朱权教授(博导)-简介
朱权,男,理学博士,四川大学天博·体育全站app官网入口教授,博士生导师。四川大学天博·体育全站app官网入口国家工科化学教学基地主任/支部书记,四川大学燃烧动力学中心副主任,教育部空天动力燃烧与冷却工程研究中心副主任,新疆大学化学化工学院副院长(2019年度中组部19博士团援疆)。中国化学会燃烧化学专委会秘书长,高校工程热物理专委会理事,教育部新世纪优秀人才,四川省学术与技术带头人后备人选。
主要研究方向:燃烧化学,航空动力,动力学模拟。近年来承担某动力基础专项、国家自然科学基金重大研究计划、四川省科技支撑计划等多个研究课题,经费1000余万元。荣获中国化学会中国青年化学家元素周期表铒元素代言人,新疆维吾尔自治区化学会杰出贡献奖,四川省金属学会冶金青年科技奖,四川省“挑战杯”大学生课外竞赛二等奖指导教师,四川大学好未来优秀学者奖,四川大学青年科技人才奖等奖项。发表高水平SCI、EI检索论文60余篇,获准多项国家发明专利。承担本科生"物理化学"、研究生"计算化学"等课程教学任务。
联系方式:
Phone: 86-28-85402951
Mobile: 15928091298
Email: qzhu@scu.edu.cn
Homepage: http://ccg.scu.edu.cn
地址:四川大学化工学院燃烧动力学中心406室邮编:610065
朱权教授(博导)--个人学历、简历
学习简历:
2001/9 - 2006/6,四川大学,物理化学,博士,导师:李象远
1997/9 - 2001/6,四川大学,应用化学,学士
工作简历:
2016/08 –今,四川大学,天博·体育全站app官网入口,教授
2019/01 –2020/01,新疆大学,化学化工学院,副院长(正处,援疆)
2015/03 –2016/08,四川大学,天博·体育全站app官网入口,副教授
2013/11 - 2015/03,四川大学,空天科学与工程学院,副教授(博导)
2011/6 - 2013/11,四川大学,天博·体育全站app官网入口,副教授
2007/11-2008/12,澳大利亚swinburne大学,访问学者
2006/7 - 2011/6,四川大学,天博·体育全站app官网入口,讲师(硕导)
朱权教授(博导)--科学研究
研究领域:
燃烧化学;航空动力;动力学模拟;燃料应用技术;材料表面处理及应用。
科研基金:
1.JG2020145,2020-05至2022-11,231万元,在研,主持。
2.JG2019017,2018-01至2019-12,25万元,已结题,主持。
3.JG2017154,2017-12至2019-10,58万元,已结题,主持。
4.JG2018012,2017-01至2019-07,280万元,已结题,主持。
5.国家自然科学基金委员会,重大研究计划培育项目,91641121,国产航油RP-3结焦积碳机理构建和实验验证,2017-01至2019-12,72万元,已结题,主持。
6.JG2017005,**涂层**,2016-01至2017-06,20万元,已结题,主持。
7.JG2016032,2016-11至2017-06,20.7万元,已结题,主持。
8.JG2015081,**结焦**,2015-01至2015-12,90万元,已结题,主持。
9.中华人民共和国教育部,新世纪优秀人才支持计划,NCET-13-0398,2014-01至2016-12,50万元,已结题,主持。
10.四川大学,优秀青年学者科研基金,2013SCU04A05,2013-03至2015-12,20万元,已结题,主持。
11.JG2014024,**裂解析碳**,2013-01至2013-12,60万元,已结题,主持。
12.JG2012071,**裂解增压**,2012-04至2012-12,90万元,已结题,主持。
13.四川省科技厅,科技支撑计划,2012GZ0006,功能化学品头孢地尼绿色合成工艺的实验和理论研究,2012-01至2014-12,20万元,已结题,主持。
14.JG2011029,燃料**,2011-04至2013-12,30万元,已结题,主持。
15.中华人民共和国教育部,出国留学人员回国基金,20111139,介质中核酸基分子离子化光谱研究,2011-01至2013-12,3万元,已结题,主持。
16.国家自然科学基金委员会,青年项目,20903067,非平衡溶剂化的量子力学/分子动力学方法研究,2010-01至2012-12,20万元,已结题,主持。
代表性论文:
1.Wang Bo, Gong Xianlong, Zhang Ziduan,Zhu Quan*,Li Xiangyuan, Investigation on Carburization during the Repeated Coking and Decoking Process, Industrial & Engineering Chemistry Research, 2020, 59(29): 13051-13059
2.Zhang Tianhao, Chen Yu, Liu Penghao, Zhou Lingxiao,Zhu Quan*, Wang Jianli, Li Xiangyuan, Investigation on the Thermal Cracking of n-Decane under Supercritical Pressure by a Developed Online-Sampling Experimental Method, PETROLEUM CHEMISTRY, 2020, 60(1): 39-44.
3. Yang Chengang, Quan Zongjie, Chen Yu,Zhu Quan*, Wang Jianli, Li Xiangyuan, A Comprehensive Investigation of the Pyrolysis Effect on Heat Transfer Characteristics for n-Decane in the Horizon Mini-Channel, ENERGY & FUELS, 2020, 34(1): 199-210.
4. Gong Xianlong, Wang Bo, Han Huaizhi , Kang Tao,Zhu Quan∗, Wang Jianli, Li Xiangyuan, Preparation of Al2O3 coating on TiN coating by polymer-assisted deposition to improve oxidation resistance in coking inhibition applications, Ceramics International, 2020, 46: 7774-7782.
5. Gong Xianlong, Zou Tengxiu, Deng Songhui,Zhu Quan*, Anti-coking application of TiO2 -Al2O3 composite coating prepared by MOCVD, TRANSACTIONS OF THE IMF, 2019, 98(1): 37-41.
6.Liu Penghao, Gao Xinke, Zhang Tianhao,Zhu Quan*, Wang Jianli, Li Xiangyuan*, Experimental and numerical investigation on the isobaric heat capacity for methylcyclohexane at high temperature and high pressure, Applied Thermal Engineering, 2019, 146: 613-621.
7. Liu Penghao, Zhang Tianhao, Zhou Lingxiao, Chen Zhicong,Zhu Quan*, Wang Jianli, Li Xiangyuan, Experimental and numerical analysis on flow characteristics and pyrolysis mechanism of hydrocarbon fuel with a novel online hybrid method, Energy Conversion and Management, 2019, 198: 111817.
8. Xu Huajie, Peng Lijuan, Wang Jingbo, Ren Haisheng*,Zhu Quan*, Li Xiangyuan, Relationship between Energetic Performance and Clustering Effects on Incremental Nitramine Groups: A Theoretical Perspective, Journal of Physical Chemistry A, 2019, 123(4): 742-749.
9. Wang Bo, Wang Sanxing, Liu Bin,Zhu Quan*, Li Xiangyuan, Oxide film prepared by selective oxidation of stainless steel and anti-coking behavior during n-hexane thermal cracking, Surface & Coatings Technology, 2019, 378: 124952.
10. Chen Yu, Lei Zhiliang, Zhang Tianhao,Zhu Quan*,Bao Zewei, Zhang Qiyi, and Li Xiangyuan, Flow Distribution of Hydrocarbon Fuel in Parallel Minichannels Heat Exchanger, AIChE Journal, 2018, 64: 2781-2791.
11. Chen Yu, Liu Bin, Lei Zhiliang, Zhang Qiyi,Zhu Quan*, Bao Zewei, Zhang Qiyi, and Li Xiangyuan*, A control method for flow distribution in fuel-cooled plate based on choked flow effect, Applied Thermal Engineering, 2018, 142: 122-137.
12. Zhou Hao; Gao Xinke; Liu Penghao;Zhu Quan*, Wang Jianli, Li Xiangyuan*, Energy absorption and reaction mechanism for thermal pyrolysis of n-decane under supercritical pressure, Applied Thermal Engineering, 2017, 112 : 403–412.
13. Liu, Bin; Wang, Zhongzheng;Zhu, Quan*;Li Xiangyuan; Wang, Jianli, Performance of Pt/ZrO2-TiO2-Al2O3 and coke deposition during methylcyclohexane catalytic cracking, Fuel, 2017, 200: 387-394.
14. Wang Zhongzheng; Zhang Hua; Li Shanshan; Wang Jianli;Zhu Quan*; Li Xiangyuan, The performance of Rh/SiO2-Al2O3 catalysts in methycyclohexane cracking reaction, JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS, 2017, 124: 475-485.
15. Peng Li-Juan; Yao Qian; Wang Jing-Bo; Li Ze-Rong;Zhu Quan*; Li XiangYuan, Pyrolysis of RDX and Its Derivatives via Reactive Molecular Dynamics Simulations, ACTA PHYSICO-CHIMICA SINICA, 2017, 33: 745-754.
16. Li XiongJian, Zhang Hua, Liu Bin,Zhu Quan*, Wang Jianli, Li Xiangyuan, Mo-promoted catalysts for supercritical n-decane cracking, Applied Thermal Engineering, 2016, 102: 1238-1240.
17. Zhang Yong, Zhang Shanghong, Zhang Tianhao, Zou Tengxiu,Zhu Quan*, Wang Jianli, Li Xiangyuan, Characterization of MOCVD TiO2 coating and its anti-coking application in cyclohexane pyrolysis, Surface Coating Technology, 2016, 296: 108-116.
18. Liu Bin,Zhu Quan*,Li Xiangyuan, Wang Jianli, Heat Sink Enhancement of Supercritical Methylcyclohexane Cracking over La Modified Beta Zeolite. Journal of Propulsion Power, 2016, 32(4): 801-809.
19. Gao Xinke, Wen Xu, Zhou Hao,Zhu Quan*,Wang Jianli, Li Xiangyuan*, Novel Measurement of Isobaric Specific Heat Capacity for Kerosene RP-3 at High Temperature and High Pressure,Thermochimica Acta, 2016, 638: 113-119.
20.文旭,周灏,高新科,朱权*,王健礼,李象远,苯高温高压下流体密度的在线测量,推进技术,2015, 36(9): 1403-1409.