姓名:吴攀

专业:地球化学、环境科学与工程

研究方向:喀斯特土壤与地下水污染绿色修复

职称:教授(二级),博士研究生导师

职务:伟德国际1946源于英国副董事长、喀斯特地质资源与环境教育部重点实验室(伟德国际1946源于英国)主任、贵州省矿山环境综合治理工程技术研究中心主任。

邮箱:pwu@gzu.edu.cn


1.科研、教学及学术活动

长期从事岩溶地质环境演化、矿山环境污染过程与控制、水/土环境重金属污染与治理修复等方面的教学与研发工作。主持国家重点研发计划课题1项、国家自然科学基金项目5项(含重大联合基金1项),以及贵州省重大科技成果转化、科技支撑、社会发展攻关、地勘基金项目等30余项。提出了岩溶地质背景土壤重金属污染分布格局的成土累积-持续分异成因理论,创建了历史遗留采选废渣重金属原位控制的生态修复与实用技术,构建了基于自然营力的岩溶区酸性矿山废水被动处理综合治理技术方法,为我国西南岩溶区域土壤与地下水污染绿色修复提供理论与技术支撑。在国内外重要学术刊物上发表论文290余篇(其中第一或通讯作者136篇,SCIEI论文140篇)。出版学术专著3部,参编团体标准2项。获美国发明专利2件,授权发明专利12项,软著1件。获绿色矿山突出贡献奖、省级科技进步奖和教学成果奖等6项。曾先后到日本、俄罗斯、意大利、芬兰、西班牙、瑞士等国的高校、科研院所开展学习、交流与合作研究。先后指导毕业的硕士、博士研究90人(含职工5人),指导员工获得中国国际互联网+”挑战杯等创新创业大赛获国家级金奖1个、银奖1个、铜奖5个,省级金奖(一等奖)9个。是国家相关部委和省级生态环境、科学技术、自然资源、农业农村等系统的科技咨询(评审)专家。


2.学习与工作经历

19929月~19967:贵州工学院(贵州工业大学)地质系地质矿产普查与勘探专业,获工学学士学位。

19968月~19996月:贵州工业大学资源与环境学院矿物学·岩石学·矿床学专业,获理学硕士学位。

19998月~20027月:中国科学院地球化学研究所环境地球化学国家重点实验室地球化学专业,获理学博士学位。

20028月~20043月:贵州工业大学资源与环境学院从事教学与科研工作,200212月晋升为副教授。

20043月~200411月:任贵州工业大学bevitor伟德副经理。

200411月~20137月:任bevitor伟德副经理。其中:200611月至200711月在日本千叶大学访问学者;200712月晋升为教授;20089-20097月浙江大学环境与资源学院担任副经理(挂职)

20138月~202012任bevitor伟德经理。2014年1月至2月日本千叶大学高级访问学者。2014年9月兼任国土资源部喀斯特环境与地质灾害重点实验室常务副主任,2015年11月兼任贵州省高等学校矿山环境污染过程与控制特色重点实验室主任。2019年11月获得二级教授资格。

20206~今:伟德国际1946源于英国副董事长。2022年6月兼任喀斯特地质资源与环境教育部重点实验室(伟德国际1946源于英国)主任,2022年11月兼任贵州省矿山环境综合治理工程技术研究中心主任。2023年11月起南京信息工程大学副董事长(挂职)。


3.学术任职

中国矿物岩石地球化学学会终身会员;

中国环境科学学会第八届理事会特邀理事;

贵州省地质学会常务理事,副理事长;

贵州省环境科学学会常务理事,副理事长;

中国矿物岩石地球化学学会地表与生物地球化学专委员会、应用地球化学专委会委员;

伟德国际1946源于英国科学技术协会副主席。

 

4.主持承担的主要科研项目

1贵州省高层次人才培养计划项目(十层次):土壤与地下水环境污染过程、控制与修复(黔科合平台人才-GCC[2023]045),20241-202812月。

2贵州省科技计划项目(重大科技成果转化项目):地下河走向物理化学探测及数字地图绘制技术集成与应用(黔科合成果[2023]重大006),202310-20259月。

3国家重点研发计划课题:有色金属矿区地下水迁移通道与重金属污染过程识别(2019YFC1805301),202001-202312月。

4国家重点研发计划课题后补助项目:岩溶地区矿山地下水污染防控技术体系202201-202412月。

5贵州省科技支撑项目:重金属污染耕地安全利用和管控技术与应用研究(黔科合支撑[2022]一般222202204-202503月。

6贵州省发改委平台建设项目伟德国际1946源于英国矿山环境综合治理工程研究中心(黔发改高技[2022]8825号)202211-202511月。

7贵州省高层次人才培养计划项目(百层次):矿山环境地球化学过程与污染控制(黔科合平台人才[2016]566420171-202212

8)国家自然科学基金委员会-贵州省人民政府喀斯特科学中心项目:喀斯特地区重金属污染过程与防控机制研究(U1612442),20171-202112月。

9)贵州省人才基地建设项目西南喀斯特地区地球关键带资源与环境效应创新人才基地RCJD2018-21201810-202110月。

10国家重点研发计划项目西部典型缺水地区农村供水排水一体化技术及应用示范”-子课题喀斯特山区农村饮用水消毒与污水处理关键技术20168-202012

11贵州省社发科技支撑计划项目:废弃矿山酸化流域综合治理关键技术研究与示范(黔科合[2016]支撑2835号),20171-202012月。

12)贵州省科技计划项目:贵州典型深水型湖库水环境健康风险及综合调控理论与技术--课题:两湖流域面源污染原位复合生态拦截和控制技术研究(黔科合重大字[2015]2001),201511 201812

13)国家自然科学基金项目:高砷煤矿区苔藓中砷的富集特征与迁移转化机理研究(4146300820151-201812月。

14贵州省地勘基金2014年度公益性、基础性项目:贵州省岩溶地下水系统功能可持续利用性研究(黔国土资地环函[2014]23号)20146-20176月。

15国家自然科学基金项目:酸性煤矿废水对表层岩溶水影响的过程与机理基于硫酸盐硫、氧同位素的示踪研究4126300120131-201612月。

16贵州省科技计划课题: “黔中水利枢纽工程重大关键技术研究与应用子课题7水资源水质保障关键技术研究与应用”(黔科合重大专项字[2012]6013-7)20128-20153月。

17贵州省科技创新人才团队建设项目:贵州省矿山环境重金属污染防治科技创新人才团队(黔科合人才团队(2012)400520128~20158月。

18国家自然科学基金项目:高砷煤矿区水环境系统中AsFe(氢)氧化物相互作用及其机理研究4096300520101-201212

19贵州省优秀青年科技人才培养对象专项资金项目:煤矿酸性废水被动处理关键技术的研究与应用” (黔科合人字〔200919200910-201210月。

20贵州省科技厅社会发展科技攻关项目:废弃小煤窑酸性废水污染治理关键技术与示范(黔科合SY20093059200906-201206月。

21)贵州省公益性、基础性地质工作项目:“贵州典型矿区主要环境问题及环境质量演化研究”(黔国土资发〔2009〕94号),2009年6月-2011年6月。

22国家重点基础研究发展计划专题:碳酸盐岩制约下的碎屑岩风化作用2006CB403202),200701-201012月。

23国家自然科学基金项目:高砷煤矿区环境中碳酸盐岩制约下As的迁移与转化机理研究4066300120071-200912

 

5.学术成果

5.1代表专著 

1.王兵王倩吴攀等译[美]Johannes Lehmann [澳]Stephen Joseph ◎生物炭在环境治理中的应用原理、技术与实践电子工业出版社,北京,2024.

2.吴攀,罗有发,刘鸿雁,陈满志等著历史遗留采冶废渣重金属污染原位控制及生态修复技术理论与实践科学出版社北京, 2023.

3.吴攀等著,贵州高砷煤矿区环境中砷的地球化学,贵州科技出版社,贵州贵阳,2013.

5.2代表性学术论文

1. Linwei Li, Xingxing Cao, Chujie Bu, Pan Wu, Biao Tian, Yongheng Dai, Yeye Ren. Effects of acid mine        drainage on photochemical and biological degradation of dissolved organic matter in karst river water.Journal of Environmental Sciences. 135 (2024) 26-38.

2. Xingxing Cao, Y. Jun Xu Guangxi Long, Pan Wu∗, Zhangxing Liu. Dissolved carbon in effluent of wastewater treatment plants and its potential impacts in the receiving karst river.Environmental Research. 251(2024), 118570.

3. Bo Li, Teng Li, Pan Wu* , Lei Yang, Jie Long, Pu Liu, Tao Li. Transport of pollutants in groundwater of domestic waste landfills in karst regions and its engineering control technologies. Journal of Environmental Management 347 (2023) 119245.

4. Linwei Li, Xingxing Cao, Pan Wu*, Chujie Bu, Yeye Ren, Kai Li. Spatio-temporal characterization of dissolved organic matter in karst rivers disturbed by acid mine drainage and its correlation with metal ions. Science of The Total Environment, 2023, 897:165434.

5. Qihang Li, Xuexian Li, Chujie Bu,Pan Wu*. Distribution, Risk Assessment, and Source Apportionment of Heavy Metal Pollution in Cultivated Soil of a Typical Mining Area in Southwest China. Environmental Toxicology and Chemistry, 2023, 42(4):888-900.

6. Qingguang Li, Li An, Pan Wu*, Shilu Wang, Shangyi Gu, Yongqiang Yuan, Yong Fu. The introduction of nitrogen from coal into the surface watershed nitrogen cycle due to coal mining activity. Science of The Total Environment. 2023, 900:165822.

7. Qingguang Li, Pan Wu*, Shilu Wang, Jiangxun Huang, Weiqi Lu, Di Tan, Shangyi Gu, Bailing Fan. The non-coevolution of DIC and alkalinity and the CO2 degassing in a karst river affected by acid mine drainage in Southwest China.Science of The Total Environment. 2023, 900:165856.

8. Sirui Chen, Pan Wu*, Xuefang Zha, Binghuang Zhou, Jingbin Liu, En Long. Arsenic and heavy metals in sediments affected by typical gold mining areas in southwest China: accumulation, sources and ecological risks.International Journal of Environmental Research and Public Health.2023, 20, 1432.

9. Wentao Yang; Haonan Jing; Liyu Yang ;Xuexian Li ;Manzhi Chen; Mengqi Xu; Yonglin Chen; Pan Wu*; Hongyan Liu, Ping Wang. Effects of rapeseed residue organic fertilizer on cadmium toxicity in soil and its uptake and transfer by rice plants (Oryza sativa L.).Land Degradation & Development, 2023,1-12.

10. Xingxing Cao, Qixin Wu, Wanfa Wang, Pan Wu*Carbon dioxide partial pressure and its diffusion flux in karst surface aquatic ecosystems: a reviewActa Geochim. 2023.(2023) 42:943-960.

11. Xuexian Li, Wenlang Qiao, Deng Chen, Pan Wu*, Yixi Xie, Xue Chen. Anomalous concentrations of rare earth elements in acid mine drainage and implications for rare earth resources from late Permian coal seams in northern Guizhou. Science of the Total Environment, 2023, (879):163051.

12. Yining Gao, Hui Tong, Zhipeng Zhao, Ning Cheng,Pan Wu*. Effects of Fe oxides and their redox cycling on Cd activity in paddy soils: A review. Journal of Hazardous Materials, 2023, 131665.

13. Deliang Yin, Xian Zhou, Tianrong He, Pan Wu*, Shu Ran. Remediation of mercury-polluted farmland soils: a review. Bulletin of Environmental Contamination and Toxicology. (2022) 109:661670.

14. Jialiang Han, Longchao Liang, Yaru Zhud, Xiaohang Xu, Le Wang ,Lihai Shang, Pan Wu*, Qixin Wu, Xiaoli Qian , Guangle Qiu, Xinbin Feng.Heavy metal(loid)s in farmland soils in the karst plateau, Southwest China - an integrated analysis of geochemical baselines, source apportionment and associated health risk. Land Degradation & Development(Land Degrad Dev.) 2022;33:1689-1703.

15. Li Qingguang and Wu pan*. Research progress on the acidification features of coal mine drainage and its carbon emission effect during coal exploitation. Environmental Engineering and Management Journal.2022, 21(12):1975-1985.

16. Li Qingguang, Wu Pan*, Li Xuexian,Gu Shangyi, Zhang Ruixue, Zha Xuefang, Qin Shichan. The effect of mining development in karst areas on water acidification and fluorine enrichment in surface watershed. Ecotoxicology and Environmental Safety,2022, 242(10):113954.

17. Lin Liu, Xiaohang Xu*, Jialiang Han, Jian-Ming Zhu, Shenghao Li, Longchao Liang, Pan Wu*, Qixin Wu, Guangle Qiu. Heavy metal(loid)s in agricultural soils in the worlds largest barium-mining area: Pollution characteristics, source apportionment, and health risks using PMF model and Cd isotopes. Process Safety and Environmental Protection.166 (2022) 669681.

18. Ling Li, Lu Liao, Bing Wang, Wei Li, Taoze Liu, Pan Wu*, Qingya Xu , Shirong Liu. Effective Sb(V) removal from aqueous solution using phosphogypsum -modified biochar. Environmental Pollution. 301 (2022) 119032.

19. Qiuping Fu, Jie Lou, Hui Yuan, Rongbin Zhang, Chunmei Zhang, Changli Mo, Jun Luo, Lei Zha*, Pan Wu*. In-situ grown ZIF-67@chitosan (ZIF-67@CS) for highly efficient removal of Pb(II) from water. Journal of Solid State Chemistry. 316 (2022) 123629.

20. Shichan Qin, Xuexian Li, Pan Wu*, Qingguang Li. Spatial-temporal variations and multi‑statistical analysis of contaminants in the waters afected by acid‑mining drainage in Karst area: a case of coal‑mining area in Zhijin County.Environmental Earth Sciences (2022) 81:289.

21. Sun Caili, Wu Pan*, Wang Guanghao, Kong Xingjie. Heavy metal pollutions increase the instability of microbial co-occurrence network in the rhizosphere of native plants. Frontiers in plant science . 2022,10:979922.

22. Sun Caili, Wu Pan*, Wang Guanghao, Kong Xingjie. Improvement of plant diversity along the slope of an historical Pb-Zn slag heap ameliorates the negative effect of heavy metal on microbial communities. Plant and Soil, 2022,473(1-2):473-487.

23. Sun Caili, Wu Pan*, Wang Guanghao, Kong Xingjie. Microbial modules and their selective association with heavy metals contained within a Pb-Zn waste heap. Bulletin of Environmental Contamination and Toxicology. (2022) 109:1067-1074.

24. Weifang Song, Pan Wu*, Jianzhong Liu*, Junhai Li, Zepeng Wang, Qinping Tan, Zhuojun Xie, Lulin Zheng. Genesis of the Tangshang Au Deposit in Southeast Yunnan Province, China: Constraints from In Situ Chemical and S-Sr Isotope Analyses. Minerals,2022,12(7), 806..

25. Weifang Song, Pan Wu*, Jianzhong Liu, Junhai Li, Zepeng Wang, Qinping Tan, Zhuojun Xie. Genesis of the Gaolong gold deposit in Northwest Guangxi Province, South China: Insights from in situ trace elements and sulfur isotopes of pyrite. Ore Geology Reviews, 143 (2022) 104782.

26. Xiangying Li, Lang Teng, Tianling Fu, Tengbing He, Pan Wu*. Comparing the effects of calcium and magnesium ions on accumulation and translocation of cadmium in rice.Environmental Science and Pollution Research, 2022, 29(27):1-12. 

27. Xiaofu ChenXuexian Li,Pan Wu*Xuefang Zha, Yabin Liu, Tao Wei, Wenrui Ran. The development and utilization of bauxite resources in the Guizhou Province and relevant challenges to the ecology and the environment. Gospodarka Surowcami MineralnymiMineral Resources Management. 2022;38(2):5-30.

28. Xingxing Cao, Yeye Ren, Pan Wu*, Linwei Li, Shunchao Chen. The evolution of dissolved inorganic carbon (DIC) and δ13CDIC in acid mine drainage polluted karst rivers: Preliminary findings from laboratory experiments. Journal of Hydrology 612 (2022) 128192.

29. Xuexian Li, Hongyan Liu, Wei Meng, Nanting Liu, Pan Wu*. Accumulation and source apportionment of heavy metal(loid)s in agricultural soils based on GIS, SOM and PMF: A case study in superposition areas of geochemical anomalies and zinc smelting, Southwest China. Process Safety and Environmental Protection 159 (2022) 964-977.

30. Xuexian Li, Nanting Liu, Wei Meng, Jin He, Pan Wu*. Accumulation and Health Risk Assessment of Heavy Metal(loid)s in Soil-Crop Systems from Central Guizhou, Southwest China. Agriculture 2022, 12, 981.

31. Xuexian Li, Wei Meng, Nanting Liu, Pan Wu*. Lithological controls on arsenic accumulation in cultivated soils: Observations from typical karst areas in Central Guizhou, Southwest China. Bulletin of Environmental Contamination and Toxicology. (2022) 109:741-746.

32. Yang, Liyu, Wu, Pan*, Yang, Wentao. Characteristics, Health Risk Assessment, and Transfer Model of Heavy Metals in the SoilFood Chain in Cultivated Land in Karst. Foods. 2022, 11, 2802.

33. Jing Sun, Yoshio Takahashi , William H.J. Strosnider, Toshihiro Kogur, Bing Wang , Pan Wu*, Lijun Zhu, Zhifen Dong. Identifification and quantifification of contributions to karst groundwater using a triple stable isotope labeling and mass balance model.Chemosphere 263 (2021) 127946.

34. Qiuping Fu, Jie Lou, Lei Peng, Rongbin Zhang , Shaoqi Zhou*, Pan Wu*, Wei Yan, Changli Mo , Jun Luo. Iron based metal organic framework for effificient removal of Pb2+ from wastewater. Journal of Solid State Chemistry 300 (2021) 122188.

35. Ruixue Zhang, Pan Wu*, Huijun Ye, Xuexian Li. Hydrogeochemical characteristics and quality assessment of mine water in coalfield area, Guizhou province, southwest China.Bulletin of Environmental Contamination and Toxicology (2021) 107:1087-1094.

36. Wei Meng, XueXian Li, Pan Wu*. New Insights into Selenium Enrichment in the Soil of Northwestern Guizhou, Southwest China. Bulletin of Environmental Contamination and Toxicology.(2021) 107:1095-1102.

37. Wei Meng, Zhuo Chen, Zheng‑Lu Yu, Pan Wu*,Xue‑Xian Li. Reservoir sediment records of polymetallic contamination (Cd, Pb, Zn, As, Hg) in the zinc smelting area of Weining County, Guizhou Province, China. Environmental Earth Sciences, (2021) 80:378.

38. Xuexian Li, Ruixue Zhang, Qingguang Li, Pan Wu, Huijun Ye. Rare earth elements and yttrium (REY) in coal mine drainage from Southwest China: Geochemical distribution and resource evaluation.Science of the Total Environment 782 (2021) 146904.

39. Ling Li, Lu Liao, Yuhong Fan, Han Tu,Shui Zhang,Bing Wang,Taoze Liu, Pan Wu*and Zhiwei Han.Accumulation and transport of antimony and arsenic in terrestrial and aquatic plants in an antimony ore concentration area (Southwest China). Environmental Chemistry, 2020, 17, 314–322.

40. Longchao Liang, Xiaohang Xu, Jialiang Han, Zhidong Xu, Pan Wu*,Jianyang Guo,Guangle Qiu. Characteristics, speciation, and bioavailability of mercury and methylmercury impacted by an abandoned coal gangue in southwestern China. Environmental Science and Pollution Research.2019, 26(36):37001-37011.

41. Ling Li, Han Tu, Shui Zhang, Linna Wu, Min Wu, Yang Tang, Pan Wu*. Geochemical behaviors of antimony in Mining-affected water environment (Southwest China). Environmental Geochemistry and Health.2019, 41(6):2397–2411..

42. Xingxing Cao, Shaoqi Zhou, Feng Xie, Rong Rong, Pan Wu*.The distribution of rare earth elements and sources in Maoshitou reservoir affected by acid mine drainage, Southwest China. Journal of Geochemical Exploration. 2019 (202) :92–99.

43. Longchao Liang, Zhidong Xu, Guangle Qiu, Pan Wu*, Ruixue Zhang. Arsenic accumulation and speciation in epilithic moss collected from an abandoned mercury mining area, South-western China. Atmospheric Pollution Research, 2019 (10):455–461

44. Xingxing Cao, Pan Wu*, Shaoqi Zhou, Jing Sun, Zhiwei Han. Tracing the origin and geochemical processes of dissolved sulphate in a karst-dominated wetland catchment using stable isotope indicators. Journal of Hydrology. 2018, 562:210-222.

45. Qingguang Li, Pan Wu*, Xuefang Zha, Xuexian Li,  Linna Wu, Shangyi Gu. Effects of mining activities on evolution of water chemistry in coal-bearing aquifers in karst region of Midwestern Guizhou, China: evidences from δ13C of dissolved inorganic carbon and δ34S of sulfate.Environmental Science and Pollution Research. 2018,(25):18038–18048.

46. Cao Xingxing; Wu Pan*; Zhou Shaoqi; Han Zhiwei; Tu Han; Zhang Shui.Seasonal variability of oxygen and hydrogen isotopes in a wetland system of the Yunnan–Guizhou Plateau: a quantitative assessment of groundwater inflow fluxes. Hydrogeology Journal, 2018,  26(1) 215–231.

47. Xuexian Li,Pan Wu*, Zhiwei Han,Xuefang Zha, Huijun Ye & Yingji Qin Effects of mining activities on evolution of water quality of karst waters in Midwestern Guizhou, China: evidences from hydrochemistry and isotopic composition. Environmental Science and Pollution Research,2018, 25(2):1220–1230.

48. Xuexian Li, Pan Wu*. Geochemical characteristics of dissolved rare earth elements in acid mine drainage from abandoned high-As coal mining area, southwestern China.Environmental Science and Pollution Research. 2017,24(25): 20540–20555.

49. Jing Sun,Tatsuaki Kobayashi, William H.J. Strosnider, Wu Pan*.  Stable sulfur and oxygen isotopes as geochemical tracers of sulfate in karst waters. Journal of Hydrology,2017, 551:245–252.

50. Chen Hao, Takashi Oguchi,Wu Pan*. Assessment for soil loss by using a scheme of alterative sub-models based on the RUSLE in a Karst Basin of Southwest China. Journal of Integrative Agriculture 2017, 16(2): 377-888.

51. Xingxing Cao, Pan Wu*, Zhiwei Han, Shui Zhang, Han Tu. Sources, Spatial Distribution, and Seasonal Variation of Major Ions in the Caohai Wetland Catchment, Southwest China. Wetlands (2016) 36:1069-1085 .

52. Xingxing Cao, Pan Wu*, Zhiwei Han, Han Tu, Shui Zhang.Factors controlling the isotope composition of dissolved inorganic carbon in a karst-dominated wetland catchment, Guizhou Province, Southwest China. Environmental Earth Sciences, 2016,75(13)1103-1117.

53. Xingxing Cao, Pan Wu*, Zhenxing Cao. Element geochemical characteristics of a soil profile developed on dolostone in central Guizhou, southern China: implications for parent materials. Acta Geochimica,2016, 35(4):445–462.

54. Xuexian Li, Pan Wu*, Zhiwei Han, Jingfang Shi. Sources, distributions of fluoride in waters and its influencing factors from an endemic fluorosis region in central Guizhou, Environmental Earth Sciences, 201675(11), 981-994.

55.  Jing Sun , Changyuan Tang , Pan Wu*, William H. J. Strosnider. Hydrogen and oxygen isotopic composition of karst waters with and without acid mine drainage:Impacts at a SW China coalfield. Science of the Total Environment, 2014, (487):123–129.

5.3 授权发明专利

1.Pan Wu; Han Tu; Shui Zhang; Youfa Luo; Manzhi Chen. IN-SITU REMEDIATION METHOD FOR LEAD-ZINC SLAG DUMP. United States Patent. Patent No.: US 11,858,018 B1; Date of Patent: Jan. 2, 2024.

2.黄家琰;张瑞雪;吴攀;李学先;查学芳;杨艳;罗光俊一种酸性矿山废水处理装置中国. ZL 2023 1 0819726.7

3.孙静,吴攀.分层混合水样同步取样装置.中国.ZL 2021 1 0839207.8

4.罗光俊,成中福,何天容,吴攀,尹德良一种适合于汞污染土壤的秸秆发酵方法和秸秆还田方法中国.ZL 2022 11474898.7

5.吴攀,朱健,郑汝意.一种钡渣渗滤液和酸性矿山废水的联合处理方法.中国.ZL 2022 1 1225572.0;

6.吴攀,涂汉,张水,罗有发,陈满志.一种铅锌废渣堆场原位修复方法.中国.ZL 2022 1 0673856.X

7.吴攀,冉争艳,罗有发,李学先.一种电解锰渣氨氮去除的方法及设备.中国.ZL 2022 1 0672012.3

8.吴攀,罗有发,张瑞雪,黄家琰,张水,涂汉.高硫煤矸石堆场连续产碱透水帷幕构建方法.中国.ZL 2020 1 1311729.2;

9.吴攀,罗有发,张瑞雪,黄家琰,张水,涂汉.高硫煤矸石堆场连续产碱透水帷幕材料制备方法.中国.ZL 2020 1 1314920.2;

10.孙静,吴攀,涂汉,张水,罗有发.碱性物质中和测量酸性水体流量的方法.中国.ZL 2020 1 1330962.5;

11.黄家琰,吴攀,张瑞雪,杨燕,杨绍章.一种利用有机质及碳酸盐岩联合处理矿山酸性废水的方法.中国, ZL 2012 1 0146849.0

 

6.获奖及荣誉

2023年入选贵州省十层次创新型人才

2023年获环境保护科学技术二等奖(排名第一);

2022获中国绿色矿山突出贡献奖

2020获生态环境部自然资源部农业农村部全国农用地土壤污染状况详查表现突出个人称号;

2019年伟德国际1946源于英国第三届我心目中的好导师称号;

2019年贵州省省管专家;

2019年享受国务院政府特殊津贴;

2018年贵州省委组织部西南喀斯特地球关键带资源与环境效应科技创新人才基地负责人;

2018贵州省优秀博士生导师称号;

2018贵州省优秀科技工作者称号。

2017年伟德国际1946源于英国学术学科带头人;

2016年获贵州省高等学校科学研究优秀成果二等奖(排名第一)

2016年入选贵州省百层次创新型人才

2016年获伟德国际1946源于英国“十佳”优秀Seminar团队;

2014年获贵州省科技进步三等奖(排名第一)

2013年获第二十二届中国西部地区优秀科技图书三等奖

2013年获伟德国际1946源于英国优秀教育工作者称号

2012年获中国环境科学学会第九届优秀环境科技工作者奖

2012贵州省矿山环境重金属污染防治科技创新人才团队领衔人

2012年获伟德国际1946源于英国卓越基金

2009年获贵州省优秀青年科技人才

2009年获伟德国际1946源于英国优秀科研奖

2006年贵州省人民政府授予全省环境保护先进工作者称号;