- 占国强
- 职 务:生态环境修复中心副主任
- 电子邮件:zhangq@cib.ac.cn
- 职 称:研究员
- 学 历:博士研究生
- 通讯地址:四川省成都市双流区群贤南街23号
- 邮 编:610213
个人简历
占国强,中国科学院成都生物研究所研究员,研究生导师,四川省杰出青年基金获得者,入选中国科学院青年创新促进会、中国科学院“西部之光-西部青年学者A类”人才培养计划(终期评估优秀)、中国科学院“西部之光”交叉团队与院重点实验室“青年创新团队”;主要从事环境微生物、微生物电化学、水污染防控、废弃物资源化与能源化研究,在电活性微生物电子传递机制、新型生物脱氮除磷技术、微生物电化学强化碳氮偶联降解、水质生物毒性传感监测、高效氮磷菌制剂产品研制、生活黑灰水关键技术开发与工程应用方面积累了丰富的经验;在Water Research,Chemical Engineering Journal,Biosensors & Bioelectronics,Science of The Total Environment等环境领域重要期刊发表论文40余篇,申请发明专利7件,授权发明专利5件,技术转化硝化菌剂198万元,完成四川省科技成果登记3项,获四川省科技进步三等奖1项,研究开发的“膜生物电解(MBEs)”一体化污水处理装置、尿液硝化除臭与资源化技术等已在农村户用联用等分散式污水、高速公路服务区以及旅游景区生态厕所污水处理中应用推广,破解厕所粪污“出路”难题。主持国家自然科学基金、中国科学院仪器研制项目、中国科学院西部之光、四川省科技支撑项目、成都市科技惠民项目、院重点实验室项目以及企业委托项目20余项。
研究方向
1)电活性微生物资源挖掘与胞外EET机制研究;
2)微生物电合成与污染物生物转化研究;
3)水质生物毒性传感与在线监测设备研制;
4)氮磷高效去除菌制剂产品开发与分散式污水一体化处理装置研发
获奖及荣誉
占国强(2/6), 环保生态厕所成套处理技术研发与应用, 四川省人民政府, 科技进步, 其他, 2020年(科研奖励)
四川省杰出青年基金获得者(2021年)
承担科研项目情况
1). 国家自然科学基金面上项目,电活性硝化生物膜氨氧化反硝化的胞外电子互营机制,32470109,主持,2025-2028;
2). 中国科学院科研仪器设备研制项目,基于微生物电化学技术的生物毒性监测系统,YJKYYQ20200006,主持,2021-2022;
3).四川省杰出青年基金项目,生物阴极氧还原型水质生物毒性传感器21JCQN0095,主持,2021-2024;
4).中国科学院青年促进会人才项目,微生物电化学技术,2018404,主持,2018-2021;
5).中国科学院“西部之光-西部青年学者A类”, 分散型生活污水微生物电解一体化处理装置及应用, 2017XBZG_XBQNXZ_A1007,主持,2018-2021;
6).四川省委组织部人才专项, 西部之光省配套支持,主持,2018-2021;
7).四川省重点研发项目, 高原牧区面源污染综合处置关键技术的研究与示范,2018SZ0372,课题主持,2018-2019;
8).四川省重点研发项目,眉山市城市内河生态修复及景观河网构建技术集成与示范,2018SZ0324,课题主持,2018-2019;
9).四川省科技支撑项目,基于生物阳极催化的厌氧条件下氨氧化机理与脱氮工艺创新研究,2016JY0078,主持,2016-2018;
10).成都市科技惠民项目,厌氧消化耦合微生物电催化阳极氧化脱硫及沼气原位提纯技术,2015-HM01-00550-SF,主持,2016-2018;
11).中国科学院环境与应用微生物重点实验室开放基金,微生物诱导结晶矿化回收废水中的磷资源的关键技术,主持,2016-2018;
12).国家自然科学基金,生物电化学系统阳极氨氧化电化学特征及机制分析,51408580,主持,2015-2017;
13).中国科学院“西部之光-西部博士”, 尿液微生物燃料电池脱氮产能研究,主持,2013-2015.
14).中国博士后基金面上项目,生物电化学系统阳极氨氧化偶联阴极反硝化,主持,2013-2014;
15).中国科学院环境与应用微生物重点实验室开放基金,微生物燃料电池(MFC)脱氮--源分离尿液处理技术,主持,2012-2014;
16).企业委托项目,污水低碳生物脱氮新技术及设备装置研发,主持,2021-2026;
17).企业委托项目,生活污水与源分离粪污处理技术服务,主持,2022-2024;
18).企业委托项目,新型除磷制剂产品的开发,主持,2020-2023;
19).企业委托项目,高速公路服务区生活污水处理, 主持,2018-2019;
20).企业委托项目,生态厕所的技术改进与完善,主持,2018-2019;
21).企业委托项目,不锈钢勾酒罐电化学防腐技术,主持,2017-2018。
代表论著
1). Cui, M.; Zhan, G*.; Zhang, L.; Yan, Z.; Micro-oxygen supply combined with applied voltage enhance ammonium oxidation and denitrification in a single-chamber microbial electrolysis cell: performance and mechanism. Chemical Engineering Journal, 2024, 487: 150494.
2). Li, X.; Zhan, G*.; Wang, J.; Zhang, X.; Deciphering the differentiated performance on electricity generation and COD degradation by Rhodopseudomonas-dominated bioanode in light or dark. Chemosphere, 2024,359:142323.
3). Wu, H.; Yang, T.; Huang, B.; Zhu, B.; Xing, Z.; Zhan, G*.; The operating temperature affects the efficiency and pathogenic risk of wastewater treatment enhanced by slurry. Process Safety and Environmental Protection. 2024,188:1306-1317.
4). Wu, H.; Xing, Z.; Zhan, G*.; Dissolved oxygen drives heterotrophic microorganism succession to regulate low carbon source wastewater treatment enhanced by slurry. Journal of Environmental Management. 2024, 366:121804.
5). Wang, J.; Dong, C.; Li, Q.; Yang, X.; Li, D.; Zhang, L.; Zhang, Y.; Zhan, G*.; Innovative electrochemical biosensor with nitrifying biofilm and nitrite oxidation signal for comprehensive toxicity detection in Tuojiang River, Water Research, 2023, 233: 119757.
6). Wang, J.; Yang, X.; Cui, M.; Liu, Y.; Li, X.; Zhang, L.; Zhan, G*.; A high-sensitive and durable electrochemical sensor based on Geobacter-dominated biofilms for heavy metal toxicity detection. Biosensors & Bioelectronics, 2022, 206, 114146
7). Li, X.; Yang, X.; Cui, M.; Liu, Y.; Wang, J.; Zhang, L.; Zhan, G*.; A novel electrochemical sensor based on nitrite-oxidizing bacteria for highly specific and sensitive detection of nitrites. Sci Total Environ, 2022, 826,154178.
8). Wang, J.; Zhan, G*.; Yang, X.; Zheng, D.; Li, X.; Zhang, L.; Huang, T.; Wang, X.; Rapid detection of nitrite based on nitrite-oxidizing bacteria biosensor and its application in surface water monitoring, Biosensors and Bioelectronics, 2022, 215: 114573-114573.
9). Wu, H.; Li, A.; Wang, J.; Li, X.; Cui, M.; Yang, N.; Liu, Y.; Zhang, L.; Wang, X.; Zhan, G*.; A novel electrochemical sensor based on autotropic and heterotrophic nitrifying biofilm for trichloroacetic acid toxicity monitoring. Environ Res, 2022, 210, 112985.
10). Cui, M.; Gu, W.; Yang, X.; Li, D.; Zhang, L.; Yang, N.; Wang, X.; Zhan, G*.; Microbial electrochemical driven anaerobic ammonium oxidation coupling to denitrification in a single-chamber stainless steel reactor for simultaneous nitrogen and carbon removal. Bioelectrochemistry, 2022, 145, 108097.
11). Wu, H.; Cui, M.; Yang, X.; Li, A.; Liu, Y.; Wang, J.; Zhang, L.; Zhan, G*.; Zhao, Y.; Visual signal sensor coupling to nitrification for sustainable monitoring of trichloroacetaldehyde and the response mechanisms. Bioelectrochemistry, 2022, 146, 108142.
12). Zhang, L., Tian, C., Wang, H., Gu, W., Zheng, D., Cui, M., Wang, X., He, X., Zhan, G*.; Li, D*.; Improving electroautotrophic ammonium production from nitrogen gas by simultaneous carbon dioxide fixation in a dual-chamber microbial electrolysis cell. Bioelectrochemistry, 2022, 144, 108044.
13). Wu, H.; Cui, M.; Yang, N.; Liu, Y.; Wang, X.; Zhang, L.; Zhan, G*.; Aerobic biocathodes with potential regulation for ammonia oxidation with concomitant cathodic oxygen reduction and their microbial communities. Bioelectrochemistry, 2022, 144, 107997.
14). Yang, N.; Liu, H.; Jin, X.; Li, D.; Zhan, G*.; One-pot degradation of urine wastewater by combining simultaneous halophilic nitrification and aerobic denitrification in air-exposed biocathode microbial fuel cells (AEB-MFCs). Sci Total Environ, 2020, 748, 141379.
15). Jiang, Y.; Liang, Q.; Chu, N.; Hao, W.; Zhang, L.; Zhan, G*.; Li, D.; Zeng, R. J.; A slurry electrode integrated with membrane electrolysis for high-performance acetate production in microbial electrosynthesis. Sci Total Environ, 2020, 741, 140198.
16). Yang, N.; Liu, H.; Zhan, G*.; Li, D.; Sustainable ammonia-contaminated wastewater treatment in heterotrophic nitrifying/denitrifying microbial fuel cell. Journal of Cleaner Production, 2020, 245, 118923.
17). Yang, N#.; Zhan, G#.; Li, D.; Wang, X.; He, X.; Liu, H.; Complete nitrogen removal and electricity production in Thauera-dominated air-cathode single chambered microbial fuel cell. Chemical Engineering Journal, 2019, 356, 506-515.4.
18). Yang, N.; Zhan, G*.; Li, D.; He, X.; Zhang, Y.; Jiang, Q.; Liu, H.; Wang, C.; Performance and microbial community of a novel non-aeration-based up-flow bioelectrochemical filter (UBEF) treating real domestic wastewater. Chemical Engineering Journal, 2018,348, 271-280.
19). Yang, N.; Zhan, G*.; Wu, T.; Zhang, Y.; Jiang, Q.; Li, D.; Xiang, Y.; Effect of air-exposed biocathode on the performance of a Thauera-dominated membraneless single-chamber microbial fuel cell (SCMFC). Journal of Environmental Sciences, 2018, 66, 216-224.
20). Zhan, G*.; Li, D.; Tao, Y.; Zhu, X.; Zhang, L.; Wang, Y.; He, X.; Ammonia as carbon-free substrate for hydrogen production in bioelectrochemical systems. International Journal of Hydrogen Energy, 2014,39(23), 11854-11859.
21). Zhan, G*.; Zhang, L.; Tao, Y.; Wang, Y.; Zhu, X.; Li, D.; Anodic ammonia oxidation to nitrogen gas catalyzed by mixed biofilms in bioelectrochemical systems. Electrochimica Acta, 2014,135, 345-350.
22). Zhan, G.; Li, D.; Zhang, L.; Aerobic bioreduction of nickel(II) to elemental nickel with concomitant biomineralization. Applied Microbiology and Biotechnology, 2012, 96(1), 273-281.
23). Zhan, G.; Zhang, L.; Li, D.; Su, W.; Tao, Y.; Qian, J.; Autotrophic nitrogen removal from ammonium at low applied voltage in a single-compartment microbial electrolysis cell. Bioresource Technology, 2012,116, 271-277.
专利及软著:
1). 一种微生物燃料电池及其用于处理废水的方法。占国强,杨暖,何晓红,李大平。 ZL201510605166.0
2). 一种微生物电化学原位沼气脱硫的方法。 占国强,何晓红,杨暖,李大平。 ZL201510605467.3
3).一种厕所除臭和粪污资源化利用方法。占国强,刘一良,张礼霞,汪婧婷,王晓梅,何晓红。ZL202311035990.8
4). 一种生物电化学脱氮反应器及其使用方法。李大平,占国强,陶勇,张礼霞。 ZL 201110271646.X
5). 一种生物电化学偶联脱氮装置和方法。李大平,陶勇,何晓红,张礼霞,占国强。 ZL 201010204242.5
6). 一种铁黄晶种的生物制备方法。王玉建,李大平,何晓红,刘婵,占国强。ZL201410043443.9
7). 一种铁氧化微生物联合活性碳处理老龄垃圾渗滤液的技术。王晓梅, 李大平, 占国强, 张礼霞。ZL202111323740.5
8). 占国强,汪婧婷,李大平,张礼霞。基于机器学习的复合污染物毒性预测系统V1.0, 2022SR1608066,原始取得, 全部权利, 2022-12-24 (软件著作权)
