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赵玲(Zhao Ling)
研究员
博士/博士后,中共党员
邮件:wszhaoling@sjtu.edu.cn
(长期招聘博士后)

个人简介

上海交通大学环境科学与工程学院研究员,硕士、博士研究生导师

同时兼任本校中英国际低碳学院双聘研究生导师

上海市普陀区生态环境局副局长(挂职,2023—2024)

2008年毕业于上海交通大学,获环境工程博士学位

2008-2011年,同济大学污染控制与资源化国家重点实验室博士后

2013-2014年,英国爱丁堡大学和美国伊利诺伊大学访问学者

研究方向:土壤污染修复、土壤改良和固碳;生物炭环境功能材料研发和应用;多源固废的低碳协同处理处置

主持国家重点研发计划土壤专项课题、国家自然科学基金项目、国家科技部水体污染控制与治理科技重大专项子课题等。作为研究骨干参与国家自然科学基金地区重点项目、国家环保部公益项目、国家科技支撑计划、美国基金“Russell and Helen Dilworth Memorial Fund (USA) ”等。在环境领域主流期刊发表论文80多篇,获专利授权10余项。其中第一/通讯作者SCI论文40多篇。

教学方面,建设并主讲本科生课程“环境土壤学”,参讲课程包括 “土壤-地下水污染修复工程”、“环境与可持续发展”、“环境学导论”、“环境工程大实验”等。完成教学改革项目“环境学导论课一体化教学模式:问题导向-案例分析-多元考核”,发表教学论文,并多次获得教学奖项。


主持的科研项目(代表性)

1. 国家自然科学基金面上项目(No.52370143),退役动力电池提锂后磷酸铁残渣协同生物质热解制复合生物炭及其土壤环境效应,2024/1-2027/12,51万元,在研。

2. 2020国家重点研发计划项目“场地土壤污染成因与治理技术”,区域场地土壤跨介质污染物多源清单与制定方法,课题一,区域场地污染物多源识别与排放清单,2020/11-2024/10,419万元/200万元,在研。

3. 上海交大-爱丁堡大学种子基金项目,联合生命周期分析和生物地球化学场模型研究生物炭土壤施入的减排潜势,2023/07-2024/06,7.905万元(中方)、9,300欧元(英方),在研。

4. 技术开发项目,中铁四局集团有限公司第四工程分公司,氯碱化工场地土壤-地下水有机无机复合污染组合修复技术研究,2023/11-2025/08,60万元,在研。

5. 国家自然科学基金面上项目,生物炭负载微生物在“地下水抽提淋滤土壤共修复”体系中降解有机污染物的机制,2019/1-2022/12,62万元,结题。

6. 国家自然科学基金面上项目,矿物质对生物炭形成及其碳稳定性的调控机制,2016/1-2019/12,68万元,结题。

7.  国家水体污染控制与治理科技重大专项,河网区上游滞留河道治理和生态净化关键技术研发与工程示范子课题3,重污染河道底泥生境改善和资源化技术研发和应用,2017/06-2020/06,222万元,负责子任务100万,结题。

8.  国家自然科学基金青年基金项目,21107070,生物质废弃物源与生物质炭的性质-构效关系,2012/01-2014/12,26万元,结题。

9.  湖南省衡阳市生态环境局技术服务项目,衡阳市“十三五”环境保护规划终期评估和“十四五”生态环境保护规划编制,2021/09-2021/12,69.5万元,结题。

10. 山东省技术服务项目,37132441000220190008-001,农业局耕地质量提升项目新技术研究试验,2019/12-2020/6,17.5万元,结题。


SCI收录论文(部分)

1) Zhai, Y., Guo, W.B., Li, D.P., Chen, B., Xu, X.Y., Cao, X.D., Zhao, L.*, 2024. Size-dependent influences of nanoplastics on microbial consortium differentially inhibiting 2, 4-dichlorophenol biodegradation. Water. Res. (Accept)

2) Meng, F., Rong, G.Q., Zhao, R.J., Chen, B., Xu, X.Y., Qiu, H., Cao, X.D., Zhao, L.*, 2024. Incorporating biochar into fuels system of iron and steel industry: carbon emission reduction potential and economic analysis. Appl. Energ. 356, 122377.

3) Nan, H.Y., Yang, F., Wang, C.Q., Xu, X.Y., Qiu, H., Cao, X.D., Zhao, L.*, 2024. Phosphorus footprint in whole biowaste-biochar-soil-plant system: reservation, replenishment and reception. J. Agr. Food Chem. (Accept)

4) Nan, H.Y., Yang, F., Li, D.P., Cao, X.D., Xu, X.Y., Qiu, H., Zhao,L.*, 2023. Calcium enhances phosphorus reclamation during biochar formation: Mechanisms and potential application as a phosphorus fertilizer in a paddy soil. Waste Manage. 162, 83–91.

5) Yang, F., Lv, J.F., Zheng, Y.F., Cui, J.Y., Huang, Y.D., Cao, X.D., Liu, H.Z., Zhao, L.*, 2023. Enhancement of coal gangue performance by surface micro-crystalline glaze derived from mineral powder. Sci. Total Environ. 858, 159986.

6) Nan, H.Y., Mašek, O., Yang, F., Xu, X.Y., Qiu, H., Caop, X.D., Zhao, L.*, 2022. Minerals: A missing role for enhanced biochar carbon sequestration from the thermal conversion of biomass to the application in soil. Earth-Sci. Rev.  234, 104215.

7) Chen, H., Li, D.P., Mašek, O., Zhai, Y., Rong, G.Q., Xu, X.Y., Cao, X.D., Zhao, L.*, 2022. Simultaneous dissipation of trichloroethene and arsenic from co-contaminated groundwater by coupling biodechlorination and biodetoxification with assistance of biochar. Biochar 4, 69.

8) Luo, Y., Li, Z.P., Xu, H.C., Xu, X.Y., Qiu, H., Cao, X.D., Zhao, L.*, 2022. Development of phosphorus composite biochar for simultaneous enhanced carbon sink and heavy metal immobilization in soil. Sci. Total Environ. 831, 154845.

9) Yin, J.X., Zhao, L.*, Xu, X.Y., Li, D.P., Qiu, H., Cao, X.D., 2022. Evaluation of long-term carbon sequestration of biochar in soil with biogeochemical field model. Sci. Total Environ. 822, 153576.

10) Yang, F., Zuo, X.P., Yang H.R., Ke, Q., Huang, Y.D., Cao, X.D., Zhao, L.*, 2021. Ionic liquid-assisted production of high-porosity biochar with more surface functional groups: Taking cellulose as attacking target. Chem. Eng. J. 133811.

11) Liu, Y., Chen, H., Zhao, L.*, Li, Z.P., Yi, X.H., Guo, T.B., Cao, X.D., 2021. Enhanced trichloroethylene biodegradation: Roles of biochar-microbial collaboration beyond adsorption. Sci. Total Environ. 792, 148451.

12) Yang, Q.S., Mašek, O., Zhao, L.*, Nan, H.Y., Yu, S.T., Yin, J.X., Li, Z.P., Cao, X.D., 2021. Country-level potential of carbon sequestration and environmental benefits by utilizing crop residues for biochar implementation. Appl. Energ. 282, 116275.

13) Li, D.P., Zhao, L.*, Cao, X.D., Xiao, Z.Y., Nan, H.Y., Qiu, H., 2020. Nickel-catalyzed formation of mesoporous carbon structure promoted capacitive performance of exhausted biochar. Chem. Eng. J. 126856.

14) Nan, H.Y., Xiao, Z.Y., Zhao, L.*, Yang, Fan; Xu, H.C., Xu, X.Y., Qiu, H., 2020. Nitrogen transformation during pyrolysis of various N-containing biowastes with participation of mineral calcium. ACS Sustainable Chem. Eng. 8, 32, 12197–12207.

15) Zhao, L.*, Xiao, D.L., Liu, Y., Xu, H.C., Nan, H.Y., Cao, X.D.*, 2020 Biochar as simultaneous shelter, adsorbent, pH buffer, and nutrient to promote biodegradation of high concentrations of phenol in wastewater. Water. Res. 172, 115494.

16) Nan, H.Y., Zhao, L.*, Yang, F., Liu, Y., Xiao, Z.X., Cao, X.D., Qiu, H., 2020. Different alkaline minerals interacted with biomass carbon during pyrolysis: which one improved biochar carbon sequestration J. Clean. Prod. 255, 120162.

17) Zhao, L., Zhao, Y.H., Nan, H.Y., Yang, F., Qiu, H., Xu, X.Y., Cao, X.D.*, 2019. Suppressed formation of polycyclic aromatic hydrocarbons (PAHs) during Fe-preloaded barley straw pyrolysis. J. Hazar. Mater. 121033

18) Yang, X.Y., Zhao, L.*, Aminul Haque, M., Chen, B., Ren, Z., Cao, X.D., Shen, Z.M., 2019. Sustainable conversion of contaminated dredged river sediment into eco-friendly foamed concrete. J. Clean. Prod. 252, 119799.

19) Nan, H.Y.; Yang, F.; Zhao, L.*; Mašek, O.; Cao, XD.; Xiao, Z.Y., 2019. Interaction of Inherent Minerals with Carbon during Biomass Pyrolysis Weakens Biochar Carbon Sequestration Potential. ACS Sustain Chem. Eng. 7, 1591–1599.

20) Zhao, L.; Zheng, W.; Mašek, O.; Chen, X.; Gu, B.; Sharma, B. K.; Cao, X., 2017. Roles of Phosphoric Acid in Biochar Formation: Synchronously Improving Carbon Retention and Sorption Capacity. J. Environ. Qual. 46 (2), 393–401.

21) Zhao L, Cao XD*, Zheng W, Scott JW, Sharma BK, Chen X, 2016. Copyrolysis of biomass with phosphate fertilizers to improve biochar carbon retention, slow nutrient release, and stabilize heavy metals in soil. ACS Sustain Chem. Eng. 4 (3): 1630−1636.

22) Zhao, L., Zheng, W., Cao, X.D.*, 2014. Distribution and evolution of organic matter phases during biochar formation and their importance in carbon loss and pore structure. Chem. Eng. J. 250: 240–247.

23) Zhao, L., Cao, X.D.*, Masek, O., Zimmerman, A., 2013. Heterogeneity of biochar properties as a function of feedstock sourcesand production temperatures. J. Hazar. Mater. 256–257 (15): 1–9.

24) Zhao, L., Cao, X.D.*, Wang, Q., Yang, F., Xu, S., 2013. Mineral constituents profile of biochar derived from diversified waste biomasses: implication on agricultural application. J. Environ. Qual. 42: 545–552.

25) Zhao, L., Gu, W.M., He, P.J.*, Shao, L.M., 2010. Effect of air-flow rate and turning frequency on bio-drying of dewatered sludge. Water Res. 44 (20): 6144−6152.

26) Zhao, L., Gu, W.M., He, P.J.*, Shao, L.M., 2011. Biodegradation potential of bulking agents in sludge bio-drying and their contribution to bio-generated heat. Water Res. 45(6): 2322−2330.

27) Zhao, L., Wang, X.Y., Gu, W.M., Shao, L.M., He, P.J.*, 2011. Distribution of C and N in soluble fractionations for characterizing the respective biodegradation of sludge and bulking agents. Bioresour. Technol. 102, 10745−10749.

28) Zhao, L., Yang, D., Zhu, N.W.*, 2008. Bioleaching of spent Ni-Cd batteries by continuous flow system: Effect of hydraulic retention time and process load. J. Hazar. Mater. 160 (2-3), 648–654.


专利

1. 赵玲,肖冬林,曹心德,刘阳,续晓云,仇浩. 一种生物炭基材料的制备方法、生物炭基材料及其应用. 中国发明专利. 申请号:201910216077.5(审查中)

2. 赵玲、曹心德、司马菁轲、丁振亮、蒋颖。利用矿物磷强化生物炭碳存储的方法,发明专利(DAG19062),申请号/专利号:ZL2015100312722,授权日期:2017.12.30(已授权)

3. 赵玲、曹心德、蒋颖、顾博文、阚俊红。一种利用磷酸强化生物炭固碳的方法,发明专利(DAG19063),申请号/专利号:ZL2015100312741,授权日期:2017.06.09(已授权)

4. 赵玲、曹心德、王群、李飞跃、续晓云、杨帆。批式充氮气单向释压的生物炭制备装置及方法,发明专利,申请号/专利号:ZL201310082211.X,公开日期:2014年10月15日,公开号:CN103215054A(已转让)

5. 杨帆、王梦瑶、赵玲、曹心德、黄远东。生物炭协同复合菌去除城市河道水体中氨氮的方法及装置,发明专利(DAG5587554),专利号:ZL2020 1 0853697.2 授权公告号:CN 112047490 B(已公开)

6. 杨帆、吕峻帆、赵玲、曹心德、黄远东。利用氨氮增释剂同步去除河道底泥和上覆水体氨氮的方法,发明专利(DAG5591030),专利号:ZL2021 1 0183501.8 授权公告号:CN 113024052 B(已公开)

7. 曹心德、魏亚强、赵玲、仇浩、续晓云。一种地下水水位波动带污染物迁移转化模拟实验装置,发明专利(DAG5430426),专利号:ZL2020 1 0877991.7 授权公告号:CN 112051383 B(已公开)

8. 曹心德、丁振亮、赵玲、司马菁珂。一种同步稳定化土壤重金属Zn和Cr的修复方法,发明专利(DAG20452),申请号/专利号:201510924583.1(已公开)

9. 曹心德,常国兴,赵玲,杨帆。道路绿化带负载炭化材料原位净化径流雨水的方法,发明专利,申请号/专利号:201310180630.7,公开号:CN103270900A(已公开)

10. 曹心德,梁媛,常国兴,赵玲。重金属污染土壤与地下水一体化修复方法,发明专利,申请号/专利号:201310278001.8 公开号:CN103736723A(已公开)

11. 朱南文,车承丹,李艳林,赵玲,王方林,尹炳奎。城市污水厂污泥的固化处理方法,发明专利,2009,申请号/专利号:ZL2007100404772,公开号:CN101050046 (已公开)

12. 朱南文,车承丹,李艳林,赵玲,叶清。河流底泥的固化处理方法,发明专利,2009,申请号/专利号:ZL200710040476.8,公开号:CN101050045 (已公开)


学术任职和公益

(1)《Biochar》SCI 期刊青年编委

(2)《Carbon Research》期刊青年编委

(3)《生态环境学报》期刊青年编委

(4)SCI期刊和中文核心期刊审稿人

(5)国家自然科学基金评审专家

(6)上海市建设用地土壤污染环境评审专家

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