关珺 - 大连理工大学

个人简介

教育经历 2004.92014.1 大连理工大学化学工艺博士 1993.91997.7 大连理工大学高分子化工学士 1999.92002.6 大连理工大学化学工艺硕士 1990.91993.7 兰州市兰化一中无工作经历 2015.12至今大连理工大学副教授 2003.122015.12 大连理工大学讲师 2002.72003.12 大连理工大学助教 1997.71998.9 中石化兰州设计院助工 1998.91999.8 大连化工耐腐蚀泵厂助工

研究领域

1. 煤和油页岩热解转化 2. 煤焦油深加工

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1]何德民.Pyrolysis and Co-pyrolysis of Chinese Longkou Oil Shale and Mongolian Huolinhe Linite[J],OIL SHALE,2022,32:151-159 [2]何德民.Pyrolysis of Hesigewula Lignite and Identification of Aromatics in the Pyrolysis Tar by Gas Chrom...[J],Advanced materials research,2022,1094:151-154 [3]张秋民.Reduction benzo[a]pyrene in coal tar pitch by modifying with cross linking monomers[A],The Fifth Joint China/Japan Chemical Engineering Symposium,2022 [4]Yuan, H..Simulation and study on Texaco gasification of semi-cokes prepared by DG coal pyrolysis process[J],Advanced materials research,2022,557-559:2189-2196 [5]何德民.Study on the volatile release during coal drying process[A],2017 International Conference on Coal Science Technology,2022 [6]王庆宇.Study on Water Reduction of Coal Pyrolysis Product over Perovskite Catalysts[A],2018 International Pittsburgh Coal Conference,2022 [7]张坤.煤热解-化学链气化耦合工艺流程模拟[J],化学工程,2019,47(6):74-78 [8]张秋民.几种典型的油页岩干馏技术[J],吉林大学学报地球科学版,2006,6:1019-1026 [9]张琦.H2S和喹啉对NiWS/γ-Al2O3催化剂上吲哚加氢脱氮反应的影响[J],燃料化学学报,2011,39(5):361-366 [10]关珺.Electrochemical Oxidation of Coal Slurries in Alkaline Medium[A],2015 International Conference on Coal Science Technology,2015 [11]何德民.Effect of minerals in coal on the product yield of coal pyrolysis and phenols in the low-temperat...[J],Advanced materials research,2012,512(5):1129-1136 [12]Zeng, Fanhu.Effect of minerals in coal on the product yield of coal pyrolysis and phenols in the low-temper...[A],1st International Conference on Energy and Environmental Protection (ICEEP 2012),2012,512-515:1129-1136 [13]关珺.Effect of acid-washing on the distribution of phenols from Wulagai lignite pyrolysis[A],International Conference on Sustainable Energy and Environmental Engineering (ICSEEE 2012),2013,291-294:827-+ [14]Nie, Fan.Oil sand pyrolysis: Evolution of volatiles and contributions from mineral, bitumen, maltene, an...[J],FUEL,2021,224:726-739 [15]Nie, Fan.Influence of Temperature on the Product Distribution during the Fast Pyrolysis of Indonesian Oi...[J],ENERGY FUELS,2021,31(2):1318-1328 [16]张坤,王庆宇,何德民,关珺,李学强,尚建选,张秋民.煤热解-化学链气化耦合工艺流程模拟[J],化学工程,2019,47(6):74-78 [17]Kun, Zhang,He, Demin,Guan, Jun,Zhang, Qiumin.Thermodynamic analysis of chemical looping gasification coupled with lignite pyrolysis[J],ENERGY,2019,166:807-818 [18]聂凡,何德民,关珺,张秋民.Oil Sand Pyrolysis: Evolution of Volatiles and Contribution from Mineral, Bitumen, Maltene, and S...[J],Fuel,2018,224(1):726-739 [19]张坤,何德民,关珺,张秋民.Thermodynamic analysis of chemical looping gasification coupled with lignite pyrolysis[J],Energy,2018,166(2):807-818 [20]王庆宇,何德民,关珺,张秋民.Study on Water Reduction of Coal Pyrolysis Product over Perovskite Catalysts[A],2018 [21]倪鸿志,何德民,关珺,张秋民.Internal Heat Transfer Characteristics of pulverized Coal during Pyrolysis[A],2018 [22]赵燕,关珺,何德民,张秋民.The humic acid was prepared by oxidation of lignite and study on the flocculation of humic acid[A],2018 [23]洪雨,关珺,张秋民,何德民.Influence of temperature and heating rate on product distribution of low-rank coal pyrolysis[A],2018 [24]何德民,关珺,张秋民.The influence of Abundant Calcium Oxide Addition on Oil Sand Pyrolysis[J],Fuel Processing Technology,2017,155:216-224 [25]何德民,关珺,张秋民.Influence of heating rate and temperature on products distribution of low-rank coal pyrolysis[A],2017 [26]何德民,关珺,张秋民.Chemical Looping Gasification with Coal Pyrolysis for Syngas and Tar Generation Using an Iron-Bas...[A],2017 [27]何德民,关珺,张秋民.Study on the volatile release during coal drying process[A],2017 [28]何德民,关珺,张秋民.The evolutions of released volatiles and bitumen during pyrolysis oil sand[A],2017 [29]何德民,关珺,张秋民.TLC-FID and GC-MS Analysis of Tars Generated by Oil Sand Pyrolysis at Different Temperature[J],Applied Mechanics and Materials,2015,737:128-131 [30]何德民,关珺,张秋民.Heat Treatment of the Hesigewula Lignite and Moisture Adsorption Experiment of its Solid Products[J],Advanced Materials Research,2015,1094:133-136