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  • 姓名:洪晨
    环境科学与工程系
    副教授
  • 办公地点:
    土木楼1208
  • 办公电话:
    15210342737
  • Email:
    hongchen@ustb.edu.cn

洪晨环境科学与工程系



教育及工作经历:

2004年9月-2009年6月,北京科技大学 环境科学与工程专业,学士;

2009年9月-2014年6月,北京科技大学 环境工程专业,博士;

2014年年11月-2017年7月,中国科学院生态环境研究中心,博士后;

2017年年7月-至今,北京科技大学能源与环境工程学院,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

3. 环境功能材料

 

本科生课程:

1. 环境工程制图

2. 清洁生产导论

3. 环境工程仪表及自动控制

 

代表性论文及著作:

代表性论文:

[1] Feng L, Hong C*, Xing Y, Ling W, Hu J, Zhao C, Wang Y. Hydrothermal carbonisation of polyvinyl chloride in ethanol-water/water system for solid fuels: Dichlorination, characteristics analysis of hydrochar, and reaction path. Environmental Research. 2024, 244: 117905.

[2] Hou J, Hong C*, Ling W, Hu J, Feng W, Xing Y, Wang Y, Zhao C, Feng L. Research progress in improving sludge dewaterability: sludge characteristics, chemical conditioning and influencing factors. Journal of Environmental Management. 2024, 351: 119863.

[3] Feng L, Hong C*, Xing Y*, Ling W, Zhao C, Hu J, Wang Y.  Liquefaction of Polystyrene (PS) Waste Plastics in Supercritical Ethanol and Reaction Pathway Exploration. Journal of Analytical and Applied Pyrolysis. 2023, 176: 106265.

[4] Ling W, Xing Y, Zhao C, Hong C*, Feng W, Wang Y, Hu J, Hou J, Feng L. Research progress on exhaust gas emissions and control technology during sewage sludge thermal drying: A review. Drying Technology. 2023, 42 (1): 1-18.

[5] Hu J, Zhao C, Si Y, Hong C*, Xing Y, Wang Y, Ling W, Feng W, Feng L. Preparation of ultrafine microporous nitrogen self-doped chitosan (CS) carbon aerogel based on a Zn-Zn system for high-performance supercapacitors. Applied Surface Science. 2023, 637: 157910.

[6] Hu J, Wang Z, Si Y, Hong C*, Zhao C, Xing Y*, Ling W, Wang Y, Feng L, Feng W. Construction of shrimp shell (SS) waste-based carbon electrode-gel polymer electrolyte (GPE) system for flexible symmetric supercapacitors. Journal of Materials Chemistry A. 2023, 11(2): 878-889.

[7] Zhao C, Hong C*, Hu J, Xing Y*, Ling W, Zhang B, Wang Y, Feng L. Different Upgrading Technologies and Catalytic Mechanisms for Heteroatomic Compounds from Bio-oil - A Review. Fuel. 2023, 333: 126388.

[8] Feng L, Li Z, Hong C*, Xing Y*, Qin Y, Lu Y, Zhao X, Lu J. Characteristic analysis of bio-oil from penicillin fermentation residue by catalytic pyrolysis. Environmental Technology. 2023, 44 (16): 2481-2489.

[9] Ling W, Xing Y, Hong C*, Zhang B, Hu J, Zhao C, Wang Y, Feng L. Methods, Mechanisms, Models and Tail Gas Emissions of Convective Drying in Sludge: A Review. Science of the Total Environment. 2022, 845: 157376.

[10] Hu J, Hong C*, Zhao C, Si Y, Xing Y*, Ling W, Zhang B, Li Z, Wang Y, Feng L, et al. Nitrogen self-doped hierarchical porous carbon via penicillin fermentation residue (PR) hydrothermal carbonization (HTC) and activation for supercapacitance. Journal of Alloys and Compounds. 2022, 918:165452.

[11] Hong C, Wang Z, Si Y, Li Z, Xing Y*, Hu J*, Li Y. 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.

[12] Hong C, Li Y, Si Y, Li Z, Xing Y*, Chang X, Zheng Z, Hu J*, Zhao X. Catalytic upgrading of penicillin fermentation residue bio-oil by metal-supported HZSM-5. Science of the Total Environment. 2021, 767:144977.

[13] Yang J, Hong C*, Xing Y*, Zheng Z, Li Z, Zhao X, Qi C. 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.

[14] Hong C, Wang Z, Si Y, Li Z, Xing Y*, Hu J, Li Y. 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.

[15] Yang J, Hong C*, Li Z, Xing Y*, Zhao X. Study on hydrothermal liquefaction of antibiotic residues for bio-oil in ethanol-water system. Waste Management. 2021, 120: 164-174.

[16] Li Y, Hong C*, Li Z, Xing Y*, Chang X, Zheng Z, Zhao X. 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.

[17] Li Y, Hong C*, Wang Y, Xing Y*, Chang X, Zheng Z, Li Z, Zhao X. 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.

[18] Hu J, Hong C*, Li Z, Xing Y*, Zheng Z, Zhao X, Wang Z, Zhao H, Zhang Z, Meng J, et al. Nitrogen release of hydrothermal treatment of antibiotic fermentation residue and preparation of struvite from hydrolysate. Science of the Total Environment. 2020, 713: 135174.

[19] Li Y, Hong C*, Wang Z, Xing Y*, Yang J, Feng L, Hu J, Li Z, Zhang Z, Zhao H, et al. Fractal characteristics of biochars derived from Penicillin V potassium residue pyrolysis. Journal of Analytical and Applied Pyrolysis. 2019, 141: 104636.

[20] Wang Z, Hong C*, Xing Y, Li Z, Li Y, Yang J, Feng L, Hu J, Sun H. Thermal characteristics and product formation mechanism during pyrolysis of penicillin fermentation residue. Bioresource Technology. 2019, 277:46-54. 


发明专利

1. 第一发明人,含水物料分级粉化高效干化系统,ZL 202310165912.3

2. 第一发明人,多层累叠固液分离系统及方法,ZL 202210363857.4

3. 第一发明人,匀质喷涂累叠挤压装置及工艺方法,ZL 202210362474.5

4. 第一发明人,多位置复合匀质喷涂累叠挤压装置及工艺方法,ZL 202210363856.x

5. 第一发明人,用于多层累叠过滤的过滤板及压滤方法,ZL 202210362492.3

6. 第一发明人,滤布铺折布料设备,ZL 202210363861.0

7. 第一发明人,用于累叠挤压装置的连续式滤布机构及滤布快捷换装方法,ZL 202210362466.0

8. 第一发明人,再生强碱活化生物质原料制备多孔碳材料的方法,ZL 202011297924.4

9. 第一发明人,剩余污泥深度干化设备系统及方法,ZL 201910244248.5

10. 第一发明人,剩余污泥低温干化装置及其运行方法,ZL 201910245246.8

11. 第一发明人,基于空气介质循环的污泥深度干化方法及系统,ZL 201910245220.3

12. 第一发明人,基于低温热源的污泥深度干化方法及系统,ZL 201910244218.4

13. 第一发明人,污泥超细化同步深度干化装置及方法,ZL 201910244241.3

14. 第一发明人,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

15. 第二发明人,美国发明专利,High-moisture sludge ultra-fine synchronizing deep-drying device and a method thereof, US11286192B2

 

成果及获奖

1. “污泥常温深度干化技术及成套设备”,入选生态环境部《“无废城市”建设先进适用技术汇编》(第三批),2023.

2. 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.

3. 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. 新疆维吾尔自治区重点研发任务专项,2023B01014,利用煤矸石/气化渣大规模资源化利用关键技术及产品应用示范研究,2024-2026,参与.

2. 国家重点研发计划重点专项,2023YFC3707800,盾构土处理处置与安全利用技术,2023-2026,参与.

3. 企业合作研发课题,撬装式污泥高压脱水技术研究,2023-2024,主持;

4. 钢铁冶金国家重点实验室自主课题,甲壳全组分利用构建柔性超级电容器电极-电解质体系,2023-2024,主持.

5. 企业合作研发课题,Development of metal phase change material based prototype,2022-2024,主持.

6. 企业合作研发课题,芬顿反应及菌群种类对焦化废水污染物降解作用的研究,2022-2023,主持.

7. 河北省重大科技成果转化专项,21283804Z,钢渣微粉增值化和规模化综合利用及成套装备关键技术成果转化,2021- 2023,参与.

8. 中央高校基本科研业务费资助项目,FRF-TP-20-010A2,抗生素菌渣热解机理及氮迁移路径研究,2020-2021,主持.

9. 河北省自然科学基金,E20208054,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,2020-2022,参与.

10. 河北省重点研发计划项目,19273809D,抗生素菌渣蛋白回收及热解气化技术研究与示范,2019-2020,参与.

11. 北京市科技计划项目,Z181100002418016,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,2019-2020,参与.

12. 中央高校基本科研业务费资助项目,FRF-TP-18-006C1,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,2018-2021,参与.

13. 中央高校基本科研业务费资助项目,FRF-TP-17-062A1,有机固废水热液化机理及反应特性研究,2017-2019,主持.

14. 中国博士后科学基金 面上项目,2016M591266,碱金属催化超细抗生素菌渣-煤混燃去除NOx的调控机制,2016-2017,主持.

15. 国家自然科学基金 青年科学基金,51508553,抗生素菌渣掺煤混燃中 NOx 多方式协同去除及调控机制,2016-2017,主持.


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