基本信息:
姓名:蔡亚凡
出生年月:1990.01
籍贯:河南周口
学历:博士研究生
导师类别:硕士生导师
通信地址:河南省郑州市金水区文化路街道文化路97号
邮箱:caiyafan@zzu.edu.cn
教育/工作经历:
2023.10-至今郑州大学化工学院生物+联合研究中心 直聘研究员(副研究员)
2021.09-2023.09 郑州大学 化工学院 生物+联合研究中心 直聘研究员(助理研究员)
2019.09-2021.03 德国生物质工程中心(DBFZ) 生物转化部 博士后
2014.09-2019.06 中国农业大学 农学与生物技术学院 生物质工程专业 博士学位
招生方向/要求:本科专业为化工、环境、材料、新能源、微生物等相关专业。具有较强学习能力,有良好的英语听说读写能力,对科研具有强烈兴趣,积极主动,为人正直,勤奋踏实。
研究方向:
① 有机废弃物资源化(生物发酵蛋白饲料方向)
② 有机废弃物能源化(生物天然气工程方向)
③ 有机废弃物肥料化(生物有机肥料方向)
近年主要工作方向为有机废弃物饲料化、肥料化、能源化。主要研究成果如下:(1):开发了以秸秆、酒糟等废弃物为原料的固态发酵蛋白饲料新设备,新工艺。(2):开发了厌氧消化氨抑制解除的生物强化剂,研究了“氨抑制稳定态”下生物强化作用机理。(3):基于机器学习等手段开发了适用于厌氧消化的功能性生物炭,并揭示其辅助机理。(4):开发了基于“生物电化学”的新型固定床厌氧生物反应器,并应用于有机废水处理。
社会兼职:
学术期刊Chemical engineering journal; Fuel; Renewable energy; Water research; Journal of Water Process Engineering; Bioresource technology; Waste management; Science of the Total Environment; Journal of Environmental Chemical Engineering; Bioresource Technology Reports; Journal of Environmental Management; Biomass Conversion and Biorefinery; Frontiers in Soil Science; Energy Nexus; Biotechnology Letters; Chemosphere; Environmental science and pollution research international等国际期刊审稿人。担任Energies期刊“Novel Technologies for Organic Waste Processing and Utilization”方向客座编辑; 担任Frontiers in Bioengineering and Biotechnology客座编辑。担任Fermentation期刊“Solid-state fermentation”方向客座编辑
所获荣誉:
2018-2019 北京市优秀毕业生;中国农业大学优秀毕业生
2017-2018 博士国家奖学金; 中国农业大学院长奖学金
2016-2017 博士国家奖学金
主持科研项目:
●2023.01-2025.12;国家自然科学基金(青年基金),基于“氨抑制稳定态”的互营复合菌系生物强化及氨抑制解除机理解析,30万,主持;
●2023.08-2024.07;博士后基金面上项目,基于DIET途径强化的厌氧反应器开发及其在酱香型白酒废水处理中的应用,8万,主持。
●2023.10-2024.09;河南省科技攻关项目,“炭-菌”耦合定向调控氨抑制发酵性能技术开发,主持。
●2023.01-2023.12;重点实验室开放课题,基于同步脱氮的白酒废水处理工艺开发,主持;
●2021.09-2023.08;郑州大学启动基金,基于生物炭辅助的氨抑制稳定态下微生物的物质代谢机理,30万,主持;
●2023.01-2024.12;横向课题,DIET途径辅助的酱香型白酒废水处理工艺开发,30万,主持
●2023.01-2024.12;横向课题,菌酶协同发酵酒糟生产饲料蛋白技术开发,50万,主持。
●2019.09-2021.03;中德学术交流中心博士后项目(CSC-DAAD),富氮底物厌氧消化高效调控策略及机理解 析,4.05万欧元,主持;
近五年代表性研究成果:
1.Wang, S., Wang, Z., Muhammad, U., Zheng, Z., Zhao, X., Meng, X., Hu, K., Shen, X., Wang, X.,Cai, Y*., 2023.Two microbial consortia obtained through purposive acclimatization as biological additives to relieve ammonia inhibition in anaerobic digestion.Water Res. 230, 119583.https://doi.org/10.1016/j.watres.2023.119583(中科院一区;高被引论文)
2.Zheng, Z.,Cai, Y*., Zhang, Y., Zhao, Y., Gao, Y., Cui, Z., Hu, Y., Wang, X*., 2021. The effects of C/N (10–25) on the relationship of substrates, metabolites, and microorganisms in “inhibited steady-state” of anaerobic digestion.Water Res. 188, 116466.https://doi.org/10.1016/j.watres.2020.116466(中科院一区;高被引论文)
3.Cai, Y., Meng, X., Hu, K., Zhao, X., Muhammad, U., Esposito, G., Shen, X., Chen, S*., 2023. A novel strategy to reduce trace element supplementation in the semi-solid anaerobic digestion with gradient ammonia concentration: the role of biochar.Fuel. 338, 127332.https://doi.org/10.1016/j.fuel.2022.127332(中科院一区)
4.Cai, Y., Shen, X*., Meng, X., Zheng, Z., Hu, K., Zhao, X*., 2023.Syntrophic consortium with the aid of coconut shell-derived biochar enhances methane recovery from ammonia inhibited anaerobic digestion.Sci Total Environ. 872, 162182.https://doi.org/10.1016/j.scitotenv.2023.162182(中科院一区)
5.Cai, Y., Gallegos, D., Zheng, Z., Stinner, W., Pröter, J., Schäfer, F*., 2021.Exploring the combined effect of total ammonia nitrogen, pH and temperature on anaerobic digestion of chicken manure using response surface methodology and two kinetic models.Bioresour. Technol. 337, 125328.https://doi.org/10.1016/j.biortech.2021.125328(中科院一区)
6.Cai, Y*., Zhu, M., Meng, X., Zhou, J., Zhang, H., Sheng, X., 2022. The role of biochar on alleviating ammonia toxicity in anaerobic digestion of nitrogen-rich wastes: A review.Bioresour. Technol. 351, 126924.https://doi.org/10.1016/j.biortech.2022.126924(中科院一区)
7.Usman, M., Shi, Z.,Cai, Y., Zhang, S., Luo, G*. 2023. Microbial insights towards understanding the role of hydrochar in enhancing phenol degradation in anaerobic digestion.Environ. Pollut.330, 121779.https://doi.org/10.1016/j.envpol.2023.121779(中科院二区)
8.Cai, Y., Zheng, Z., Zhang, H., Wei, L., Wang, X., 2021.The characteristics of multi-substrates (low and high C/N) anaerobic digestion: Focus on energy recovery and the succession of methanogenic pathway.Bioresour. Technol. 343, 125976.https://doi.org/10.1016/j.biortech.2021.125976(中科院一区)
9.Cai, Y., Janke, L., Meng, X., Zheng, Z., Zhao, X., Proter, J., Schafer, F., 2022.The absolute concentration and bioavailability of trace elements: Two vital parameters affecting anaerobic digestion performance of chicken manure leachate.Bioresour. Technol. 350, 126909.https://doi.org/10.1016/j.biortech.2022.126909(中科院一区)
10.Cai, Y., Zheng, Z., Wang, X., 2021.Obstacles faced by methanogenic archaea originating from substrate-driven toxicants in anaerobic digestion.J. Hazard. Mater. 403, 123938.https://10.1016/j.jhazmat.2020.123938(中科院一区)
11.Cai, Y., Janke, L., Zheng, Z., Wang, X., Proter, J., Schafer, F., 2021.Enhancing anaerobic digestion of chicken manure leachate: Effects of trace elements supplementation on methane production.Bioresour. Technol.Rep. 14, 100662.https://10.1016/j.biteb.2021.100662
12.Hua, B.,Cai, Y., Cui, Z., Wang, X., 2022.Bioaugmentation with methanogens cultured in a micro-aerobic microbial community for overloaded anaerobic digestion recovery.Anaerobe. 706,102603.https://doi.org/10.1016/j.anaerobe.2022.102603(中科院三区)
13.Cai, Y., Wang, J., Zhao, Y., Zhao, X., Zheng, Z., Wen, B., Cui, Z., Wang, X., 2018.A new perspective of using sequential extraction: To predict the deficiency of trace elements during anaerobic digestion.Water Res. 140, 335-343.https://10.1016/j.watres.2018.04.047(中科院一区)
14.Chen, J#.,Cai, Y#., Wang, Z., Xu, Z., Zhuang, W., Liu, D., Lv, Y., Xu, J., Wang, S*., 2024.Ying, H. Solid-state fermentation of corn straw using synthetic microbiome to produce fermented feed: the feed quality and conversion mechanism.Sci Total Environ. 920, 171034.https://doi.org/10.1016/j.scitotenv.2024.171034(中科院一区)
15.Liu, J#., Wang, S#., Wang, Z., Shen, C., Liu, D., Shen, X., Weng, L., He, Y., Wang, S., Wang, J., Zhuang, W.,Cai, Y*., Xu, J., Ying, H. 2023. Pretreatment of Luzhou distiller's grains for feed protein production using crude enzymes produced by a synthetic microbial consortium.Bioresour. Technol. 390, 129852.https://doi.org/10.1016/j.biortech.2023.129852(中科院一区)
16.Chen, J#.,Cai, Y#., Wang, Z., Xu, Z., Li, J., Ma, X., Zhuang, W., Liu, D., Wang, S*., Song, A., Xu, J., Ying, H. 2023. Construction of a synthetic microbial community based on multiomics linkage technology and analysis of the mechanism of lignocellulose degradation.Bioresour. Technol.389, 129799.https://doi.org/10.1016/j.biortech.2023.129799(中科院一区)
17.Wang, Z., Wang, S., Zhuang, W., Liu, J., Meng, X., Zhao, X., Zheng, Z., Chen, S., Ying, H.,Cai, Y*. 2023. Trace elements' deficiency in energy production through methanogenesis process: Focus on the characteristics of organic solid wastes.Sci Total Environ. 878, 163116.https://doi.org/10.1016/j.scitotenv.2023.163116(中科院一区)
18.Gao, Y., Zheng, Z., Cheng, X., Zhang, Y., Liu, X., Hu, Y.,Cai, Y*., Wang, X*. 2023. An innovative way to treat cash crop wastes: The fermentation characteristics and functional microbial community using different substrates to produce Agricultural Jiaosu.Environ. Res. 227, 115727.https://doi.org/10.1016/j.envres.2023.115727(中科院二区)
19.Cai, Y., Zheng, Z., Schafer, F., Stinner, W., Yuan, X., Wang, H., Cui, Z., Wang, X., 2021.A review about pretreatment of lignocellulosic biomass in anaerobic digestion: achievement and challenge in Germany and China.J. Clean. Prod. 299, 126885.https://10.1016/j.jclepro.2021.126885(中科院一区;高被引论文)
20.Cai, Y., Hu, K., Zheng, Z., Zhang, Y., Guo, S., Zhao, X., Cui, Z., Wang, X., 2019.Effects of adding EDTA and Fe2+on the performance of reactor and microbial community structure in two simulated phases of anaerobic digestion.Bioresour. Technol. 275, 183-191.https://10.1016/j.biortech.2018.12.050(中科院一区)
21.蔡亚凡、沈才洪、何云、刘淼、王石垒、杨平、王志、李晓勇、应汉杰。“磁-碱”联合改性生物炭的制备方法及其在酱香型白酒废水处理中的应用。发明专利申请号:申请日期:2023年12月04日。申请人:郑州大学,泸州老窖股份有限公司。
信息更新于2024.02.26