程金平(Cheng Jinping)
首席研究员
电子邮件:jpcheng@sjtu.edu.cn
办公室电话:021- 54743936
办公地点:绿色环境楼319房间
研究方向
一、大气环境与应对气候变化
在大气污染形成机制、臭氧/VOCs/颗粒物减排特征和削减机理、源解析、污染源高精度动态排放清单、重污染应急等方面具有很好的工作积累; 曾参与2016年杭州G20峰会、2018年上合组织青岛峰会、2018-2021年连续4年中国进博会空气质量保障,参与京津冀及其周边“2+26”城空气质量保障; 团队成员驻点十余个地级市生态局,深度参与当地政府的蓝天保卫战,为当地PM2.5、PM10、扬尘、臭氧的改善提供精准的科学策略,为多个城市制定了大气污染应急措施方案,负责驻点过的地级市空气质量排名得到明显改善。在碳核查、碳达峰、碳污协同减排、应对气候变化领域具有一定的工作基础,负责编制多个城市高精度温室气体排放清单,参与了多个省(直辖市)碳核查工作,参与了多个城市碳监测方案的编制,开发出具有知识产权的碳中和技术和工艺。
二、新污染物管理与环境风险
在新污染物环境风险筛查、环境风险评估方法、典型新污染物排放清单核算、监测方法、管控措施等方面具有一定的工作基础,曾在日本国立水俣病研究所WHO合作中心高级访问,发表新污染物复合暴露风险文章20余篇。
三、园区智慧环保与基于大数据非现场监管
在园区异味溯源、区域风险、复合污染过程及其复合反应机理方面具有很好的工作积累。在园区智慧环保和大数据应用技术方面开展了大量工作,建立了基于大数据的在线数据审核、填充、补遗方法,构建了基于大数据非现场监管跟踪技术;建立了园区污染源活动水平、排放量与环境质量等大数据实时汇聚、跟踪和融合方法体系,并得到了应用。
四、环境规划与环境风险应急管理
在环境风险预警、形成过程和爆发机制方面均具有很好的工作积累。为多个地方政府编制过“环保规划”,“水、大气、噪音环境功能区划”,“总量减排规划”,“节能规划和循环经济发展规划”,“农村环境综合整治规划”等,并通过当地政府审批执行;为多个地方生态局建立了“环境风险分级分区防控体系”、“环境应急管理平台”,并应用于当地日常环境应急管理工作中。
五、海洋环境领域
在赤潮毒素快速检测技术、海岛生态环境保护、海洋疏浚物处理处置及其对倾倒区影响方面均具有工作积累,申请相关专利3项,作为副主编出版专著3部,获海洋奖项3项。
六、土壤与地下水修复领域
在场地风险评估和修复技术方面具有一定的工作积累,作为副主编出版专著1部;曾为矿山场地、石化场地、重金属污染场地进行过风险评估和修复方案设计,修复的场地均得到当地政府部门的验收通过。
个人简历
团队成员30余人,其中科研助理10余人,博士后和研究生10余人。
1993.09-—2003.06 吉林大学,本科(1993-1997),硕士(1997-2000),博士(2000-2003)
2003..07—至今,565net必赢最新版首页官网,565net必赢最新版首页官网,讲师(2003-2005),副教授(2005-2012),研究员(2012-至今)
2008.01-—2009.01 日本环境省国立水俣病研究所WHO合作中心 高级访问
2010.05-—2011.05 广西北海市环境保护局 党组成员,副局长 (挂职)
2013.4—2014.4 上海市徐汇区环境保护局,副局长(挂职)
2012.05-2014.05 565net必赢最新版首页官网实验室与设备处 ,副处长
2014.05-2014.12 徐汇区人民政府虹梅街道办事处 ,副主任
代表性论著
发表刊物论文100余篇,其中英文SCI收录论文50余篇,作为副主编出版专著5部,代表论文如下:
[1] Jinping Cheng*, Masatake Fujimura, Wenchang Zhao, Wenhua Wang. Neurobehavioral effects, c-Fos/Jun expression and tissue distribution in rat offspring prenatally co-exposed to MeHg and PFOA: PFOA impairs Hg retention. Chemosphere 2013,91: 758–764.
[2] Jinping Cheng*, Wenchang Zhao, Qian Wang, Xiaojie Liu, Wenhua Wang. Accumulation of mercury, selenium and PCBs in domestic duck brain, liver and egg from a contaminated area with an investigation of their redox responses. Environmental Toxicology and Pharmacology, 2013,35:388–394.
[3] Cheng Jinping *, Yang Yichen, Ma Jing, Wang Wenhua, Liu Xiaojie, Sakamoto Mineshi , Qu Yiya, Shi Wei. Assessing noxious effects of dietary exposure to methylmercury, PCBs and Se coexisting in environmentally contaminated rice in male mice. Environ Int, 2009,35, 619-625.
[4] Wenchang Zhao,Jinping Cheng*, Jinmin Gu,Yuanyuan Liu ,Masatake Fujimura,Wenhua Wang. Assessment of neurotoxic effects and brain region distribution in rat offspring prenatally co-exposed to low doses of BDE-99 and methylmercury. Chemosphere,2014, 112: 170-176.
[5]Han DM, Fu QY, Gao S, Li L, Ma YG, Qiao LP, Xu H, Liang S, Cheng PF, Chen XJ, Zhou Y, Yu JZ, Cheng JP*. Non-polar organic compounds in autumn and winter aerosols in a typical city of eastern China: size distribution and impact of gas–particle partitioning on PM2.5 source apportionment. Atmos. Chem. Phys., 18(13), 9375–9391, 2018.
[6] Han DM, Zhang JQ, Hu ZH, Ma YG, Duan YS, Han Y, Chen XJ, Zhou Y, Cheng JP*, Wang WH. Particulate mercury in ambient air in Shanghai, China: Size-specific distribution, gas–particle partitioning, and association with carbonaceous composition. Environ. Pollution, 238, 543–553, 2018.
[7] Han DM, Gao S, Fu QY, Cheng JP*, Chen XJ, Xu H, Liang S, Zhou Y, Ma YN. Do volatile organic compounds (VOCs) emitted from petrochemical industries affect regional PM2.5? Atmos. Res., 209, 123–130, 2018.
[8] Feng JJ, Chen XL, Jia L, Liu QZ, Han DM, Cheng JP*. Effluent concentration and removal efficiency of nine heavy metals in secondary treatment plants in Shanghai, China. Environ. Sci. Pollut. R., 25, 17058–17065, 2018.
[9] Han DM, Fu QY, Gao S, Zhang XF, Feng JJ, Chen XL, Huang XQ, Liao HX, Cheng JP*, Wang WH. Investigate the impact of local iron–steel industrial emission on atmospheric mercury concentration in Yangtze River Delta, China. Environ. Sci. Pollut. R., 26, 5862–5872, 2019.
[10] Han DM, Fu QY, Gao S, Hu ZH, Zhang XF, Chen XL, Feng JJ, Cheng JP*, Wang WH. Two-year monitoring of gaseous elementary mercury in a typical iron–steel plant in Yangtze River Delta, China: Characterization and estimation of its dynamic oxidation. Sci. Total Environ., 657, 1217–1226, 2019.
[11] Han DM, Ma YG, Huang C, Zhang XF, Xu H, Zhou Y, Liang S, Chen XJ, Huang XQ, Liao HX, Fu S, Hu X, Cheng JP*. Occurrence and source apportionment of perfluoroalkyl acids (PFAAs) in the atmosphere in China. Atmos. Chem. Phys., 19, 14107—14117, 2019.
[12] Chen XJ, Guo MX, Feng JJ, Liang S, Han DM, Cheng JP*. Characterization and risk assessment of heavy metals in road dust from a developing city with good air quality and from Shanghai, China. Environ. Sci. Pollut. R., 26, 11387–11398, 2019.
[13] Chen XJ, Liu QZ, Sheng T, Li F, Xu ZF, Han DM, Zhang XF, Huang XQ, Fu QY, Cheng JP*. A high temporal-spatial emission inventory and updated emission factors for coal-fired power plants in Shanghai, China. Sci. Total Environ., 688, 94–102, 2019.
[14] Chen XJ, Liu QZ, Yuan C, Sheng T, Zhang XF, Han DM, Xu ZF, Huang XQ, Liao HX, Jiang YL, Dong W, Fu QY, Cheng JP*. Emission characteristics of fine particulate matter from ultra-low emission power plants. Environ. Pollution, 255, 113157, 2019.
[15] Feng JJ, Gao S, Fu QY, Chen XJ, Chen XL, Han DM, Cheng JP*. Indirect source apportionment of methyl mercaptan using CMB and PMF models: a case study near a refining and petrochemical plant. Environ. Sci. Pollut. R., 26, 24305–24312, 2019.
[16] Wang ZY, Feng JJ*, Fu QY, Gao S, Chen XJ, Cheng JP*. Quality control of online monitoring data of air pollutants using artificial neural networks. Air Quality, Atmos. Health, 12, 1189–1196, 2019.
[17] Zhang XF, Yin YY, Wen JH, Huang SL, Han DM, Chen XJ, Cheng JP*. Characteristics, reactivity and source apportionment of ambient volatile organic compounds (VOCs) in a typical tourist city. Atmos. Environ., 215, 1189–1196, 2019.
[18] Zhang XF, Gao S, Fu QY, Han DM, Chen XJ, Fu S, Huang XQ, Cheng JP*. Impact of VOCs emission from iron and steel industry on regional O3 and PM2.5 pollutions. Environ. Sci. Pollut. R., 27, 490–499, 2020.
[19] Huang XQ, Han DM, Cheng JP*, Chen XJ, Zhou Y, Liao HX, Dong W, Yuan C. Characteristics and health risk assessment of volatile organic compounds (VOCs) in restaurants in Shanghai. Environ. Sci. Pollut. R., 27, 490–499, 2020.
[20] Haohao Jia,Juntao Huo, Qingyan Fu, Yusen Duan, Yanfen Lin, Xiaodan Jin, Xue Hu,Jinping Cheng*. Insights into chemical composition, abatement mechanisms and regional transport of atmospheric pollutants in the Yangtze River Delta region, China during the COVID-19 outbreak control period.Environmental Pollution 267 (2020) 115612.
[21] ShuangFu ,MeixiuGuo,Jinping Cheng⁎。Improving VOCs control strategies based on source characteristics and chemical reactivity in a typical coastal city of South China through measurement and emission inventory. Science of the Total Environment 744 (2020) 140825
[22] Xu, H., Xiao, K., Cheng, J., Yu, Y., Liu, Q., Pan, J., Chen, J., Chen, F., Fu, Q.* Characterizing aircraft engine fuel and emission parameters of taxi phase for Shanghai Hongqiao International Airport with aircraft operational data. Sci. Total Environ. 720, 137431, 2020.
[23] Xu, H., Yang, H., Ge, Q., Jiang, Z., Wu, Y., Yu, Y., Han, D., Cheng, J.* Long-term study of heavy metal pollution in the northern Hangzhou Bay of China: temporal and spatial distribution, contamination evaluation, and potential ecological risk. Environ. Sci. Pollut. R, 2020.
[24] Xu, H., Yan, C., Fu, Q., Xiao, K., Yu, Y., Han, D., Wang, W., Cheng, J.* Possible environmental effects on the spread of COVID-19 in China. Sci. Total Environ. 731, 139211.
[25] Xu, H., Fu, Q., Yu, Y., Liu, Q., Pan, J., Cheng, J.*, Wang, Z., Liu, L. Quantifying aircraft emissions of Shanghai Pudong International Airport with aircraft ground operational data. Environ. Pollut. 261, 114115, 2020.
[26] Xue Hu, Qizhen Liu, Qingyan Fu, Hao Xu, Yin Shen, Dengguo Liu, Yue Wang, Haohao Jia, Jinping Cheng* . A high-resolution typical pollution source emission inventory and pollution sources changes during the COVID-19 lockdown in a megacity, China. Environ. Sci. Pollut. R.,2020.
[27]Jia HH, Gao S, Duan YS, Fu QY, Che X, Xu H, Wang Z, Cheng JP*. Investigation of health risk assessment and odor pollution of volatile organic compounds from industrial activities in the Yangtze River Delta region, China. Ecotoxicol. Environ. Saf., 208, 111474, 2021.
[28] Fan LP, Fu S, Wang X, Fu QY, Jia HH, Xu H, Qin GM, Hu X, Cheng JP*. Spatiotemporal variations of ambient air pollutants and meteorological influences over typical urban agglomerations in China during the COVID-19 lockdown. J Environ Sci (China). 106, 26-38, 2021.
[29]Jia, HH, Huo, JT, Fu, QY, Duan, YS, Lin, YF, Hu, X, Fan, LP, Cheng, JP*. Atmospheric characteristics and population exposure assessment of black carbon at a regional representative site in the Yangtze River Delta region, China based on the five-year monitoring. Sci. Total Environ., 777, 145990, 2021.
[30]Jia, HH, Pan, J, Huo, JT, Fu, QY, Duan, YS, Lin, YF, Hu, X, Cheng, JP*. Atmospheric black carbon in urban and traffic areas in Shanghai: Temporal variations, source characteristics, and population exposure. Environ Pollut., 289, 117868, 2021.
[31]Jia, HH, Huo, JT, Fu, QY, Duan, YS, Lin, YF, He, YY, Cheng, JP*. Insights into characteristics, source variation, and health risks mitigation of airborne heavy metal(loid)s in Shanghai during China International Import Expo. Urban Clim., 44, 101201, 2022.
[32] Guimei Qin, Song Gao,Cheng, JP* et al. Investigation of VOC characteristics, source analysis, and chemical
conversions in a typical petrochemical area through 1‑year monitoring and emission inventory. Environmental Science and Pollution Research 1356-022-19145-7.
[33]Hao Xu, Kai Xiao, Jun Pan, Qingyan Fu, Jinping Cheng*, et tal. Evidence of aircraft activity impact on local air quality: A study in the context of uncommon airport operation. journal of environmental sciences 125 (2023) 603–615.
[34] Qing-rui Zeng, Zi-ang Jia, Xu Liu, Jin-ping Cheng*, et al . Multi-Interface polarization engineering constructed 1T-2H MoS2 QDs/ Y-NaBi(MoO4)2 multiple heterostructure for high-efficient piezoelectric-photoelectrocatalysis PDE-5i degradation. Applied Catalysis B: Environmental 327 (2023) 122460.
[35] Zining Huang, Haohao Jia, Xiahong Shi, Zhengyu Xie, Jinping Cheng*. Revealing the impact of China’s clean air policies on synergetic control of CO2 and air pollutant emissions: Evidence from Chinese cities, Journal of Environmental Management 344 (2023) 118373.
[36] Zhengyu Xie, Haohao Jia,Yiwen Cai, Zining Huang, Tongchen Luo, Jinping Cheng*. Emission accounting, sectoral contributions and gridded spatial distribution of greenhouse gases in a typical petrochemical district of Shanghai,Atmospheric Pollution Research 14 (2023) 101776.
[37] Huarui Ren,Wei Dong,Qi Zhang ,Jinping Cheng *. Identification of priority pollutants at an integrated iron and steel facility based on environmental and health impacts in the Yangtze River Delta region, China.
Ecotoxicology and Environmental Safety 264 (2023) 115464.
[38] Qingrui Zeng, , Ziang Jia, Xu Liu, Jinping Cheng*. A novel 1T-2H MoS2/NaBi(MoO4)2 alternating-phase piezoelectric composites for high-efficient ultrasound-drived piezoelectric catalytic removal of Sildenafil. Process Safety and Environmental Protection 179 (2023) 314–328.
[39] Yuntong Dai , Xiahong Shi , Zining Huang , Weiyi Du , Jinping Cheng *. Proposal of policies based on temporal-spatial dynamic characteristics and co-benefits of CO2 and air pollutants from vehicles in Shanghai, China. Journal of Environmental Management 351 (2024) 119736.
[40] Xiahong Shi, Zining Huang, Yuntong Dai, Weiyi Du, Jinping Cheng *. Evaluating emission reduction potential and co-benefits of CO2 and air pollutants from mobile sources: A case study in Shanghai, China. Resources, Conservation & Recycling 202 (2024) 107347.
代表专利
[1] 程金平,曾庆瑞,龙明策,龚佑沄,等. 一种二氧化碳吸收剂及其制备方法与应用,申请号 202210318855.3
[2] 程金平,曾庆瑞,龙明策,龚佑沄,等. 一种高疏水耐腐蚀的MOFs基复合材料制备方法及碳中和应用,申请号:202210520225.4
[3] 龙明策,程金平,等. 高效铺集二氧化碳的胺改性多孔分子筛及制备方法和应用,申请号:202210516342.3
[4] 程金平,龚佑沄,等. 一种疏水性MOFs复合材料制备方法及碳中和应用,申请号:202210631438.4
[5] 程金平,史夏虹,等. 基于在线数据的企业非现场跟踪分析方法、系统、介质及设备,申请号:202211384034.6.
[6] 程金平,史夏虹,等. 空气质量研判、污染溯源及应急管控建议生成方法及系统, 申请号:202310674787.9。
代表项目
先后作为项目负责人或主要参与人,承担包括国家自然科学基金、国家863、国家973、上海科委、环保部门、海洋部门及企业委托等在内的项目200余项,代表课题如下:
- 参与总理基金项目:“2+26”城市“一市一策”跟踪项目,大气污染防治综合解决方案研究
- 国家自然科学基金项目:“持续霾污染期间羟基自由基对大气汞非生物甲基化影响研究”,21577090,2016.1-2019.12;
- 环保部项目:东部沿海发达城市扬尘源本地化排放系数及排放清单更新机制研究-----以上海为例,2017
- 教育部项目,“都市霾污染过程室内空气品质变化特征及健康风险”,编号, NCET-12-0362,2012-2014;
- 科技部重大专项,海洋环境灾害及突发环境事件预警和应急处置技术, YS2017YFSF070130,参与
- 国家海洋局项目:大金山岛大气自动观测与预警平台构建,2016-2017
- 上海科委项目:上海港危化品储运过程中突发环境事件风险评估,17DZ1200103,参与
- 上海教委项目:孕早期重要环境因素暴露与胎儿先天性心脏病相关性多中心临床研究, 参与,2017
- 上海市环保局项目:上海市浦东及虹桥国际机场大气污染深化减排及监管对策研究,2017
- 上海市海洋局项目,“海洋倾废对上海海域生态环境叠加影响及对策措施研究”,编号:2015-03-02;
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上海市经信委项目:“扬尘大数据应用及综合管控平台建设” 2018
- 九江市环保局项目,九江市大气PM2.5/PM10、VOCs来源解析及管理策略,2016
- 桂林市环保局项目,桂林市扬尘对细颗粒物(PM2.5)污染的贡献及精细化管理策略,2015
- 德州市环保局项目:德州市大气污染源排放清单编制,2017
- 滨州市生态环境局:滨州市大气污染源排放清单编制,2020
- 北海市环保局项目:北海市环境保护和生态建设“十三五”规划,2016
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北海市科技局项目:北海市颗粒物来源解析,2017
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北海市发改委项目:北海市生态补偿管理办法编制,2019
- 玉林市生态环境局项目:玉林市大气污染防治(源清单/源解析/达标规划),2019
- 上海化工区环保办:上海化工区LDAR实施效果评估,2018
- 南宁市科技局项目:矿山复垦农田土壤修复技术研究与示范,2017
- 上饶市/景德镇市/淮南市/淄博市/石家庄市/苏州市/太仓/项目:蓝天保卫战现场核查与对标,2019
- 上海市浦东新区环保局项目:浦东新区环境风险与应急管理体系建设,2017
- 上海市金山区环保局项目:金山区颗粒物源解析及VOCs污染特征,2017
- 上海市徐汇区环保局项目:徐汇区龙吴路道路扬尘源解析及预警预报体系构建,2014
- 上海市奉贤区环保局项目:重大风险源企业环境风险评估,2017
- 上海市杨浦区生态环境局项目:杨浦区突发环境事件及辐射事件应急方案及措施,2019
- 上海市闵行区生态环境局:环保第三方治理评估体系,2019
- 庐山市环保局项目:污染源普查质量核查与评估,2018
- 齐河环保局项目:齐河大气污染防治,2017
- 柴桑生态环境局项目:柴桑蓝天保卫战技术服务,2019
- 北海市海城区人民政府:海城区国家生态文明建设示范区创建规划,2018
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钦州项目:广西钦州石化产业园智慧环保管理技术方案,2019
- 企业项目,3M中国有限公司环境风险评估与突发环境事件应急预案编制”,2016
- 企业项目,“中国石油化工股份有限公司北海分公司原旧址厂区场地(部分)土壤污染修复方案”,2013
- 中国商用飞机有限责任公司,场地健康风险评估,2017
- 上海石化项目:在线数据审核与挖掘,2018
- 中国石化南宁/河池/百色/钦州/桂林/贵港/柳州/崇左分公司项目:LARD建档及泄漏评估(VOCs项目),2020
- 企业项目:100余家企业的环境风险与防控措施识别 (代表企业:巴斯夫上海涂料有限公司,上汽通用汽车有限公司,通用电气药业(上海)有限公司,上海国际港务(集团)股份有限公司,上海雀巢饮用水有限公司,泛亚汽车技术中心有限公司,上海城投污水处理有限公司,杨森(中国)研发中心, 日陆物流(上海)有时公司等等)。
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国家大气攻关中心:参与 “一市一策”:吕梁市大气污染源排放清单更新,2021
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上海碳核查项目:2020年度碳排放报告企业历史数据盘查,2021
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临沂生态环境局:临沂市污染源排放清单、动态排放清单、温室气体排放清单,2021
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大数据代表项目:基于大数据分析重点排污单位生产监测与大气污染物实时排放总量研究;
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上海市生态环境局执法总队:基于大数据分析的非现场执法应用,2021
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碳代表项目:高精度温室气体排放清单编制,温室气体仪器比对测试,低碳社区/低碳发展实践区/低碳园区创建方案,典型化工区碳污协同减排技术方案,2021
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芜湖生态环境局:芜湖市大气污染源排放清单更新,2021
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企业委托项目:碳中和技术研发,660万,2021-2022
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安徽省生态环境厅项目:2021年度温室气体重点排放单位碳排放情况核查与复核,2022.
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重庆市生态环境局:重庆地方碳市场扩容企业碳排放数据盘查工作,2022.
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广西生态环境厅:广西化工园区地下水环境状况调查评估,2022.
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上海市静安区生态环境局:大气污染源排放清单更新,2022.
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呼和浩特生态环境局:呼和浩特市精细化大气污染源排放清单及VOCs组分清单编制服务,2023.
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上海市固化中心:上海市化学物质(新污染物)环境信息调查项目,2023.
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嘉定区生态环境局:嘉定区温室气体排放清单编制,2023.
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广西海洋环境监测中心站:广西近岸海域监测数据审核升级及水质预警预报,2023.
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黄浦区生态环境局:黄浦区臭氧前体物排放源调查、重点前体物污染源“一源一策”治理方案编制项目,2023.
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上海市生态环境局:制药行业新污染物治理及隐患排查整治工作,2023.
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中国环境监测总站项目:基于排放源统计等数据的温室气体清单编制实用技术研究,2023.
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浦东临港项目:大气污染源排放清单核查技术服务,2023.
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上海市崇明区生态环境局:2022年大气污染源排放清单编制和2023年重污染天气应急减排清单编制,2023.
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老港镇人民政府:老港镇环保管家,2023.
获奖情况
- 上海市微量元素学会副理事长(2015年当选);
- 上海市环境应急专家库,重庆市环境监测专家库,巴塞尔公约亚太区域中心化学品和废物环境管理智库专家
- 上海市环境科学学会土壤与地下水分会秘书长(2011年当选);
- 2014年获上海海洋科学技术奖,二等奖(排名第二),证书号:2014-02-02-D02;
- 2014年获上海市水务海洋科学技术奖,三等奖(排名第五),证书号:2014127-3-R05;
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2015年获上海海洋科学技术奖,二等奖(排名第一),证书号:2015-02-05-G01;
- 2018年获上海市水务海洋科学技术奖,二等奖,证书号:2018110-2-D02
- 2019年获上海市科学技术奖,二等奖,证书号:20194085-2-R03;
- 2019年入选福建省 “闽江学者奖励计划”,2019年
- 2022年获广西科学技术奖,二等奖,证书号: 2022J2-31-R04
- 2022年获环境保护科学技术奖,二等奖, 证书号:K12022 2 12G03
- 2012年入选教育部新世纪优秀人才,2012年;
- 2013年 “SMC-晨星青年学者奖励计划”优秀青年教师(B)类;
- 2012年 获上海交大教学新秀。