协会,排名1, 2019 6.钻井废油基泥浆的综合回收资源化利用技术,科学技术奖一等奖,中国循环经济协会,排名1, 2016 7.以突出油气特色和强化工程实践能力培养为主线的化工专业教学改革与实践, 教学成果二等奖,中国石油教育学会,排名2,2017 【关闭】 |
