崔达,工学博士,高级实验师,硕士研究生导师,东电学者,近年来围绕有机废弃物无害化处理与资源化利用技术、可再生能源与氢能方向开展研究。主持国家自然科学基金项目1项、吉林省科技厅、教育厅等纵向科研项目5项。在Energy、Chemical Engineering Journal、化工学报等国内外著名期刊发表学术论文50余篇,截止2026年1月h-index: 24,入选ESI高被引论文4篇、热点论文1篇。出版外文专著1部,授权国家发明专利8项。
招生情况
每年招收硕士研究生3名,期待学生在具备扎实学习基础和科研潜力的同时,更要保持积极乐观的心态与对生活的热爱。鼓励形成自律而不内耗、勤奋而不焦虑的科研节奏,在尊重科研规律的基础上持续积累、稳步提升。将为研究生提供明确的研究方向指导、规范系统的科研训练以及开放互助的学术环境,促进学生在专业能力、综合素养与身心健康等方面的协调发展。
联系方式
13630637459 (微信)
jlcuida@163.com
教育背景
本科:东北电力大学, 自动化,2009.09-2013.06
硕士:东北电力大学,动力工程及工程热物理,2013.09-2016.04
博士:东北电力大学,动力工程及工程热物理,2016.09-2019.12
工作经历
2016.12 至今 东北电力大学,油页岩综合利用教育部工程研究中心
2024.06-2025.05 国家公派访问学者,化学材料系,加拿大阿尔伯塔大学,合作导师:Xuehua Zhang 教授(加拿大工程院院士)
研究方向
① 非热等离子体调控的先进能源转化与低碳利用
② 有机废弃物清洁转化与高值资源化技术
③ 可再生能源与氢能系统及关键技术
④ 油页岩清洁高效综合利用与系统集成技术
期刊任职
Carbon Neutrality ,青年编委;
Renewable and Sustainable Energy ,青年编委;
Energy & Environment Nexus,青年编委;
Energy conversion and management, Bioresource technology, Applied thermal
engineering, Industrial crops andproducts, Renewable energy, Waste management 等期刊审稿人。
毕业生去向(截止到2026年1月)
姓名 | 毕业年份 | 工作单位 | 研究生期间成果及荣誉 |
李吉 | 2023 | 哈尔滨电机厂有限责任公司 | 1.发表SCI一区论文1篇 2.学业一等奖学金 3.科技创新活动先进个人,文体活动先进个人 |
尹鹤霖 | 2024 | 华能吉林九台电厂 | 1.发表SCI一区论文1篇,EI论文1篇 2.研究生国家奖学金 3.优秀硕士学位论文 4.优秀毕业研究生 |
刘宇鹏 | 2024 | 京能涿州电厂 | 1.发表SCI二区论文1篇 2.科技创新活动先进个人; 3.研究生学业一等奖学金; 4.优质生源奖学金 |
张博文 | 2025 | 哈尔滨汽轮机厂有限责任公司 | 1.发表SCI双一区论文1篇,二区论文1篇 2.研究生国家奖学金; 3.科技创新活动先进个人、文体活动先进个人; 4.研究生学业一等奖学金 |
张鹏 | 2025 | 国家能源集团锦界电厂 | 1.发表SCI一区论文1篇; 2.科技创新活动先进个人,文体活动先进个人; 3.研究生学业一等奖学金 |
张家玮 | 2025 | 哈尔滨锅炉厂有限责任公司 | 1.发表SCI一区论文1篇; 2.志愿服务活动活动先进个人; 3.研究生学业一等奖学金 |
张明珠 | 2025 | 中煤集团舟山电厂 | 1.发表SCI二区论文1篇; 2.文体活动先进个人; 3.研究生学业一等奖学金 |
李洋 | 2025 | 中国电力工程顾问集团东北电力设计院 | 1.发表SCI一区论文1篇; 2.研究生学业一等奖学金; 3.志愿服务活动先进个人 |
隋雪龙 | 2026 | 国投钦州电厂 | 1.发表SCI一区论文1篇; 2.科技创新活动先进个人; 3.研究生学业一等奖学金; 4.研究生国家奖学金 |
邢耀栋 | 2026 | 大唐国际托克托电厂 | 1.发表SCI一区论文1篇,二区论文1篇; 2.科技创新活动先进个人; 3.优秀研究生; 4.优质生源奖学金 |
舒辉 | 2026 | | 1.发表SCI二区论文1篇; 2.科技创新活动先进个人; 3.研究生学业一等奖学金; 4.优质生源奖学金 |
周新培 | 2026 | | 1.发表SCI二区论文1篇; 2.文体活动先进个人、科技创新活动先进个人; 3.研究生学业一等奖学金; 4.优秀研究生 |
近五年论文成果(第一/通讯作者):
1. Cui D, Zhou X, Wu S, Luk HM, Lu Q, Bai J, et al. Synergistic mechanism and radicals interaction of the Co-SCWG of cellulose and polystyrene based on ReaxFF-MD and DFT. Journal of the Energy Institute. 2026;125.
2. Cui D, Xing Y, Moslem Fattahi , Chunlei Wu, Shuang Wu, Hon Man Luk, Qiuyun Lu, Yutong Wang, Qing Wang , Xuehua Zhang. Lignin-driven hydrogen production from biomass via supercritical water gasification: Temperature-dependent efficiency and mechanistic pathways. Industrial Crops & Products. 2025;237:122317.
3. Cui D, Sui X, Wang Y, Luk HM, Wu S, Wu C, et al. Hydrogen production from supercritical water gasification of corn stalk with reactive co-solvents: Regulator roles of free radicals. Chemical Engineering Journal. 2025;523:168547.
4. Cui D, Zhang J, Wang Q, Zhang X, Fattahi M, Wu C, et al. Investigating the impact of temperature on oil shale conversion via supercritical methanolysis: Experimentation, characterization and mechanism insight. Energy. 2025;32:136803.
5. Cui D, Zhang P, Wu S, Luk HM, Wu Y, Liu B, et al. Enhanced hydrothermal liquefaction of shale oil sludge: Exploring catalyst combinations and synergistic effects ofFe, Na2CO3, and Ni/Al2O3. Energy. 2025;316:134639.
6. Cui D, Zhang M, Yin H, Wu S, Fattahi M, Luk HM, et al. Study of the Mechanism of Substituent Effects in Lignin Pyrolysis Using Density Functional Theory. Journal of the Energy Institute. 2025;119:102009.
7. Cui D, Xing Y, Wu S, Liu B, Wang W, Bai J, et al. Insights into the reaction mechanisms and pathways of shale oil sludge hydrothermal liquefaction. Journal ofthe Energy Institute. 2025;121:102178.
8. Wu S, Wang Q, Luk HM, Wu D, Lu Q, Pan S, Bai J, Cui D*, Zhang X, Recent advances on hydrothermal carbonization of biomass for carbon-negative materials: From mechanistic insights to functional applications. Industrial Crops & Products. 2025;237:122142.
9. Wang Q, Wang Y, Luk HM, Tang J, Wu S, Wu D, Hu Z, Cui D*, Zhang J. Recent advances in non-precious metal electrocatalysts for anion exchange membrane water electrolysis: Mechanistic insights, catalyst design, and structural regulation strategies. Chemical Engineering Journal. 2025;523:168587.
10. Wu S, Wang Q, Chen G, Cui D*, Wu D, Bai J, et al. Effect of CaO addition on the migration behavior of nitrogen and sulfur during Beipiao oil shale combustion. Energy. 2024;304:132270.
11. Cui D, Zhang B, Wu S, Xu X, Liu B, Wang Q, et al. From sewage sludge and lignocellulose to hydrochar by co-hydrothermal carbonization: Mechanism and combustion characteristics. Energy. 2024;305:132414.
12. Cui D, Zhang B, Liu Y, Wu S, Wang X, Wang Q, et al. Hydrochar from co- hydrothermal carbonization of sewage sludge and sunflower stover: Synergistic effects and combustion characteristics. Journal of Analytical and Applied Pyrolysis. 2024;183:106777.
13. 崔达,尹鹤霖,吴爽,刘斌,王琦,王擎. α—O—4 型木质素二聚体分子间相互作用机理研究. 太阳能学报, 2024;45(9):565-602.
14. Wu S, Wang Q, Cui D*, Wang X, Wu D, Bai J, et al. Analysis of fuel properties of hydrochar derived from food waste and biomass: Evaluating varied mixing techniques pre/post-hydrothermal carbonization. Journal of Cleaner Production. 2023;430:139660.
15. Cui D, Yin H, Pan S, Wu S, Li J, Liu Y, et al. Mechanism of generation of substituted β—O—4 lignin dimer CH4 based on bimolecular pyrolysis study. Journal of the Energy Institute. 2023;109:101262.
16. Cui D, Yin H, Liu Y, Li J, Pan S, Wang Q. Effect of final pyrolysis temperature on the composition and structure of shale oil: Synergistic use of multiple analysis and testing methods. Energy. 2022;252:124062.
17. Cui D, Li J, Zhang X, Zhang L, Chang H, Wang Q. Pyrolysis temperature effect on compositions of basic nitrogen species in Huadian shale oil using positive-ion ESI FT- ICR MS and GC-NCD. Journal of Analytical and Applied Pyrolysis. 2021;153:104980.
