樊亮亮

个人信息

樊亮亮

副研究员，硕导，江西省主要学科学术和技术带头人，上高县副县长（挂职）

fanliangliang@ncu.edu.cn

教育背景

2018年获工学博士学位；

2016.02—2018.01赴美国明尼苏达大学访学交流2年

工作履历

2022.12—至今 南昌大学资源与环境学院，副研究员

2018.10—2022.12  南昌大学资源与环境学院，助理研究员/博士后

学术与社会兼职

第十五届全国循环经济与生态工业学术研讨会副秘书长

第四届国际生物质固废能源与环境会议（BEE2023）秘书长

Chemical Engineering Journal，Applied Energy等期刊审稿人

曾任美国RESYNERGI公司合作工程师/科研顾问

研究领域

固体废弃物资源化利用；环境材料开发与应用；废水资源利用

研究概况

长期专注于固体资源化利用、废水资源利用等领域的研究，在Chemical Engineering Journal国际Top等期刊发表80余篇论文，申请发明专利6项，获“全球前2%顶尖科学家”称号；承担或参加国家自然科学基金6项，国际合作项目1项，省部级项目2项，其中，主持国家级项目2项，省部级项目4项，横向课题1项。

讲授课程

《化工热力学》《化工原理》《环境化学》《化工工艺、设备及应用》

奖励与荣誉

全球前2%顶尖科学家

江西省自然科学奖二等奖（2023）

教学成果奖校特等奖

指导大学生创新创业大赛校二等奖

代表性成果

近3年论文专著发表：

1. Wang, W., Zhou, W., Wang, Y., Wang, M., Wang, Q., Hu, Y., Wu, J., Hu, J., Luo, T., Fan, L. Production of low-nitrogen and oxygen biocrude and coupling recovery of nitrogen and phosphorus from hydrothermal liquefaction of sewage sludge with MgCl2[J]. Chemical Engineering Journal, 2025, 505: 159184.

2. Wang, M., Zhou, W., Wang, Y., Jiang, H., Wang, W., Wu, J., Hu, J., Luo, T., Wang, Q., Hu, Y. Production of high-grade biocrude and recovery of nutrient elements from wet torrefaction of sewage sludge coupled with co-liquefaction with soybean straw[J]. Renewable Energy, 2025, 242: 122411.

3. Zhou, R., Tian, X., Wang, X., Zeng, Y., Ke, L., Wu, Q., Liao, R., Ruan, R., Fan, L.*, Wang, Y*. Microwave pyrolysis of Choerospondias axillaris seeds with their derived biochar for comprehensive utilization of the biomass[J]. Chemical Engineering Journal, 2024, 501: 157727.

4. Luo, T., Zhou, W., Wang, Y., Jiang, H., Wu, J., Hu, J., Wang, M., Wang, W., Wang, Q., Hu, Y., Fan, L*. Integrating microwave pyrolysis and hydrotreating for converting low-density polyethylene into jet fuel[J]. Renewable Energy, 2024, 236: 121432.

5. Hu, J., Zhou, W., Wang, Y., Jiang, H., Wu, J., Luo, T., Wang, M., Wang, W., Wang, Q., Hu, Y., Fan, L*. Synthesis of HZSM-5@activated carbon for improving aromatic production from catalytic pyrolysis of biomass[J]. Chemical Engineering Journal, 2024, 494: 153031.

6. Zhang, L., Yang, X., Wu, Q., Fan, L., Xu, C., Zou, R., Liu, Y., Cobb, K., Ruan, R., Wang, Y. ZSM-5@ceramic foam composite catalyst derived from spent bleaching clay for continuous pyrolysis of waste oil to produce monocyclic aromatic hydrocarbons[J]. Science of the Total Environment, 2024, 926: 171887.

7. Zhang, L., Wu, Q., Wang, Y., Ke, L., Fan, L., Yang, Q., Zhang, Q., Zou, R., Liu, Y., Cobb, K., Ruan, R., Wang, Y. Microwave-assisted catalytic pyrolysis of waste cooking oil to monocyclic aromatics under a bifunctional SiC ball catalyst[J]. Journal of Environmental Management, 2024, 357: 120748.

8. Zhang, L., Wu, Q., Fan, L., Liao, R., Zhang, J., Zou, R., Cobb, K., Ruan, R., Wang, Y. Monocyclic aromatic hydrocarbons production from NaOH pretreatment metallized food plastic packaging waste through microwave pyrolysis coupled with ex-situ catalytic reforming[J]. Chemical Engineering Journal, 2024, 484: 149777.

9. Zeng, Y., Wang, Y., Ke, L., Wu, Q., Tian, X., Fan, L., Cobb, K., Liu, Y., Ruan, R., Wang, Y. Comparison of microwave and conventional pyrolysis of one-step prepared metal soaps (Li/Na/K/Ca/Mg): Product distribution and heating characteristics[J]. Chemical Engineering Journal, 2024, 493: 152481.

10. Wu, Q., Huang, W., Dai, A., Ke, L., Zhang, L., Zhang, Q., Cui, X., Fan, L., Xu, C., Cobb, K., Zou, R., Pan, X., Liu, Y., Ruan, R., Wang, Y. Two-step fast pyrolysis of torrefied corncobs and waste cooking oil under different atmosphere for hydrocarbons production[J]. Energy, 2024, 286: 129535.

11. Wei, Y., Xu, D., Xu, M., Zheng, P., Fan, L., Leng, L., Kapusta, K. Hydrothermal liquefaction of municipal sludge and its products applications[J]. Science of the Total Environment, 2024, 908: 168177.

12. Wang, X., Peng, Y., Zhou, R., Fan, L., Zhang, Q., Cui, X., Wu, Q., Zeng, Y., Tian, X., Ke, L., Ruan, R., Wang, Y. Production of monocyclic aromatic hydrocarbons from microwave co-pyrolysis of polyethylene terephthalate and low-density polyethylene using coconut husk carbon as microwave absorbent[J]. Chemical Engineering Journal, 2024, 488: 150732.

13. Strugała-Wilczek, A., Basa, W., Pankiewicz-Sperka, M., Xu, D., Duan, P., Hao, B., Wang, Y., Leng, L., Yang, L., Fan, L., Kapusta, K. Distribution characteristics and migration pathways of metals during hydrothermal liquefaction of municipal sewage sludge in the presence of various catalysts[J]. Science of the Total Environment, 2024, 920: 171023.

14. Song, H., Li, J., Su, Q., Li, H., Guo, X., Shao, S., Fan, L., Xu, P., Zhou, W., Qian, J. Insight into the mechanism of nitrogen sufficiency conversion strategy for microalgae-based ammonium-rich wastewater treatment[J]. Chemosphere, 2024, 349: 140904.

15. Leng, L., Kang, B., Xu, D., Kapusta, K., Xiong, T., Xu, Z., Fan, L., Liu, T., Peng, H., Li, H. Machine-learning-aided prediction and optimization of struvite recovery from synthetic wastewater[J]. Journal of Water Process Engineering, 2024, 58: 104896.

16. Ke, L., Wu, Q., Zhou, N., Li, H., Zhang, Q., Cui, X., Fan, L., Liu, Y., Cobb, K., Ruan, R., Wang, Y. Polyethylene upcycling to aromatics by pulse pressurized catalytic pyrolysis[J]. Journal of Hazardous Materials, 2024, 461: 132672.

17. Fan, L., Hu, J., Wang, W., Wang, M., Luo, T., Wu, J., Hu, Y., Wang, Q., Zhou, W. 2024. Chapter Five - Thermochemical processing of algal biomass for biofuel production [M] //Y Li, Advances in Bioenergy. Elsevier: 287-333.

18. Fan, L., Hu, J., Wang, W., Wang, M., Luo, T., Wu, J., Hu, Y., Wang, Q., Zhou, W. 2024. Thermochemical processing of algal biomass for biofuel production [M], Advances in Bioenergy. Elsevier.

19. Yang, Q., Wu, Q., Zhou, N., Ke, L., Fan, L., Zeng, Y., Xu, C., Liu, Y., Ruan, R., Wang, Y. Continuous catalytic pyrolysis of waste oil to aromatics: Exploring the structure-performance relations of ZSM-5 based on different scale-up forms[J]. Chemical Engineering Journal, 2023, 475: 146259.

20. Xu, J., Tian, X., Huang, W., Ke, L., Fan, L., Zhang, Q., Cui, X., Wu, Q., Zeng, Y., Cobb, K., Liu, Y., Ruan, R., Wang, Y. Production of C5-C12 olefins by catalytic pyrolysis of low-density polyethylene with MCM-41 in CO2/N2[J]. Science of the Total Environment, 2023, 899: 165597.

21. Xiong, J., Zhang, S., Fan, L., Zhang, Q., Cui, X., Ke, L., Zeng, Y., Wu, Q., Cobb, K., Liu, Y., Ruan, R., Wang, Y. Production of bio-oil from waste cooking oil via microwave-assisted pyrolysis in the presence of waste eggshell CaO and HZSM-5: Process optimization and catalyst lifetime exploration[J]. Energy, 2023, 283: 128416.

22. Wu, Q., Zhang, L., Ke, L., Zhang, Q., Cui, X., Fan, L., Dai, A., Xu, C., Zhang, Q., Bob, K., Zou, R., Liu, Y., Ruan, R., Wang, Y. Co-torrefaction of corncob and waste cooking oil coupled with fast co-pyrolysis for bio-oil production[J]. Bioresource Technology, 2023, 370: 128529.

23. Wang, Y., Zeng, Y., Fan, L., Wu, Q., Zhang, L., Xiong, J., Zhang, J., Liao, R., Cobb, K., Liu, Y., Ruan, R., Wang, Y. Pyrolysis of different types of waste cooking oil in the presence/absence HZSM-5 catalyst: Influence of feedstock characteristics on aromatic formation[J]. Fuel, 2023, 351: 128937.

24. Song, H., Li, J., Zhou, M., Li, H., Fan, L., Xu, P., Shao, S., Li, J., Xu, C., Zhou, W., Qian, J. Improving algal growth in an anaerobic digestion piggery effluent by fungal pretreatment: Process optimization, the underlying mechanism of fungal decolorization, and nitrogen removal[J]. Chemosphere, 2023, 337: 139416.

25. Qian, J., Wan, T., Ye, Y., Li, J., Toda, T., Li, H., Sekine, M., Takayama, Y., Koga, S., Shao, S., Fan, L., Xu, P., Zhou, W. Insight into the formation mechanism of algal biofilm in soy sauce wastewater[J]. Journal of Cleaner Production, 2023, 394: 136179.

26. Qian, J., Fu, S., Li, J., Toda, T., Li, H., Sekine, M., Takayama, Y., Koga, S., Shao, S., Fan, L., Xu, P., Zhang, X., Cheng, J., Jin, Z., Zhou, W. Effects of organic carbon sources on algal biofilm formation and insight into mechanism[J]. Algal Research, 2023, 71: 103075.

27. Peng, Y., Wang, X., Fan, L., Zhang, Q., Cui, X., Tian, X., Wu, Q., Cobb, K., Ruan, R., Tu, H., Yang, J., Wang, Y. Conversion of low-density polyethylene into monocyclic aromatic hydrocarbons through continuous microwave pyrolysis with ex-situ dual-catalyst beds[J]. Journal of Cleaner Production, 2023, 418: 138039.

28. Liu, L., Zhou, W., Wang, Y., Yao, Y., Qian, J., Wu, J., Hu, J., Wang, M., Wang, W., Luo, T., Jin, K., Fan, L*. Cascaded Catalytic Copyrolysis of Microalgae and LDPE with Ni/Biochar and HZSM-5 for Improving High-Grade Bio-Oil Production[J]. Acs Sustainable Chemistry & Engineering, 2023, 11(44): 15964-15974.

29. Liu, L., Fan, L.*, Jin, K., Qian, J., Huang, P., Peng, H., Zhou, W., Chen, P., Ruan, R. One-pot synthesis of lignin biochar supported Ni for catalytic pyrolysis of Chlorella vulgaris and its model compounds: The formation mechanism of aromatic hydrocarbons[J]. Fuel, 2023, 341: 127558.

30. Huang, P., Zhou, W., Jin, K., Wang, Y., Qian, J., Liu, L., Peng, H., Wu, J., Hu, J., Wang, M., Wang, W., Luo, T., Fan, L*. One-Step Carbothermal Reduction Synthesis of Metal-Loaded Biochar Catalyst for In Situ Catalytic Upgrading of Plastic Pyrolysis Products[J]. Acs Sustainable Chemistry & Engineering, 2023, 11: 696-707.

31. Hao, B., Xu, D., Wei, Y., Diao, Y., Yang, L., Fan, L., Guo, Y. Mathematical models application in optimization of hydrothermal liquefaction of biomass[J]. Fuel Processing Technology, 2023, 243: 107673.

近3年项目情况：

1.“连续微波催化热解耦合氮磷回收转化污泥为汽油烃及高值肥料”，江西省学科学术带头人项目（青年），30万元 ，主持，在研，2024-2027；

2.“微藻催化热解过程中汽油烃的调控生产以及副产物中营养元素的循环回收”，江西省自然科学基金，10万元，主持，在研，2024-2027；

3.“城市污泥水热液化耦合催化提质制取高能量密度碳氢燃料关键技术与系统工艺研发”，国家重点研发项目子课题(2021YFE0104900)，27万元，主持，在研，2021-2024；

4.“新型金属负载生物炭催化微藻与富氢废弃物共热解蒸汽制备烃类的机制研究”，国家自然科学基金（51906096），27万元，主持，结题，2020-2023。

近3年专利情况：

1.樊亮亮; 刘蕾; 黄佩; 金匡力; 周文广 ; 一种生物质转化为烃类化合物的催化剂制备方法, 2022-6-2, 中国, CN202210620435.0

2.樊亮亮; 黄佩; 周文广; 刘蕾; 胡金烨; 罗婷; 王伟鑫; 王梦娇 ; 一种微波催化塑料热解蒸汽转化为富含BTX产物的方法, 2023-04-19, 中国, CN202310417002.X

3.樊亮亮; 胡金烨; 罗婷; 吴佳博; 周文广; 一种 HZSM-5 覆膜生物炭催化剂及其制备方法和应用，2024-03-21，中国，CN202410328238.0

4.樊亮亮; 王伟鑫; 刘统贵; 王梦姣; 胡瑜杭; 王琪; 周文广; 一种回收污泥转化为高品燃油及氮磷肥料的方法, 2024-05-22, 中国, CN202410638079.4

5.樊亮亮; 王梦姣; 王伟鑫; 胡瑜杭; 王琪; 周文广; 两级水热液化污泥及生物质制备高值生物油的方法, 2024-05-22, 中国, 202410638077.5