罗刚

教授

Email:gangl@fudan.edu.cn

研究方向:有机废弃物资源化

个人主页:https://faculty.fudan.edu.cn/gangl/zh_CN/

个人简历

教育简历

  • 2006.09-2011.03, 同济大学,环境科学与工程学院/环境工程系,博士

  • 2002.09-2006.06, 重庆大学,城市建设与环境工程学院/环境工程系,学士

工作简历

  • 2020.12-至今     复旦大学,环境科学与工程系,教授

  • 2015.12-2020.12  复旦大学,环境科学与工程系,副教授

  • 2013.09-2015.12  复旦大学,环境科学与工程系,青年副研究员

  • 2011.04-2013.09  丹麦技术大学,环境系,博士后

博士生导师/方向

  • 固废污染控制与资源化、城镇水处理及水污染控制技术与工程

硕士生导师/方向

  • 固废污染控制与资源化、城镇水处理及水污染控制技术与工程

学术兼职

  • Front Environ Sci Eng, 青年编委

  • 中国沼气,编委

  • 上海农业工程学会,生物能源与人居环境专委会,副主任

  • IWA中国青年委员会委员

人才培养

本科生课程:

  • 《工业废水处理》、《环境科学前沿》

研究生课程:

  • 《生物质能源技术》、《有机固废资源化高值化利用技术前沿》

科学研究

主持和参与的主要项目/课题

  • 国家自然科学基金委,面上项目,水热炭强化餐厨垃圾产甲烷及协同消减抗生素抗性基因的效能与微生物学机制,2020.1-2023.12,在研,主持

  • 上海易湃环境工程技术有限公司,工业废水处理技术研发,2020.9-2025.8,在研,主持

  • 上海正均环境科技有限公司,湿垃圾水热液厌氧消化技术研发,2020.7-2020.12,结题,主持

  • 上海市科委,上海市科技行动创新计划,湿垃圾衍生品质量检验技术与高值化利用,2019.10-2022.9,在研,主持

  • 复旦大学,原创科研个性化项目,水热炭强化厌氧消化新技术与机理,2019.9-2022.8,主持

  • 上海市科委,上海市科技行动创新计划,厌氧消化同步实现合成气及有机废弃物制取甲烷新技术及机理,2017.11-2019.10,结题,主持

  • 国家重点研发计划,绿色技术评价方法及产业政策体系研究,2017.7-2021.6,在研,子课题负责人

  • 国家重点研发计划,关中农村生物质燃烧污染物的控制与应用示范,2017.9-2021.6,在研,参与

  • 污染控制与资源化研究国家重点实验室开放基金,基于厌氧消化的合成气定向转化研究,2017.1-2018.12,结题,主持

  • 国家自然科学基金委,青年项目,基于厌氧颗粒污泥的CO甲烷化及有机废水处理耦合新技术及机理研究,2015.1-2017.12,结题,主持

  • 教育部,留学归国人员启动基金,基于直接电子传递的有机物厌氧降解性能及机理研究,2015.1-2017.12,结题,主持

  • 上海市科委,青年科技英才扬帆计划,导电颗粒作用下丙酸厌氧降解机理及工艺运行特性研究,2014.7-2017.6,结题,主持

  • The Danish Council for Independent Research,Technology and Production Sciences,An innovative process for simultaneous utilization of hydrogen and in-situ biogas upgrading,2012.7-2015.6,结题,主持

教研成果

代表性论文:

1. Shi, Z.; Usman, M.; He, J.; Chen, H.; Zhang, S.; Luo, G.*, Combined microbial transcript and metabolic analysis reveals the different roles of hydrochar and biochar in promoting anaerobic digestion of waste activated sludge. Water Research 2021, 205, 117679.

2. Shi, Z.; Campanaro, S.; Usman, M.; Treu, L.; Basile, A.; Angelidaki, I.; Zhang, S.; Luo, G.*, Genome-centric metatranscriptomics analysis reveals the role of hydrochar in anaerobic digestion of waste activated sludge. Environmental Science and Technology 2021, 55, (12), 8351-8361.

3. He, J.; Shi, Z.; Luo, T.; Zhang, S.; Liu, Y.*; Luo, G.*, Phenol promoted caproate production via two-stage batch anaerobic fermentation of organic substance with ethanol as electron donor for chain elongation. Water Research 2021, 204, 117601.

4. Chen, H.; Chen, Z.; Nasikai, M.; Luo, G.*; Zhang, S., Hydrothermal pretreatment of sewage sludge enhanced the anaerobic degradation of cationic polyacrylamide (cPAM). Water Research 2021, 190, 116704.

5. Ren, S.; Usman, M.; Tsang, D. C. W.; O-Thong, S.; Angelidaki, I.; Zhu, X.; Zhang, S.; Luo, G.*, Hydrochar-Facilitated Anaerobic Digestion: Evidence for Direct Interspecies Electron Transfer Mediated through Surface Oxygen-Containing Functional Groups. Environmental Science and Technology 2020, 54, (9), 5755-5766.

6. Chen, H.; Hao, S.; Chen, Z.; O-Thong, S.; Fan, J.; Clark, J.; Luo, G.*; Zhang, S.*, Mesophilic and thermophilic anaerobic digestion of aqueous phase generated from hydrothermal liquefaction of cornstalk: Molecular and metabolic insights. Water Research 2020, 168, 115199.

7. Wan, J.; Jing, Y.; Rao, Y.; Zhang, S.; Luo, G.*, Thermophilic alkaline fermentation followed by mesophilic anaerobic digestion for efficient hydrogen and methane production from waste-activated sludge: Dynamics of bacterial pathogens as revealed by the combination of metagenomic and quantitative PCR analyses. Applied and Environmental Microbiology 2018, 84, (6), e02632-17.

8. Rao, Y.; Wan, J.; Liu, Y.; Angelidaki, I.; Zhang, S.; Zhang, Y.; Luo, G.*, A novel process for volatile fatty acids production from syngas by integrating with mesophilic alkaline fermentation of waste activated sludge. Water Research 2018, 139, 372-380.

9. Campanaro, S.; Treu, L.; Kougias, P. G.*; Luo, G.*; Angelidaki, I., Metagenomic binning reveals the functional roles of core abundant microorganisms in twelve full-scale biogas plants. Water Research 2018, 140, 123-134.

10. Luo, G.*; Li, B.; Li, L. G.; Zhang, T.; Angelidaki, I.*, Antibiotic Resistance Genes and Correlations with Microbial Community and Metal Resistance Genes in Full-Scale Biogas Reactors As Revealed by Metagenomic Analysis. Environmental Science and Technology 2017, 51, (7), 4069-4080.

11. Jing, Y.; Wan, J.; Angelidaki, I.; Zhang, S.; Luo, G.*, iTRAQ quantitative proteomic analysis reveals the pathways for methanation of propionate facilitated by magnetite. Water Research 2017, 108, 212-221.

12. Jing, Y.; Campanaro, S.; Kougias, P.; Treu, L.; Angelidaki, I.; Zhang, S.; Luo, G.*, Anaerobic granular sludge for simultaneous biomethanation of synthetic wastewater and CO with focus on the identification of CO-converting microorganisms. Water Research 2017, 126, 19-28.

13. Wan, J.; Jing, Y.; Zhang, S.; Angelidaki, I.; Luo, G.*, Mesophilic and thermophilic alkaline fermentation of waste activated sludge for hydrogen production: Focusing on homoacetogenesis. Water Research 2016, 102, 524-532.

14. Chen, H.; Wan, J.; Chen, K.; Luo, G.*; Fan, J.; Clark, J.; Zhang, S.*, Biogas production from hydrothermal liquefaction wastewater (HTLWW): Focusing on the microbial communities as revealed by high-throughput sequencing of full-length 16S rRNA genes. Water Research 2016, 106, 98-107.

15. Luo, G.; Angelidaki, I., Analysis of bacterial communities and bacterial pathogens in a biogas plant by the combination of ethidium monoazide, PCR and Ion Torrent sequencing. Water Research 2014, 60, 156-163.

16. Luo, G.; Wang, W.; Angelidaki, I., Anaerobic digestion for simultaneous sewage sludge treatment and CO biomethanation: Process performance and microbial ecology. Environmental Science and Technology 2013, 47, (18), 10685-10693.

17. Luo, G.; Johansson, S.; Boe, K.; Xie, L.; Zhou, Q.; Angelidaki, I., Simultaneous hydrogen utilization and in situ biogas upgrading in an anaerobic reactor. Biotechnology and Bioengineering 2012, 109, (4), 1088-1094.

18. Luo, G.; Angelidaki, I., Integrated biogas upgrading and hydrogen utilization in an anaerobic reactor containing enriched hydrogenotrophic methanogenic culture. Biotechnology and Bioengineering 2012, 109, (11), 2729-2736.

19. Luo, G.; Karakashev, D.; Xie, L.; Zhou, Q.; Angelidaki, I., Long-term effect of inoculum pretreatment on fermentative hydrogen production by repeated batch cultivations: Homoacetogenesis and methanogenesis as competitors to hydrogen production. Biotechnology and Bioengineering 2011, 108, (8), 1816-1827.