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工作职位:化学工艺教研室副教授
办公地址:青岛科技大学(四方校区)CCF大楼911室
工作邮箱:zhuqh87@163.com; zhuqh@qust.edu.cn
2005.09-2009.07,就读于太原理工大学,化学工程与工艺专业,获工学学士学位;2009.09-2012.07,就读于中国科学院山西煤炭化学研究所,化学工程专业,导师为黄戒介研究员和赵建涛研究员,研究方向为煤碳气化,获工学硕士学位;2012.09-2016.07,就读于中国科学院过程工程研究所,化学工程专业,导师为李洪钟院士和朱庆山研究员,研究方向为流化床反应器过程强化,获工学博士学位。2016.07-2017.01在中国五环工程有限公司(原化工部第四设计院)工作;2017.02-2019.09在中国科学院青岛生物能源与过程研究所从事博士后研究,合作导师为杨超研究员,之后留所工作;2021.11作为第五层人才进入青岛科技大学化工学院工作,研究方向主要包括多相反应器过程强化(流化床反应器和搅拌釜反应器)、煤/生物质热解气化、有机废水催化氧化、VOCs处理、锂离子电池正极材料的制备、废旧电池镍钴锰的回收利用。完成国家自然科学基金青年基金1项,重点参与6项国家自然科学基金委和中国科学院的研究项目,第一作者或通讯作者在AIChE Journal,Chemical Engineering Journal,Powder Technology,Particuology,Chemical Engineering Processing-Process Intensification,Chemical Engineering and Design等国际学术期刊上发表SCI论文18篇;作为第一发明人,授权中国发明专利1项,授权国际PCT专利1项,申请中国发明专利2项,申请美国发明专利1项。
教学情况
本课生课程《化工设计》:40学时,约60人
论文、专著与专利
(1) Jiao Zhou, Weikang Hao, Quanhong Zhu*, Mass transfer intensification between fluidizing gas and Geldart-B nonmagnetizable particles in magnetized fluidized bed. AIChE Journal, 2021, 67(11): e17407. (SCI, 二区, IF=3.993)
(2) Quanhong Zhu, Weikang Hao, Jinliang Tao, Qingshan Huang*, Chao Yang**, State dependence of magnetized fluidized bed reactor on operation mode, Chemical Engineering Journal, 2021, 407: 127211. (SCI, 一区, IF=13.273)
(3) Quanhong Zhu, Hongzhong Li*, Qingshan Zhu**, Qingshan Huang, Comparing flow regime transition of magnetized fluidized bed with Geldart-B particles between magnetization-FIRST and -LAST operation modes, Chemical Engineering Journal, 2019, 360: 686-700. (SCI, 一区, IF=13.273)
(4) Quanhong Zhu*, Libo Zhang, Weikang Hao, Determining minimum fluidization velocity in magnetized fluidized bed with Geldart-B particles, Powder Technology, 2021, 389: 85-95. (SCI, 二区, IF=5.134)
(5) Weikang Hao, Quanhong Zhu*, Operating range of magnetic stabilization flow regime for magnetized fluidized bed with Geldart-B magnetizable and nonmagnetizable particles, Particuology, 2022, 60: 90-98. (SCI, 二区, IF=3.067)
(6) Quanhong Zhu*, Hengjun Gai, Hongbing Song, Meng Xiao, Tingting Huang, Weikang Hao. Identification of flow regimes and determination of the boundaries for magnetized fluidized bed with Geldart-B particles, Particuology, 2022, 71: 75-89. (SCI, 二区, IF=3.067)
(7) Quanhong Zhu, Hongzhong Li*, Qingshan Huang, Magnetized fluidized bed with binary admixture of magnetizable and nonmagnetizable particles, Reviews in Chemical Engineering, 2021, 37(2): 305-338. (SCI, 二区, IF=6.299)
(8) Quanhong Zhu, Qingshan Huang*, Chao Yang**, Hydrodynamic review on liquid–solid magnetized fluidized bed. Reviews in Chemical Engineering, 2021, 37(7): 827-861. (SCI, 二区, IF=6.299)
(9) Quanhong Zhu, Hang Xiao, Ruchao Zhang, Shujun Geng, Qingshan Huang*, Effect of impeller type on preparing spherical and dense Ni1-x-yCoxMny(OH)2 precursor via co-precipitation in pilot scale: A case of Ni0.6Co0.2Mn0.2(OH)2, Electrochimica Acta, 2019, 318: 1-13. (SCI, 二区, IF=6.901)
(10) Quanhong Zhu, Hang Xiao, Aqiang Chen, Shujun Geng, Qingshang Huang*, CFD study on double- to single-loop flow pattern transition and its influence on macro mixing efficiency in fully baffled tank stirred by a Rushton turbine, Chinese Journal of Chemical Engineering, 2019, 27: 993-1000. (SCI, 二区, IF=3.171)
(11) Quanhong Zhu, Hongzhong Li*, Qingshan Zhu**, Qingshan Huang, Modeling of segregation in magnetized fluidized bed with binary mixture of Geldart-B magnetizable and nonmagnetizable particles, Chinese Journal of Chemical Engineering, 2018, 26: 1412-1422. (SCI, 二区, IF=3.171)
(12) Jinliang Tao, Weikang Hao, Quanhong Zhu*, Segregation in magnetized fluidized bed with Geldart-B magnetizable and nonmagnetizable particles, Chemical Engineering and Processing-Process Intensification, 2021, 164: 108421. (SCI, 三区, IF=4.237)
(13) Quanhong Zhu*, Weikang Hao, Peng Liang, Magnetic intensification of mass transfer between fluidizing gas and Geldart-B nonmagnetizable particles: Property effects of added magnetizable particles, Chemical Engineering Research and Design, 2021, 175: 25-36. (SCI, 三区, IF=3.739)
(14) Quanhong Zhu, Hongzhong Li*, Qingshan Zhu*, Jun Li, Zheng Zou, Hydrodynamic behavior of magnetized fluidized beds with admixtures of Geldart-B magnetizable and nonmagnetizable particles, Particuology, 2016, 29: 86-94. (SCI, 二区, IF=3.067)
(15) Quanhong Zhu, Hongzhong Li*, Qingshan Zhu*, Jun Li, Zheng Zou, Hydrodynamic study on magnetized fluidized beds with Geldart-B magnetizable particles, Powder Technology, 2014, 268: 48-58. (SCI, 二区, IF=5.134)
(16) Jihai Duan, Ruchao Zhang, Quanhong Zhu*, Hang Xiao, Qingshan Huang**, Effect of controlling strategies of pH and ammonia concentration on preparing full concentration gradient Ni0.8Co0.1Mn0.1(OH)2 via co-precipitation in a pilot-scale reactor, Energy Technology, 2020, 8(5): 1901437. (SCI, 三区, IF=3.631)
(17) Qing Liu, Hengjun Gai, Quanhong Zhu*, Weikang Hao. Effect of internal friction among unfluidized particles on measuring minimum fluidization velocity and segregation index, Chemical Engineering Communications, 2022, Accepted. (SCI, 四区, IF=2.494)
(18) Yang Zhang, Tengfei Zhang, Fang Wang, Quanhong Zhu*, Qing Liu, Ni/CeO2 catalysts for low-temperature CO2 methanation: Identifying effect of support morphology and oxygen vacancy, Greenhouse Gases: Science and Technology, 2021, 11(6): 1222-1233. (SCI, 四区, IF=2.013)
(19) Quanhong Zhu, Hongzhong Li, Qingshan Zhu, Jun Li, Zheng Zou, Hydrodynamic behavior of magnetized fluidized beds with admixtures of Geldart-B magnetizable and nonmagnetizable particles, Particuology, 2016, 29: 86-94. (SCI, 二区, IF=3.067)
(20) Quanhong Zhu, Hongzhong Li, Qingshan Zhu, Jun Li, Zheng Zou, Hydrodynamic study on magnetized fluidized beds with Geldart-B magnetizable particles, Powder Technology, 2014, 268: 48-58. (SCI, 二区, IF=5.134)
(21) Hengjun Gai, Donghui Li, Hongbing Song, Xixi Zhao, Meng Xiao, Quanhong Zhu, Tingting Huang, Facile synthesis of highly dispersed Ru/functionalized CMK-3 catalyst with superior catalytic wet air oxidation (CWAO) performance of ammonia, Chemical Physics Letters, 2022, 793: 139475. (SCI, 四区, IF=2.328)
(22) Wenming Liu, Hongzhong Li*, Qingshan Zhu**, Quanhong Zhu, A new structural parameters model based on drag coefficient for simulation of circulating fluidized beds, Powder Technology, 2015, 286: 516-526. (SCI, 二区, IF=5.134)
(23) 朱全红,黄戒介*,赵建涛,房倚天,王洋,煤焦氧化对其结构和气化行为的影响,煤炭转化,2012, 35: 51-56.
(24) 耿淑君,黄青山*,朱全红,金永成,杨超,共沉淀法制备LiNi1-x-yCoxMnyO2正极材料工艺条件探究,化工学报,2018,69(1): 175-187
(25) 李洪钟,朱庆山,谢朝晖,邹正,《流化床结构传递理论与工业应用》之第七章“磁场对流化床结构的影响及操作相图”,科学出版社,2020: p190-222
(26) 朱全红,黄青山,肖航,杨超,一种将反应结晶器出料浆液中小晶体颗粒返还的方法,中国发明专利,已授权,ZL202010030494.3
(27) 朱全红,黄青山,肖航,杨超,一种提高反应结晶器内固含率的装置和方法,中国发明专利,申请号:CN201910856053.6
(28) 朱全红,黄青山,肖航,杨超,一种提高反应结晶器内固含率的装置和方法,国际PCT专利,已授权,WO2021047266A1
(29) Quanhong Zhu,Qingshan Huang,Hang Xiao,Chao Yang,Device and method for increasing solid holdup in reaction crystallizer. US invention patent, Publication Number:US20210220796A1
(30) 朱全红,黄青山,肖航,程景才,杨超,一种从浆态床中自动采出清洁液体的方法,中国发明专利,申请号:CN202010855068.3
(31) 陈风敬,朱全红等,褐煤干燥提质及干燥水回收利用工艺及系统,发明专利,申请号:CN201610996706.7
(32) 陈风敬,朱全红等,褐煤干燥提质及干燥水回收利用系统,实用新型,授权公告号:CN206176948U
(33) 陈风敬,朱全红等,褐煤干燥提质用预热设备,实用新型,授权公告号:CN206176941U
承担科研项目
(1) 磁场强化鼓泡流化床中气体与B类非磁性颗粒相间传质的研究,国家自然科学基金青年基金项目,2019/01-2021/12,国家自然科学基金委(28万元),负责人,结题。
(2) 高镍三元正极材料的生产及示范,自主部署基金-所内合作基金,2019/01-2020/12,中国科学院(100万元),骨干,结题。
(3) 建立厌氧发酵体系气液固复杂体系,中国科学院洁净能源先导科技专项资助,2018/01-2023/04,中国科学院(90万元),骨干,在研。
(4) 波纹板阻火器微通道火焰淬熄精准数学模型的研究,国家自然科学基金青年基金项目,2018/01-2020/12,国家自然科学基金委(28万元),骨干,结题。
(4) 宽粒径矿物颗粒流态化反应停留时间分布的结构调控与模拟优化,2015/01-2018/12,国家自然科学基金委,骨干,结题。
(5) 鼓泡流化床中介尺度结构与传递和反应的构效关系模型及其在甲烷化工艺中的应用,2014/01-2016/12,重大研究计划-培育项目,骨干,结题。
(6) 应用于流化床CO2-CH4重整反应的多级结构催化剂和磁场强化机制研究,2015/01-2017/12,国家自然科学基金联合基金,骨干,结题。 |