姓名：司哺春 单位：农业建筑与环境工程系 职称：副教授

◆个人简介 

司哺春，1989年6月生，甘肃陇西人。工学博士，副教授、硕士生导师。2011年和2017年分别在beat365体育官方网站农业建筑环境与能源工程系获得学士和博士学位。2015年9月至2017年1月在美国伊利诺伊大学香槟校区农业与生物工程系进行博士联合培养。2017年6月入选博士后国际交流计划派出项目，赴美国伊利诺伊大学香槟校区从事博士后研究工作。2019年1月入选beat365体育官方网站“优秀人才”。

◆研究方向
（1）厌氧发酵产甲烷抑制解除及过程强化
（2）暗发酵用于农业废弃物产氢及酸化产物调控
（3）厌氧高效反应器的设计与优化
◆学术兼职
（1）国际学术期刊《Journal of Renewable Materials》编委
（2）《International Journal of Hydrogen Energy》、《Applied Energy》、《Journal of Cleaner Production》、《Biochemical Engineering Journal》、《Resources, Conservation & Recycling》期刊审稿人
◆科研项目
（1）国家自然科学基金青年项目（编号：51806243）水热液化水相中含氮杂环有机物对生物制氢烷的影响机制：2019-2020，主持.

（2）“十二五”国家科技支撑（2014BAD02B03）：秸秆高效生物转化制备氢气和高值化产品关键技术研究及其系统集成示范”，2014-2016，参与.
◆论著及成果
　 在《Green Chemistry》、《Water Research》、《Bioresource Technology》、《Progress in Energy and Combustion Science》、 《Biotechnology for biofuels》、《Current Opinion in Biotechnology》、《Nature Sustainability》、《Renewable and Sustainable Energy Reviews》等环境、能源交叉性学科期刊发表学术论文30余 篇，其中以第一或通讯作者发表SCI 论文10篇，EI1篇，参编著作2部，申请授权专利2项。

代表性论文（第一或共同第一作者#，通讯或共同通讯作者*）：
Si, B^#., Yang, H.^#, Huang, S., Watson, J., Zhang, Y., and Liu, Z^*. (2020). An innovative multistage anaerobic hythane reactor (MAHR): Metabolic flux, thermodynamics and microbial functions. Water Research 169, 115216.

Watson, J., Wang, T., Si, B.^*, Chen, W., Aierzhati, A. and Zhang, Y^*. (2020).Valorization of hydrothermal liquefaction aqueous phase: Pathways towards commercial viability. Progress in Energy and Combustion Science 77, 100819.

Si, B., Watson, J., Aierzhati, A., Yang, L., Liu, Z. ^* and Zhang, Y^*. (2019) Biohythane production of post-hydrothermal liquefaction wastewater: A comparison of two-stage fermentation and catalytic hydrothermal gasification. Bioresource Technology 274, 335-342.

Si, B., Yang, L., Zhou, X., Watson, J., Tommaso, G., Chen, W., Liao, Q., Duan, N., Liu, Z.^* and Zhang, Y^*. (2019) Anaerobic conversion of the hydrothermal liquefaction aqueous phase: fate of organics and intensification with granule activated carbon/ozone pretreatment. Green Chemistry 21,1305-1318.

Aierzhati, A., Stablein, M.J., Wu, N.E., Kuo, C., Si, B., Kang, X., Zhang, Y. ^*, 2019. Experimental and model enhancement of food waste hydrothermal liquefaction with combined effects of biochemical composition and reaction conditions. Bioresource Technology 284, 139-147.

Li, M.^#, Si, B.^#, Zhang, Y.^*, Watson, J. and Aierzhati, A. (2019) Reduce recalcitrance of cornstalk using post-hydrothermal liquefaction wastewater pretreatment. Bioresource Technology.

Watson, J., Lu, J., de Souza, R., Si, B., Zhang, Y. and Liu, Z^*. (2019) Effects of the extraction solvents in hydrothermal liquefaction processes: Biocrude oil quality and energy conversion efficiency. Energy 167, 189-197.

Liu, Z., Si, B., Li, J., He, J., Zhang, C. ^*, Lu, Y., Zhang, Y. and Xing, X^*. (2018) Bioprocess engineering for biohythane production from low-grade waste biomass: technical challenges towards scale up. Current Opinion in Biotechnology 50, 25-31.

Chen, W., Zhang, Y. ^*, Lee, T.H., Wu, Z., Si, B., Lee, C.F., Lin, A. and Sharma, B.K. (2018) Renewable diesel blendstocks produced by hydrothermal liquefaction of wet biowaste. Nature Sustainability 1(11), 702.

Watson, J., Zhang, Y.^*, Si, B., Chen, W. and de Souza, R. (2018) Gasification of biowaste: A critical review and outlooks. Renewable and Sustainable Energy Reviews 83, 1-17.

Si, B., Li, J., Zhu, Z., Shen, M., Lu, J., Duan, N., Zhang, Y., Liao, Q., Huang, Y. and Liu, Z^*. (2018) Inhibitors degradation and microbial response during continuous anaerobic conversion of hydrothermal liquefaction wastewater. Science of The Total Environment 630, 1124-1132.

Yang, L., Si, B., Martins, M.A., Watson, J., Chu, H., Zhang, Y., Tan, X., Zhou, X^*. and Zhang, Y. (2018) Improve the biodegradability of post-hydrothermal liquefaction wastewater with ozone: conversion of phenols and N-heterocyclic compounds. Water Science and Technology 2017(1), 248-255.

Yang, L., Si, B., Tan, X., Chu, H., Zhou, X. ^*, Zhang, Y., Zhang, Y. and Zhao, F. (2018) Integrated anaerobic digestion and algae cultivation for energy recovery and nutrient supply from post-hydrothermal liquefaction wastewater. Bioresource Technology 266, 349-356.

Zhu, Z., Si, B., Lu, J., Watson, J., Zhang, Y. and Liu, Z^*. (2017) Elemental migration and characterization of products during hydrothermal liquefaction of cornstalk. Bioresource Technology 243, 9-16.

Watson, J., Si, B., Li, H., Liu, Z. and Zhang, Y ^*. (2017) Influence of catalysts on hydrogen production from wastewater generated from the HTL of human feces via catalytic hydrothermal gasification. International Journal of Hydrogen Energy 42(32), 20503-20511.

Si, B., Liu, Z. ^*, Zhang, Y., Li, J., Shen, R., Zhu, Z. and Xing, X. (2016) Towards biohythane production from biomass: Influence of operational stage on anaerobic fermentation and microbial community. International Journal of Hydrogen Energy 41(7), 4429-4438.

Shen, R., Liu, Z. ^*, He, Y., Zhang, Y., Lu, J., Zhu, Z., Si, B., Zhang, C. and Xing, X. (2016) Microbial electrolysis cell to treat hydrothermal liquefied wastewater from cornstalk and recover hydrogen: Degradation of organic compounds and characterization of microbial community. International Journal of Hydrogen Energy 41(7), 4132-4142.

Si, B., Li, J., Zhu, Z., Zhang, Y., Lu, J., Shen, R., Zhang, C., Xing, X. and Liu, Z. ^* (2016) Continuous production of biohythane from hydrothermal liquefied cornstalk biomass via two-stage high-rate anaerobic reactors. Biotechnology for Biofuels 9(1), 254.

Si, B., Liu, Z. ^*, Zhang, Y., Li, J., Xing, X., Li, B., Duan, N. and Lu, H. (2015) Effect of reaction mode on biohydrogen production and its microbial diversity. International Journal of Hydrogen Energy 40(8), 3191-3200.

Si, B., Li, J., Li, B., Zhu, Z., Shen, R., Zhang, Y. and Liu, Z^*. (2015) The role of hydraulic retention time on controlling methanogenesis and homoacetogenesis in biohydrogen production using upflow anaerobic sludge blanket (UASB) reactor and packed bed reactor (PBR). International Journal of Hydrogen Energy 40(35), 11414-11421.

司哺春，张燕生^*（2013） 基于电子流守恒理论的秸秆厌氧发酵产气预测. 农业工程学报29, 170-176.
◆人才培养
　 欢迎具有对厌氧发酵、微生物以及反应器设计方向感兴趣的学生联系我做本科生项目及报考研究生！
◆学术及教学荣誉
（1）2019年入选beat365体育官方网站优秀人才

（2）2017年入选博士后国际交流计划派出项目

（3）2015年获得国际氢能经济和燃料电池伙伴计划（IPHE）优秀博士论文奖

◆联系方式　　
beat365体育官方网站环境增值能源实验室
农业农村部设施农业工程重点实验室
地址：北京市海淀区清华东路17号
邮编：100083  
Email：sibuchun@cau.edu.cn　
◆备注 
  本材料统计日期为2019年12月