(一)科研项目(选填10项)
1. 365平台官网中央高校基本科研业务费专项资金(项目),22120220166,电解锌湿法冶炼过程多物种实时监测原理和方法,2022/03-2022/11,在研,负责人
2. 365平台官网学科交叉联合攻关首批示范(项目),铜冶炼污酸沉淀处理过程砷的监测原理与方法研究,2021/03-2021/11,结题,副组长
3. 国家水体污染控制与治理科技重大专项(独立课题),2017ZX07402004,重点行业水污染全过程控制术集成与工程实证,2017/01-2021/06年,结题,联合技术负责人
4. 国家重点研发计划大气污染成因与控制研究专项(课题),2017YFC0210402,有色冶金污染因子转化与大气污染物源头减量技术,2017/07-2020/12,结题,负责人
5. 国家自然科学基金(面上项目),41673114,锌电解过程槽面废气中含酸含重金属颗粒物及前体物的释放与形成机理,2017/01-2020/12,结题,负责人
6. 工信部绿色制造系统集成项目(课题),2018272-1,低菌化小麦制粉过程关键污染因子实时识别初步技术研究,2018/01-2020/12,结题,负责人
7. 国家科技部科技支撑计划(子课题),2012BAF03B03-002,6.5万吨/年电解锰陈化液胶体化过程稳态金属离子实时观测技术平台,2012/01-2015/12,结题,负责人
8. 国家科技部科技支撑计划(子课题),2012BAF03B03-003,1.5万吨电解锰/年电解流程重金属污染削减移动平台,2012/01-2015/12,结题,负责人
9. 国家水体污染控制与治理科技重大专项(课题),2010ZX07212-006,锰锌湿法冶金行业重金属水污染过程减排成套工艺平台,2011/01-2015/12,结题,主持
10. 湖南省重金属污染防治省级专项资金(项目),20000吨电解锌/年电解过程重金属水污染物智能化源削减成套装备升级改造项目,2016/04-2017/12,结题,负责人
(二)获得学术奖励(选填5项)
1. 2020年,锌电解典型重金属污染物源头削减关键共性技术与大型成套装备,中华人民共和国国务院,国家科技进步二等奖,排名第1
2. 2017年,流域水环境重金属污染风险防控理论技术与应用,中华人民共和国国务院,国家科技进步二等奖,排名第4
3. 2015年,锌电解过程重金属水污染物源削减成套技术及装备,中国有色金属工业协会,中国有色金属工业科技(部级)一等奖,排名第1
4. 2021年,铜冶炼污酸沉淀处理过程砷实时监测技术及设备,中国有色金属工业协会,中国有色金属工业科技(部级)一等奖,排名第2
5. 2016年,电解锌行业镉离子高效回收技术及装备,中国有色金属工业协会,中国有色金属工业科技(部级)二等奖,排名第2
(三)主要学术论文(选填20项)
1. Wen Cheng, Xuefei Zhang, Ning Duan*, Linhua Jiang*, et al. Direct-determination of high-concentration sulfate by serial differential spectrophotometry with multiple optical pathlengths,Science of the Total Environment,811 (2022) 152121
2. Feilong Zhang,Jiane Zuo,Wei Jin, Fuyuan Xu*, Linhua Jiang**, et al. Size effect of γ-MnO2 precoated anode on lead-containing pollutant reduction and its controllable fabrication in industrial-scale for zinc electrowinning,Chemosphere,287 (2022) 132457
3. Wanqi Ye, Fuyuan Xu*, Linhua Jiang*, et al. A novel functional lead-based anode for efficient lead dissolution inhibition and slime generation reduction in zinc electrowinning,Journal of Cleaner Production,284 (2021) 124767
4. Wanqi Ye, Fuyuan Xu*, Linhua Jiang*, et al. Lead release kinetics and film transformation of Pb-MnO2 pre-coated anode in long-term zinc electrowinning,Journal of Hazardous Materials,408 (2021) 124931
5. Zizhen Ma; Jingkun Jiang; Lei Duan; Zehui Li; Jianguo Deng; Jianhui Li; Rong Zhang; Chao Zhou; Linhua Jiang*, et al. Ultrasonication to Reduce Aerosols Generated from Bursting Bubbles: A Case Study on Zinc Electrolysis,Journal of Cleaner Production,272 (2020) 122697
6. Zizhen Ma,Lei Duan,Jingkun Jiang,Jianguo Deng,Fuyuan Xu*,Linhua Jiang**, et al. Characteristics and threats of particulate matter from zinc electrolysis manufacturing facilities,Journal of Cleaner Production,259 (2020) 120874
7. Jin Luo, Ning Duan, Fuyuan Xu*, Linhua Jiang*, et al. System-level analysis of the generation and distribution for Pb, Cu,and Ag in the process network of zinc hydrometallurgy: Implications for sustainability,Journal of Cleaner Production,234 (2019) 755-766
8. Chenmu Zhang,Linhua Jiang*, et al. New insight into cleaner control of heavy metal anode slime from aqueous sulfate electrolytes containing Mn (Ⅱ): Preliminary characterization and mechanism analysis,Journal of Cleaner Production,2018,177:276-283
9. Chenmu Zhanga,Ning Duan,Linhua *Jiang, et al. The impact mechanism of Mn2+ ions on oxygen evolution reaction in zinc sulfate electrolyte,Journal of Electroanalytical Chemistry,2018,811:53-61
10. Jin Luo, Peilei Zhang, Ning Duan, Linhua Jiang*, et al. Interpretation of material flow analysis results and a case study on cleaner production for wastewater source reduction in a zinc electrolysis cellhouse,Journal of Cleaner Production,2018,180:804-813
11. Jin Luo, PengPeng Jiao, Ning Duan*, Fuyuan Xu*, Linhua Jiang. Flow field characterization in the vicinity of vertical plane electrodes in a bench-scale zinc electrowinning cell,Hydrometallurgy,181 (2018) 103-112
12. Chenmu Zhang,Ning Duan*,Linhua Jiang*, et al. Influence of Mn2+ ions on the corrosion mechanism of lead-based anodes and the generation of heavy metal anode slime in zinc sulfate electrolyte,Environmental Science and Pollution Research,2018, 25(12):11958-11969
13. Ning Duan*, Linhua Jiang, et al. A Non-Contact Original-State Online Real-Time Monitoring Method for Complex Liquids in Industrial Processes,Engineering,2018,4:392-397
14. Pengpeng Jiao,Fuyuan Xu,Jianhui Li,Ning Duan,Guanyi Chen,Linhua Jiang*. The inhibition effect of SeO2 on hydrogen evolution reaction in MnSO4-(NH4)2SO4 solution,International Journal of Hydrogen Energy,2016,41:784-791
15. Ke Xiao, Fuyuan Xu*, Linhua Jiang*, et al. Resin oxidization phenomenon and its influence factor during chromium (Ⅵ) removal from wastewater using gel-type anion exchangers,Chemical Engineering Journal,2016,283:1349-1356
16. Ke Xiao,Guimei Han,Jianhui Li,Zhigang Dan,Fuyuan Xu*,Linhua Jiang*, et al. Evaluation of polyacrylic anion exchange resins on the removal of Cr(Ⅵ) from aqueous solutions,Royal Society of Chemistry,2016,6:5233-5239
17. Ke Xiao,Fuyuan Xu*,Linhua Jiang, et al. The oxidative degradation of polystyrene resins on the removal of Cr(VI) from wastewater by anion exchange,Chemosphere,2016,156:326-333
18. Fuyuan Xu, Linhua Jiang*, et al. Mass balance and quantitative analysis of cleaner production potential in a zinc electrolysis cellhouse,Journal of Cleaner Production,2016,135:712-720
19. Fuyuan Xu,Zhigang Dan,Weinan Zhao,Guimei Han,Zehui Sun,Ke Xiao,Linhua Jiang*, et al. Electrochemical analysis of manganese electrodeposition and hydrogen evolution from pure aqueous sulfate electrolytes with addition of SeO2,Journal of Electroanalytical Chemistry,2015,741:149-156
20. Fuyuan Xu,Linhua Jiang, et al. Water balance analysis and wastewater recycling investigation in electrolytic manganese industry of China - A case study,Hydrometallurgy,2014,149:12-22
(四)出版专著
1. 降林华(编委会副主任),有色金属行业水污染治理成套集成技术,化学工业出版社,2021
2. 降林华(编委会副主任),制浆造纸行业水污染治理成套集成技术,化学工业出版社,2021
3. 降林华(编委会副主任),食品加工行业水污染治理成套集成技术,化学工业出版社,2021
4. 降林华(编委会副主任),皮革行业水污染治理成套集成技术,化学工业出版社,2021
5. 降林华(编委会副主任),印染行业水污染治理成套集成技术,化学工业出版社,2021
(五)发明专利(选填20项)
1. 一种电解锌锰阴阳极表面物理缺陷智能识别的方法,ZL201911334167.0
2. 锰锌陈化液胶体化过程金属离子浓度智能化在线实时监测系统及方法,ZL201710093942.2
3. 一种高铅阳极泥重金属污染物智能化源削减成套技术方法,ZL201910515831.5
4. PACKAGE TECHNOLOGY FOR INTELLIGENT SOURCE REDUCTION OF HEAVY METAL POLLUTANTS OF HIGE-LEAD ANODE MUD, Canadian, 3,064,374
5. METHOD FOR REMOVING LEAD OF POSITIVE PLATE, Korean, 10-2329875
6. 一种铅基阳极表面阳极泥智能识别及无损干除方法及系统,ZL201910515826.4
7. 一种锌电解过程重金属水污染物源削减成套技术方法,ZL201510594575.5
8. 一种锌阴极板出槽挟带电解液的原位削减装置及方法,ZL201510594508.3
9. 一种干法清除电解锌阴极板硫酸锌结晶并收集的装置,ZL201410035934.9
10. 一种电解锌电解后续工段阴极板针喷逆流清洗装置,ZL201410035169.0
11. 一种电解锌后序工段阴极板脏板自动识别及分拣装置,ZL201410498356.2
12. 一种电解锌后序工段阴极板变形板自动识别和分拣装置,ZL201410498577.X
13. 一种锰电解流程重金属污染削减移动平台工艺动作及分解,ZL201310595014.8
14. 一种原位削减电解锰阴极板挟带电解液的方法,ZL201310595105.1
15. 一种原位削减电解锰阴极板挟带钝化液的方法,ZL201310597512.6
16. 一种干法清除阴极板硫酸铵结晶并循环利用的装置,ZL201310685327.2
17. 一种电解锰阴极板变形板自动识别和分拣装置,ZL201310596945.X
18. 一种电解锰阴极板脏板自动识别及分拣装置,ZL201310598449.8
19. 一种机械手在电解锰阴极板出入槽运动过程中的稳定装置,ZL201310684722.9
20. 一种高镉溶液中镉离子的高效回收自动化装置及回收方法,ZL201510138365.5
(六)主要人才计划
1. 2020年,中国环境科学研究院,Top十大优势学科团队学术带头人
2. 2016年,国家环境保护部,国家环境保护专业技术领军人才
3. 2014年,中国环境科学学会,全国优秀环境科技工作者
(七)国内外学术任职
1. 中国环境学会环境与热能利用专业委员,副主任委员
2. 中国有色金属学会固废资源化专业委员会,副主任委员
3. 《Green Industrial Processes》(a special issue of《Engineering》),Executive Associate Editor
4. International selenium research society,Co-Chair of the local industrial committee
5. 中国有色金属学会有色冶金资源综合利用专业委员会,委员
6. 中国有色金属学会节能减排专业委员会,委员
7. 中国环境科学学会重金属污染防治专业委员会,委员
8. 中国工业节能与清洁生产协会,专家
