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学习工作简历:
2004年9月-2009年6月,集团 环境科学与工程专业,学士;
2009年9月-2014年6月,集团 环境工程专业,博士;
2014年年11月-2017年7月,中国科集团生态环境研究中心,博士后;
2017年年7月-至今,澳门威尼斯官网(中国)集团有限公司,讲师,副教授
研究领域:
1. 高含水固废深度干化与资源化
2. 生物质热化学转化
本科生课程:
1. 清洁生产与循环经济
2. 环境工程制图实践
代表性论文及著作:
代表性论文:
[1] Hong Chen, Wang Zhiqiang, Si Yanxiao, Xing Yi*, Hu Jiashuo, Li Yifei. Effects of aqueous phase circulation and catalysts on hydrothermal liquefaction (HTL) of penicillin residue (PR): characteristics of the aqueous phase, solid residue and bio oil. Science of the Total Environment. 2021, 776: 145596.
[2] Yang Jian , Hong Chen *, Xing Yi *, Zheng Zixuan , Li Zaixing *, Zhao Xiumei , Lü Yongtao , Lü Jianwei . Study on hydrothermal liquefaction of antibiotic residues with molecular sieve catalysts in ethanol-water system: Focus on products distribution and characterization. RSC Advances. 2021, 5(3): 23383-2339.
[3] Hong Chen, Wang Zhiqiang, Si Yanxiao, Xing Yi*, Yang Jian, Feng Lihui, Wang Yijie, Hu Jiashuo, Li Zaixing, Li Yifei. Catalytic Hydrothermal Liquefaction of Penicillin Residue for the Production of Bio-Oil over Different Homogeneous/Heterogeneous Catalysts. Catalysts, 2021, 11(7):849.
[4] Hong Chen, Li Yifei, Si Yanxiao, Li Zaixing, Xing Yi*, Chang Xiaonan, Zheng Zixuan, Hu Jiashuo, Zhao Xiumei. Catalytic upgrading of penicillin fermentation residue bio-oil by metal-supported HZSM-5. Science of the Total Environment. 2021, 767:144977.
[5] Si Yanxiao, Zhang Fang, Hong Chen, Li Guanghe, Zhang Haichuan, Liu Dun. Effect of current density on groundwater arsenite removal performance using air cathode electrocoagulation. Frontiers of Environmental Science & Engineering. 2021, 15(6): 112.
[6] Yang Jian, Hong Chen*, Xing Yi*, Zheng Zixuan, Li Zaixing, Zhao Xiumei, Qi Chenhao. Research progress and hot spots of hydrothermal liquefaction for bio-oil production based on bibliometric analysis. Environmental Science and Pollution Research. 2021, 28: 7621-7653.
[7] Hong Chen, Wang, Zhiqiang, Si, Yanxiao, Li, Zaixing, Xing, Yi*, Hu, Jiashuo, Li, Yifei. Preparation of Bio-oils by Hydrothermal Liquefaction (HTL) of Penicillin fermentation residue (PR): Optimization of Conditions and Mechanistic Studies. Science of the Total Environment. 2021, 761: 143216.
[8] Yang Jian, Hong Chen*, Li Zaixing, Xing Yi*, Zhao Xiumei. Study on hydrothermal liquefaction of antibiotic residues for bio-oil in ethanol-water system. Waste Management. 2021, 120: 164-174.
[9] Li Yifei, Hong Chen*, Li Zaixing, Xing Yi*, Chang Xiaonan, Zheng Zixuan, Zhao Xiumei. Study on the nitrogen migration mechanism during penicillin fermentation residue fast pyrolysis based on the substance transformation and canonical variational theory. Science of the Total Environment. 2020, 737: 139739.
[10] Li Yifei, Hong Chen*, Wang Yijie, Xing Yi*, Chang Xiaonan, Zheng Zixuan, Li Zaixing*, Zhao Xiumei. Nitrogen Migration Mechanism during Pyrolysis of Penicillin Fermentation Residue Based on Product Characteristics and Quantum Chemical Analysis. ACS Sustainable Chemistry & Engineering. 2020. 8: 7721-7740.
[11] Hu Jiashuo, Hong Chen*, Li Zai, Xing Yi*, Zheng Zixuan, Zhao Xiumei, Wang, Zhiqiang, Zhao Hongjun, Zhang Ze, Meng Jie, Qi Chenhao. Nitrogen release of hydrothermal treatment of antibiotic fermentation residue and preparation of struvite from hydrolysate. Science of the Total Environment. 2020, 713, 135174.
[12] Wang Zhiqiang. Hong Chen*, Xing Yi, Li Zaixing, Li Yifei, Yang Jian, Feng Lihui, Hu Jiashuo, Sun Haipeng. Thermal characteristics and product formation mechanism during pyrolysis of penicillin fermentation residue. Bioresource Technology. 2019, 277, 46-54.
[13] Li Yifei, Hong Chen*, Wang Zhiqiang, Xing Yi*, Yang Jian, Feng Lihui, Hu Jiashuo, Li Zaixing*, Zhang Ze, Zhao Hongjun, Meng Jie. Fractal characteristics of biochars derived from Penicillin v potassium residue pyrolysis. J. Anal. Appl. Pyrol. 2019, 141, 104636.
[14] Wang Zhiqiang, Hong Chen*, Xing Yi*, Li Yifei, Feng Lihui, Jia Mengmeng. Combustion behaviors and kinetics of sewage sludge blended with pulverized coal: With and without catalysts. Waste Management. 2018, 288-296.
[15] Wang Zhiqiang, Hong Chen*, Xing Yi*, Wang Kang, Li Yifei, Feng Lihui, Ma Silu. Spatial distribution and sources of heavy metals in natural pasture soil around copper-molybdenum mine in Northeast China. Ecotoxicology and Environmental Safety. 2018, 154, 329-336.
[16] Hong Chen, Wang Zhiqiang, Si Yanxiao, Yang Qiang, Xing Yi. Improving sludge dewaterability by combined conditioning with Fenton's reagent and surfactant. Applied Microbiology and Biotechnology. 2017, 101, 809-816.
[17] Xing Yi, Wang Zhiqiang, Hong Chen*, Yang Qiang, Feng Lihui, Jia Mengmeng, Li Yifei. Mechanism and parameter optimization of Fenton's reagent integrated with surfactant pretreatment to improve sludge dewaterability. PLoS One. 2017, 12, e0169523.
[18] Wang Zhiqiang, Hong Chen*, Xing Yi, Feng Lihui, Li Yifei, Jia Mengmeng. Influences of ultrafine comminution on chemical properties of antibiotic bioferment residue. Powder Technology. 2017, 321, 514-522.
[19] Hong Chen, Wang Zhiqiang, Xing Yi*, Li Yifei, Yang Qiang. Investigation of free radicals and carbon structures in chars generated from pyrolysis of antibiotic fermentation residue. RSC Advances. 2016, 6, 111226-111232.
[20] Hong Chen, Si Yangxiao, Xing Yi*, Li Yang. Illumina MiSeq sequencing investigation on the contrasting soil bacterial community structures in different iron mining areas. Environmental Science and Pollution Research. 2015, 22, 10788-10799.
[21] Xing Yi, Si Yanxiao, Hong Chen*, Li Yang. Multiple Factors Affect Diversity and Abundance of Ammonia-Oxidizing Microorganisms in Iron Mine Soil. Arch. Environ. Con. Tox. 2015, 69, 20-31.
[22] Hong Chen, Xing Yi, Hua Xiufu, Si Yanxiao, Qiao Geng, Wang Zhiqiang. Dewaterability of sludge conditioned with surfactant DDBAC pretreatment by acid/alkali. Applied Microbiology and Biotechnology. 2015, 99, 6103-6111.
【23】Hong Chen, Xing Yi, Si Yanxiao, Wang Zhiqiang, Qiao Geng. Effect of surfactant on bound water content and extracellular polymers substances distribution in sludge. RSC Advances. 2015, 5, 23383-23390.
专利、获奖、鉴定
专利:
发明专利
1. 洪晨,邢奕,李益飞,王志强,冯丽慧. 剩余污泥深度干化设备系统及方法 ZL 201910244248.5
2. 洪晨,邢奕,王志强,李益飞,冯丽慧. 剩余污泥低温干化装置及其运行方法 ZL 201910245246.8
3. 洪晨,邢奕,胡家硕,王志强,冯丽慧. 基于空气介质循环的污泥深度干化方法及系统 ZL 201910245220.3
4. 洪晨,邢奕,胡家硕,王志强,李益飞. 基于低温热源的污泥深度干化方法及系统 ZL 201910244218.4
5. 洪晨,邢奕,冯丽慧,王志强,胡家硕. 污泥超细化同步深度干化装置及方法 ZL 201910244241.3
6. 洪晨,邢奕,李益飞,王志强,冯丽慧. 一种抗生素菌渣干粉制备富含微孔的高性能活性炭的方法 ZL 201810140012.2
7. 邢奕,洪晨,张坤,宋存义,汪莉. 一种利用石灰干化污泥烧制水泥的方法. ZL 201410028133.x
8. 邢奕,洪晨,姜长禄,余广炜,张坤. 一种剩余污泥调理脱水的工艺方法. ZL 201310004357.2
9. 邢奕,洪晨,段旭琴,何永峰,王路敏. 一种剩余污泥的处理方法. ZL 201110057411.0
10. 邢奕,洪晨,段旭琴,何永峰,徐贵林. 一种高热值剩余污泥的处置方法. ZL 201110057325.x
11. 邢奕,洪晨,段旭琴,何永峰,姜长禄. 一种低热值剩余污泥处置方法. ZL 201110057038.9
12. 邢奕,段旭琴,洪晨,宋存义,姜长禄. 一种脱硫石灰处置剩余污泥的工艺方法. ZL 201110057413.x
13. 段旭琴,邢奕,洪晨,姜长禄,何永峰. 一种利用粉煤灰处置剩余污泥的工艺方法. ZL 201110057421.4
14. 余广炜,岳昌盛,崔金印,邢奕,洪晨. 用于烧结的节能添加剂及其应用. ZL 201310753257.x
实用新型专利
1. 洪晨,邢奕,王志强,冯丽慧,胡家硕,李益飞. 一种污泥超细化同步深度干化设备,ZL 201920409033.X
2. 洪晨,王志强,邢奕,李益飞,胡家硕,冯丽慧. 一种剩余污泥深度干化的系统装置,ZL 201920410071.7
3. 洪晨,邢奕,王志强,冯丽慧,胡家硕,李益飞. 一种剩余污泥低温干化设备,ZL 201920409019.X
获奖
烟气多污染物系统治理及副产物资源化生产 A1 级防火材料技术,2018 年北京市科学技术奖 三等奖,2018. 排名 5/8.
半干法烟气超低排放与多功能耦合关键技术及其在钢铁行业中的应用, 麒麟科学技术奖—首都优秀科技创新奖. 2019. 排名 3/5.
科研项目
1. 中央高校基本科研业务费资助项目,抗生素菌渣热解机理及氮迁移路径研究,FRF-TP-20-010A2,2020-2021,主持;
2. 河北省自然科学基金,多酶磁驱固定化提取抗生素菌渣中蛋白质的调控机制研究,E20208054,2020-2022,参加;
3. 河北省重点研发计划项目,抗生素菌渣蛋白回收及热解气化技术研究与示范,19273809D,2019-2020,参加;
4. 北京市科技计划项目“基于干式发酵的农村生活垃圾管理全过程控制和资源化技术集成与示范”,Z181100002418016,2019-2020,参加;
5. 中央高校基本科研业务费资助项目,空气介质驱动剩余污泥中水分高校蒸发的机理及调控机制,FRF-TP-18-006C1,2018-2021,参加;
6. 中央高校基本科研业务费资助项目,有机固废水热液化机理及反应特性研究,FRF-TP-17-062A1,2017-2019,主持;
7. 中国博士后科学基金 面上项目,碱金属催化超细抗生素菌渣-煤混燃去除NOx的调控机制,2016M591266,2016-2017,主持;
8. 国家自然科学基金 青年科学基金,抗生素菌渣掺煤混燃中 NOx 多方式协同去除及调控机制,51508553,2016-2017,主持;
