旧版栏目

应用化学系

陈坤(讲师)

时间:2017-03-02浏览:6809

»姓名: 陈坤

»职称:讲师/硕导


系属: 化学工程学院应用化学系

»最高学位: 博士

»学科: 化学工程与技术

»所学专业:化学工程与技术

»电子邮箱:chenkun@upc.edu.cn

»联系电话:13165159881/0532-86983050

»地址邮编:山东省青岛市黄岛区长江西路66号中国石油大学(华东)化学工程学院,266580

»个人主页:

 ◎学习与工作经历

2009/09 - 2013/06,中国石油大学(华东),化学工程与技术,博士,导师:王宗贤

2007/09 - 2009/09,中国石油大学(华东),化学工程与技术,硕士,导师:王宗贤

2001/09 - 2005/07,中国科学技术大学,化学物理系,学士,导师:黄伟新

 ◎研究方向

重质油化学与高附加值转化利用、先进炭材料应用基础研究、液体/固体废弃物减量无害与资源化新技术研发、绿色高效低成本分离新技术开发

承担科研课题

  1. 超临界CO介入下生物质高效催化脱氧定向制备低碳化学品技术,中石油科技创新基金,2017.9-2019.9,项目经费16万元,主 持;

  2. 超临界CO介入下生物质高效催化脱氧两步法定向制备低碳化学品应用基础研究,中央高校基本科研经费(科技专项)2017.1-2019.12,项目经费29万元,主持;

  3. 稠油水热裂解生成硫化氢反应机制要求,国家自然基金面上项目,2019.1-2022.12,项目经费60万元,参与;

  4. 稠环芳烃对CO水热变换新生氢的富存作用机制及协同调控稠油改质究,山东省自然科学基金(博士基金)2017.8-2019.12,项目经费8万元,参与;

  5. 沥青质超分子结构对氢气在稠油中传质行为的调控机制研究,重质油国家重点实验室自主研发课题,2017.1-2018.12,项目经费                     10万元,参与;

6)延迟焦化过程中弹丸焦生成机理及成焦形貌调控机制的探究,山东省自然科学基金委,2014 -2017年,总经费11万,主持;

7)镍钒重金属诱导炭质中间相焦化在成焦形貌调控中应用研究,青岛市科学技术局,2015 -2017年,总经费5万,主持;

8)延迟焦化过程中弹丸焦生成机理探究,中央高校基本科研,2014-2015年,总经费5万,主持;

9)延迟焦化装置操作状况调研与分析,中国石油科技管理部,2015 -2017年,总经费25万,主持;

10)生焦趋势测定技术服务,肇庆市顺鑫煤化工科技有限公司,2014-2015年,总经费12万,主持;

11)劣质重油深度切割提高延迟焦化液体产品收率技术研究,中国石油重大科技攻关专项,2015-2017年,总经费160万,参与;

12)加拿大油砂沥青供氢热裂化改质技术研究,中国石油天然气股份有限公司石油化工研究院,2015.3-2017.9,项目经费300万元,参与;

13)油砂沥青延迟焦化实验室小试及中试研究,中国石油重大科技攻关专项,2015-2017年,总经费242万,参与;

14)协同胶质的溶剂化和氢梭特性研究受热劣质重油的胶体稳定性,国家自然基金面上项目,2014-2016年,总经费56万,参与;

15) 煤焦油净化处理新工艺及其应用性能研究,山东济矿民生热能有限公司,2012.4-2013.8,项目经费45万元,参与;

16降低吉林石化公司延迟焦化装置石油焦收率技术研究,中国石油吉林石化技术开发项目,2014.05—2014.12,项目经费150万元,参与;

17)催化油浆在自分散型纳米团簇量子点催化剂存在下缓和加氢稳定化反应耦合蒸馏脱固研究,国家自然科学基金面上项目,2018.1-2021.12,项目经费64万元,参与;

18) 基于命题讨论亚案例教学法的绿色化学与化工导论双语教学改革与实践,2018年立项,项目经费0.5万元,主持

 ◎获奖情况

(1)陈坤(1/1木质生物质-重油共加工技术研究开发与应用,中国石油和化学工业联合会,二等奖,2019

(2)陈坤 1/1) , 劣质重油改质、加工成套技术研究开发及工业应用,中国石油天然气集团公司科学技术进步奖,特等奖,2017

(3)陈坤(5/12)劣质重油供氢减粘-深度热解组合工艺,2016年山东省自然科学奖贰等奖,2016

(4)陈坤(5/15,劣质重油供氢减粘-深度热裂解组合工艺,青岛市科技局,青岛市科技进步奖,壹等奖,2015

(5)陈坤(1/5,重质油热转化过程热效应研究,山东省教育厅,山东省高等教育学校优秀科研成果奖,叁等奖,2014

(6)陈坤(1/1,重油热转化过程中吸放热效应研究,中国石油大学(华东),优秀博士论文,校优秀博士论文,2013

 ◎代表性论文和专利

1Kun Chen*, Di Zhang, Yang Dai, He Liu, Zongxian Wang, Ummul-Khairi Ibrahim, Aijun Guo*Chemical and structural characterization of problematic suspended particles enriched from fluidized catalytic cracking slurry oilChemical Engineering Research and Design,2019,2019.01.007

2Kun Chen*, Haoran Zhang, Ummul-Khairi Ibrahim, WangYang Xue, He Liu, Aijun Guo, The quantitative assessment of coke morphology based on the Raman spectroscopic characterization of serial petroleum cokes,Fuel,2019,246:60-68

3Kun Chen, Zhenxi Xue, He Liu, Aijun Guo, Zongxian Wang*, A temperature-programmed oxidation method for quantitative characterization of the thermal cokes morphology, Fuel, 2013, 113: 274-279

4Kun Chen, He Liu, Zhenxi Xue, Hongyan Li, Aijun Guo, Zongxian Wang*, Co-carbonization of petroleum residue asphaltenes with maltene fractions: influence on the structure and reactivity of resultant cokes, Journal of Analytical and Applied Pyrolysis, 2013, 102: 131-136

5Kun Chen, Zongxian Wang*, He Liu, Yujiao Ruan, Aijun Guo, Thermodynamic and thermokinetic study on pyrolysis process of heavy oils, Journal of Thermal Analysis and Calorimetry, 2013, 112(3): 1423-1431

6Kun Chen, Zongxian Wang*, He Liu, Aijun Guo, Study on thermal performance of heavy oils by using differential scanning calorimetry, Fuel Processing Technology, 2012, 99: 82-89

7Kun Chen, He Liu, Aijun Guo, Danni Ge, Zongxian Wang*, Study of the thermal performance and interaction of petroleum residue fractions during the coking process. Energy and Fuels, 2012, 26(10): 6343-6351

8)陈坤,薛珍喜,刘贺,王宗贤*,掺炼劣质渣油对热转化过程的影响,化学工程,201240(10)70~74

9)林存辉,陈坤*,郭爱军,王宗贤*,催化裂化油浆固含量测定方法的研究,化工进展,201692699~2706

10Peng Xue, Shi-guang Fan, Xuebing Wang,Kun Chen*, He Liu, Wei Xia, Aijun Guo, and Zongxian WangCharacterization of Petroleum Residues with Varying Cutting Depth and Corresponding Vacuum Distillates derived from Laboratory Deep-Vacuum Fractionation of Unconventional Heavy Oil for an Instructive Utilization GuidelineEnergy and Fuels, 2017DOI: 10.1021/acs.energyfuels.6b02504

11Cunhui Lin, Juncai Sang, Shuoyi Chen, Jingqi Wang, Zongxian Wang, He Liu, Kun Chen, Aijun Guo. Thermal treatment of FCC slurry oil under hydrogen: Correlation of hydrogen transfer ability with carbonization performance of the fractions. Fuel, 2018, 233: 805-815.

12郭爱军, 郑文林, 焦守辉, 陈坤, 刘贺, 王宗贤, 王子豪. 催化裂化油浆中烯烃分布研究. 燃料化学学报, 2018, 46(4): 413-418.

13He Liu,Zhaoxian Liu,Aijun Guo,Kun Chen, Shengnan Sun, Zongxian Wang. Peptizing effect of the native heavy resin fraction on asphaltenes. Energy Fuels, 2018, 32(3): 3380–3390.

14Fangfang Wang, Wei Xia*, Xichuan Mu, Kun Chen, Huimin Si, Zhihao Li,  A combined experimental and theoretical study on ethanol conversion to propylene over Y/ZrO2 catalyst, Applied Surface Science, 2018, 439, 405-412.

15Fangfang Wang, Wei Xia*, Xichuan Mu, Kun Chen, Longxiang Wang, Experimental and Molecular Simulation Studies on Ethanol Conversion to Propylene over Different Zeolite Catalyst, Catalysis Letters, 2018, 148, 1768–1774.

16Wei Xia*, Fangfang Wang, Longxiang Wang, Junguo Wang, Xichuan Mu, Kun Chen, High Performance SiO2- ZrO2 Binary Oxide for Ethanol Conversion to Ethylene, Catalysis Letters, 2018, 1483024–3034 .

17Wei Xia*, Fangfang Wang, Xichuan Mu, Kun Chen, Longxiang Wang, Ethanol conversion reaction over M/ZrO2 (M= Mg, Ca, Sr, and Ba) catalysts: Effect of alkaline earth metal introduction, Reaction Kinetics, Mechanisms and Catalysis, 2018, 124:363-374.

18Cunhui Lin,Jingqi Wang,Zongxian Wang,He Liu,Kun Chen,Aijun Guo, Tianping Xia. Flocculation of particulates in fluid catalytic cracking slurry oil: Characterization of the particulates and the effect of thermal treatment on their flocculation. Energy Fuels, 2017, 31 (12): 13282–13290.

19赵欣, 王宗贤, 柳文, 陈坤, 郭爱军. HRDC烃循环技术在延迟焦化装置的工业应用. 炼油技术与工程, 2017, 47(4): 19-23.

20焦守辉, 林祥钦, 郭爱军, 陈坤, 王宗贤, 佟佳俊, 耿羽轩, 李若萌, 刘晴昊. 劣质渣油性质对受热生焦趋势影响的研究. 燃料化学学报, 2017, 45(2): 165-171

21Wei Xia*, Fangfang Wang, Xichuan Mu, Kun Chen, Remarkably enhanced selectivity for conversion of ethanol to propylene over ZrO2 catalystsFuel Processing Technology, 2017, 166, 140-145.

22Wei Xia*, FangfangWang, Xichuan Mu, Kun Chen, Atsushi Takahashi, Isao Nakamura, Tadahiro Fujitani, Catalytic performance of H-ZSM-5 zeolites for conversion of ethanol or ethylene to propylene: Effect of reaction pressure and SiO2/Al2O3 ratioCatalysis Communications, 2017, 91, 62-66

23Wei Xia*, FangfangWang, Xichuan Mu, Kun Chen, Atsushi Takahashi, Isao Nakamura, Tadahiro Fujitani, Highly selective catalytic conversion of ethanol to propylene over yttrium-modified zirconia catalyst, Catalysis Communications, 2017, 90, 10-13.

24Wei Xia*, Fangfang Wang, Xichuan Mu, Kun Chen, Transformation of ethanol to propylene on ZrO2 catalysts: Effect of reaction condition on catalytic performance, Reaction Kinetics, Mechanisms and Catalysis, 2017, 122,463-472.

25Wei Xia*, Fangfang Wang, Xichuan Mu, Kun ChenHuimin Si, Zhihao Li, Ethylene and propylene production from ethanol over Sr or Bi modified ZrO2 catalysts, Reaction Kinetics, Mechanisms and Catalysis, 2017, 122473-484.

26He Liu, Jun Mu, Zongxian Wang, Aijun Guo,Kun Chen, Transformation of petroporphyrins-enriched subfractions from atmospheric residue during noncatalytic thermal process under hydrogen by positive-ion electrospray ionization FT-ICR mass spectrometry,Energy and Fuels, 2016, 30(3): 1997~2004

27)刘朝仙,郭爱军,陈坤,王宗贤,储浚,陈建涛,热改质过程中渣油结构及其重组分溶剂化变化规律研究,燃料化学学报,2016, 44(3)366-374

28Wei. Xia*, Kun Chen, Atsushi Takahashi, Xiuyi Li, Xichuan Mu, Chen Han, Li Liu, Isao Nakamura, Tadahiro Fujitani, Effects of particle size on catalytic conversion of ethanol to propylene over H-ZSM-5 catalysts-Smaller is better, Catalysis Communications, 2016, 73, 27-33.

29Zongxian Wang*, Peng Xue,Kun Chen, Aijun Guo*, Cunhui Lin, Dehui Kong, Zhengda Song, and Yawen Bo, Correlation of Temperature-Programmed Oxidation with Microscopy for Quantitative Morphological Characterization of Thermal Cokes Produced from Pilot and Commercial Delayed Cokers, Energy and Fuels, 2015, 29(2): 659-665

30Wei Xia*,Kun Chen, Atsushi Takahashi, Xiuyi Li, Xichuan Mu, Chen Han, Li Liu, Isao Nakamura, Tadahiro Fujitani, Effects of particle size on catalytic conversion of ethanol to propylene over H-ZSM-5 catalysts-Smaller is better, Catalysis Communications, 2015, 73: 27-33

31He Liu, Jun Mu, Zongxian Wang, Shunfeng Ji, Quan Shi, Aijun Guo, Kun Chen, Jincheng Lu. Characterization of vanadyl and nickel porphyrins enriched from heavy residues by positive-ion electrospray ionization FT-ICR mass spectrometry. Energy & Fuels, 2015, 29(8): 403-4813.

32He Liu, Shunfeng Ji, Zongxian Wang, Aijun Guo, Kun Chen. The catalytic performance of metalloporphyrins during hydrogenation of anthracene. Energy Technology, 2015, 3(2): 145-154.  

33Zongxian Wang*, Shunfeng Ji, He Liu, Kun Chen, Aijun Guo, Hydrogen transfer of petroleum residue subfractions during thermal processing under hydrogen. Energy Technology, 2015, 3(3): 259-264

34)赵娜,于传瑞,赵波,陈坤,郭爱军,王宗贤,静电分离催化裂化油浆中固体颗粒及其组成的研究,石油化工,2015,44(10)1218~1223

35He Liu, Shenfeng Ji, Zongxian Wang*, Aijun Guo, Kun Chen. The catalytic performance of metalloporphyrins during hydrogenation of anthracene, Energy Technology, 2014, 3(2): 145-154

36Aijun Guo, Zhongxun Wei, Bo Zhao, Kun Chen, Dong Liu, Zongxian Wang, Hua Song. Separation of toluene-insoluble solids in the slurry oil from a residual fluidized catalytic cracking unit: Determination of the solid content and sequential selective separation of solid components. Energy & Fuels, 2014, 28 (5), 3053–3065.

37Aijun Guo, Ying Zhou, Kun Chen, Zhenxi Xue, Zongxian Wang, Hua Song. Co-processing of vacuum residue/fraction oil blends: Effect of fraction oils recycle on the stability of coking feedstock. Journal of Analytical and Applied Pyrolysis, 2014, 109 (1), 109-115.

38Shunfeng Ji, Zongxian Wang, Aijun Guo, Ying Zhou, and Kun Chen. Determination of Hydrogen Solubility in Heavy Fractions of Crude Oils by a Modified Direct Method. J. Chem. Eng. Data, 2013, 58 (12): 3453–3457.

1)一种测定含固重质原料受热生焦趋势的装置及方法,2019,发明专利;

2)一种重质油在在加热炉出口温度下气化率的测定方法,2018,发明专利;

3)一种测量炭质大分子等温热反应过程中热效应的装置及方法,2018,发明专利;

4)一种用于重质油热反应过程中粘度的测定装置及其方法,2018,发明专利;

5)一种模拟炭质大分子延迟焦化过程快速焦化制备成焦的方法,2017,发明专利;

6)模拟炭质大分子延迟焦化过程快速焦化制备成焦的装置,2017,实用新型;

7)一种催化乙醇制备低碳烯烃的催化剂及其制备工艺与应用方法,2017,实用新型

8)一种加热炉炉管中重质油临界热裂解温度的测定方法,2016,发明专利;

9)一种油品储罐的模拟方法和系统,2016,发明专利;

10)一种测定含固重质原料受热生焦趋势的装置,2016,实用新型;

11)一种测量炭质大分子等温热反应过程中热效应的装置,2016,实用新型;

12)一种用于重质油热反应过程中黏度的测定装置,2016,实用新型;

13)一种催化生物乙醇制备烯烃的催化剂及其制备方法,2015,发明专利

14)一种催化生物乙醇制备低碳烯烃的催化剂及其制备方法与应用,2015,发明专利

15)一种热分析试验过程中样品消泡的方法,2014,发明专利;

16)一种用于焦化反应腔室的内衬管件,2014,实用新型。

17)一种评价重质油混合稳定性及相关助剂效能的装置,2013,实用新型

18)一种油品储罐的模拟系统,2012,发明专利

19)一种渣油中添加焦化馏分油供氢焦化的方法,2012,发明专利

20)一种渣油中添加焦化馏分油供氢焦化的方法,2012,发明专利

21)一种重油供氢减粘-焦化组合工艺方法,2011,发明专利

22)一种优选延迟焦化加热炉出口温度的方法,2011,发明专利



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