- 工学院
陈泽洲
一、个人简介
陈泽洲,博士,工学院副教授、硕士生导师,浙江省高校领军人才(青年优秀人才)。本科、硕士及博士毕业于北京化工大学。近年来主要从事有机固废的催化转化及热解过程的人工智能预测研究,主持国家自然科学基金项目1项,湖州市公益性技术应用研究(重点)项目1项,参与国家重点研发计划2项,浙江省重点研发计划1项。在Chem. Eng. J.,J. Clean. Prod.,Fuel,Appl. Catal. A: Gen.,Fuel Process. Technol.等能源、化工和环境领域SCI期刊发表论文20多篇;获美国专利1项,授权中国发明专利9项,实用新型专利10余项。担任ACSSustain.Chem.Eng.,Energy Fuels,J.Anal.Appl.Pyrol.等期刊审稿人。
二、研究方向
1.废塑料的催化转化;
2.有机固废热解过程的人工智能预测
三、科研项目
(1)2022年,国家自然科学基金青年项目,“高活性Fe基USY分子筛的构建及其协同催化聚乙烯裂解制油机理研究”,主持。
(2)2022年,湖州市公益性技术应用研究(重点)项目,“微波催化联合净化有机固废热解气的技术研究及装备开发”,主持。
(3)2025年,企业横向,“工业铝灰协同再生耐火材料的研发”,主持。
(4)2024年,企业横向,“电子废弃物的资源化技术研究与开发”,主持。
(5)2023年,企业横向,“发泡炉收卷装置的研究与开发”,主持。
(6)2019年,企业横向,“老化油资源化回收油技术开发”,主持。
四、代表性论文
1. |
Chen Z*, Erwin B J, Che L. Recycling waste polyethylene into fuels over Fe/USY catalyst: Evaluation on the catalytic activities of varied iron states.Fuel,2024, 363, 131007. |
2. |
Chen Z*, Erwin B J, Che L. Recycling the polyethylene into fuels via an olefin-intermediate tandem catalysis over Fe2O3/USY catalysts.J. Energ. Inst.,2024, 116: 101748. |
3. |
Wang Y, Yan N,Chen Z*. Identification of coke species on Fe/USY catalysts used for recycling polyethylene into fuels.RSC Adv.,2024, 14, 22056. |
4. |
Chen Y, Yang C, Ying K, Yang F, Che L,Chen Z*. Prediction on microwave‑assisted elimination of biomass tar using back propagation neural network.Biomass Convers. Bior.,2024, 14: 7927-7937. |
5. |
Chen Z*, Erwin B J, Che L. Hydrocracking of polyethylene to hydrocarbon fuels over Pt/USY catalysts: Assessment of the hydrogen donors.J. Clean. Prod.,2023, 424, 138861. |
6. |
Chen Z, Xu L, Zhang X*. Upgrading of polyethylene to hydrocarbon fuels over the Fe-modified Pt/Al2O3catalysts at a mild condition without external H2.Chem. Eng. J.,2022, 446, 136213. |
7. |
Zhang X,Chen Z, Cheng L, Xu L, Bi X*, Liu Q*. Valorization of fluid petroleum coke for efficient catalytic destruction of biomass gasification tar.J. Hazard. Mater.,2022, 424: 127297. |
8. |
Yang C, Ying K, Yang F, Peng H,Chen Z*. Simulation on the electric and thermal fields of a microwave reactor for ex situ biomass tar elimination.Energies,2022, 15: 4143. |
9. |
Chen Z, Zhang X*, Yang F, Peng H, Zhang X, Zhu S, Che L. Deactivation of a Y-zeolite based catalyst with coke evolution during the catalytic pyrolysis of polyethylene for fuel oil.Appl. Catal. A: Gen.,2021, 609: 117873. |
10. |
Zhang X,Chen Z, Liu Z, Liu Q*. Radical induced cracking of naphtha model compound: Using bibenzyl as a novel radical initiator.J. Anal. Appl. Pyrolysis.,2021, 156: 105101. |
11. |
Yang W, Yang F, Zhang X, Zhu P, Peng H,Chen Z, Che L, Zhu S, Wu S*. Investigation of holocellulose-lignin interactions during pyrolysis of wood meal by TGA-FTIR.Biomass Convers. Bior.,2021: 1-10. |
12. |
Yang W, Yang F, Zhang X, Zhu P, Peng H,Chen Z, Che L, Zhu S, Wu S*. Preparation of Biochar via Dry Torrefaction of Wood Meal in a Batch Reactor under Pressure and its Co-Combustion Behavior with Anthracite Coal.BioResources,2021, 16: 997-1008. |
13. |
Chen Z, Zhang X*, Che L*, Peng H, Zhu S, Yang F, Zhang X. Effect of volatile reactions on oil production and composition in thermal and catalytic pyrolysis of polyethylene.Fuel,2020, 271: 117308. |
14. |
Zhang X, Yang F, Qin J, Peng H,Chen Z, Che L, Zhu S, Yang W*. Hydrolysis of Congo red in subcritical water in the presence of CeO2/ZSM5 catalyst.Desalin. Water Treat.2020, 205: 400-406. |
15. |
Chen Z, Xie J, Liu Q, Wang H, Gao S, Shi L, Liu Z*. Characterization of direct coal liquefaction catalysts by their sulfidation behavior and tetralin dehydrogenation activity.J. Energ. Inst.,2019, 92: 1213-1222. |
16. |
Chen Z, Zhang X, Liu Z*, Liu Q*, Xu T. Quantification of reactive intermediate radicals and their induction effect during pyrolysis of two n-alkylbenzenes.Fuel Process. Technol.,2018, 178: 126-132. |
17. |
Zhang X, Liu Z,Chen Z, Xu T, Liu Q*. Bond cleavage and reactive radical intermediates in heavy tar thermal cracking.Fuel,2018, 233, 420-426. |
18. |
葛奔,吴炜强,周李倩,吴圣姬,陈泽洲*.原位/异位催化聚乙烯热解制油行为对比研究山东化工.2025, 54 (03): 19-22. |
19. |
彭黄湖,姜勇,杨帆*,陈泽洲,吴圣姬,车磊.基于机器学习的含油污泥热解残渣含油率预测.能源环境保护,2025, 1-10. |
20. |
程勇,陈泽洲*.高速惰性射流对火焰传播抑制的研究.武警学院学报,2020, 36(8): 11-14. |
五、专利
(1)发明专利
1. |
陈泽洲;杨帆;彭黄湖;祝守新;一种聚乙烯废塑料原位低温无氢液化制油的方法, 2023-10-31,中国, CN202210298335.0 (专利) |
2. |
陈泽洲;麻亚伦;彭黄湖;杨帆;祝鹏飞;杨圩;张旭;祝守新;吴圣姬;车磊;一种铝箔压延冷轧输送线及打包码垛加工线, 2023-04-07,中国, CN202210043510.1 |
3. |
Zezhou Chen; Zhenyu Liu; Qingya Liu; Lei Shi; Teng Xu ; PYROLYSIS TAR CONVERSION, 2018-9-11,美国, US 10 , 072 , 218 B2 |
4. |
杨帆;张旭;陈泽洲;彭黄湖;杨圩;吴圣姬;祝守新;车磊;吉川邦夫;李森;一种稻壳与污泥协同发酵罐, 2020-08-11,中国, CN201911102341.9同发酵罐, 2020-08-11,中国, CN201911102341.9 |
5. |
杨圩;杨帆;张旭;陈泽洲;彭黄湖;吴圣姬;祝守新;车磊;吉川邦夫;田汪洋;一种小型农业废弃物与污泥高温厌氧消化方法, 2019-11-12, ZL 201911102298.6 |
6. |
吴圣姬;杨帆;张旭;陈泽洲;彭黄湖;杨圩;祝守新;车磊;吉川邦夫;吴玉祥;一种小型农业废弃物与污泥高温厌氧消化装置, 2019-11-12, ZL 201911102316.0 |
7. |
张旭;杨帆;彭黄湖;陈泽洲;祝守新;车磊;吉川邦夫;吴圣姬;杨圩;用于农业废弃物处理的热解炭化炉, 2021-04-20,中国, CN201911028725.0 |
8. |
刘振宇;石磊;刘清雅;师新阁;宫美娟;闫玉新;陈泽洲;一种评价积炭催化剂活性的方法,2021-10-15,中国, CN201810308831.3 |
(2)实用新型专利
1. |
陈泽洲;吉川邦夫;车磊;祝守新;张旭;杨帆;彭黄湖;徐浩;黄显泽;谢晓露;连续式催化热解制油机, 2019-11-19,中国, ZL 201920430263.4 (专利) |
2. |
章罡渔;陈泽洲;张旭;杨帆;彭黄湖;车磊;祝守新;含油铜丝表面切削油热解脱附的装置, 2019-11-27, ZL 201922083105.9 |
3. |
陈字;杨帆;张旭;陈泽洲;彭黄湖;吴圣姬;祝守新;车磊;吉川邦夫;一种小型生物质厌氧发酵装置, 2019-11-12, ZL 201921946129.6 |
4. |
高飞;杨帆;张旭;陈泽洲;彭黄湖;吴圣姬;祝守新;车磊;吉川邦夫;一种植物秸秆膨胀软化前处理设备, 2019-11-12, ZL 201921947010.0 |
5. |
张旭;杨帆;彭黄湖;陈泽洲;祝守新;车磊;吉川邦夫;用于农业废弃物处理的干式厌氧消化槽, 2019-10-28, ZL 201921817426.0 |
6. |
杨帆;张旭;彭黄湖;陈泽洲;祝守新;车磊;吉川邦夫;吴圣姬;杨圩;用于农作物废料热解炭化设备的膨化机, 2019-10-28, ZL 201921817464.6 |
7. |
何永杰;杨帆;祝守新;张旭;彭黄湖;陈泽洲;车磊;杨圩;吴圣姬;叶华健;一种多筒式垃圾焚烧炉, 2020-11-30, ZL 202022818386.0 |
8. |
杨帆;叶玉芳;祝守新;叶华健;张旭;彭黄湖;陈泽洲;车磊;一种螺旋进料式垃圾焚化设备, 2019-07-09, ZL 201921063010.4 |
9. |
杨帆;叶玉芳;祝守新;叶华健;张旭;彭黄湖;陈泽洲;车磊;一种进料可控的焚化炉, 2019-07-09, ZL 201921063374.2 |
10. |
彭黄湖;黄显泽;祝守新;杨帆;车磊;张旭;陈泽洲;一种高粘度液体有机废弃物连续热解炭化系统, 2018-12-25, ZL 201822186260.9 |
11. |
彭黄湖;黄显泽;祝守新;杨帆;车磊;张旭;陈泽洲;一种高粘度液体有机废弃物内外协同加热热解炭化装置, 2018-12-25, ZL 201822186323.0 |
六、联系方式