●  个人简介

工作职位：化学工艺教研室副教授，硕士研究生导师

办公地址：青岛科技大学（四方校区）CCF大楼911室

研究生招生专业：化学工程与技术、化学工程

工作邮箱：zhuqh87@163.com; zhuqh@qust.edu.cn

2009年毕业于太原理工大学化，获学工程与工艺专业工学学士学位；2012年毕业于中国科学院山西煤炭化学研究所，获化学工程专业工学硕士学位，研究方向为煤碳清洁利用；2016年毕业于中国科学院过程工程研究所，获化学工程专业工学博士学位，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。现阶段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，Fuel，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20余篇；作为第一发明人，授权中国发明专利2项，授权国际PCT专利1项，申请中国发明专利8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) Quanhong Zhu*, Qiang Zhang, Peiyi Yang, Hengjun Gai**, Mengqi Lin, Hongbing Song, Meng Xiao, Tingting Huang. Measuring segregation in fluidized bed with magnetizable and nonmagnetizable particles based on magnetic permeability. Fuel, 2023, 340: 127554.（中科院一区）

(2) Hengjun Gai, Peiyi Yang, Qiang Zhang, Mengqi Lin, Hongbing Song, Meng Xiao, Tingting Huang, Quanhong Zhu*. Dual-dense gas-solid circulating fluidized bed reactor. Fuel, 2023, 337: 126872.（中科院一区）

(3) Qian Zhou, Bingxiao Feng, Lining Hao, Chao Pan, Hongbing Song, Hengjun Gai*, Quanhong Zhu**, Meng Xiao, Tingting Huang. Preparation and application of low-cost fibers for efficient adsorption of oil from coal pyrolysis wastewater and establishment of quantitative equation for calculating oil contact angle under water. Journal of Water Process Engineering, 2023, 51: 103461.（中科院二区）

(4) 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.（化工三大期刊之首）

(5) 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.（中科院一区）

(6) 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.（中科院一区）

(7) Quanhong Zhu*, Libo Zhang, Weikang Hao. Determining minimum fluidization velocity in magnetized fluidized bed with Geldart-B particles. Powder Technology, 2021, 389: 85-95. （中科院二区）

(8) 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. （中科院二区）

(9) 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. （中科院二区）

(10) 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, 2023, 210(3): 348-360.

(11) Hengjun Gai, Hongbing Song, Meng Xiao, Tingting Huang, Weikang Hao, Quanhong Zhu*. Improve reproducibility of determining minimum fluidization velocity via endowing it with a precise definition. Particulate Science and Technology 2023, http://dx.doi.org/10.1080/02726351.2022.2092921.

(12) 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. （中科院二区）

(13) Quanhong Zhu, Qingshan Huang*, Chao Yang**. Hydrodynamic review on liquid–solid magnetized fluidized bed. Reviews in Chemical Engineering, 2021, 37(7): 827-861. （中科院二区）

(14) Quanhong Zhu, Hang Xiao, Ruchao Zhang, Shujun Geng, Qingshan Huang*. Effect of impeller type on preparing spherical and dense Ni_1-x-yCo_xMn_y(OH)₂ precursor via co-precipitation in pilot scale: A case of Ni_0.6Co_0.2Mn_0.2(OH)₂. Electrochimica Acta, 2019, 318: 1-13.（中科院二区）

(15) 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.（中科院二区）

(16) 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.（中科院二区）

(17) 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.

(18) 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.

(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.

(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.

(21) Jihai Duan, Ruchao Zhang, Quanhong Zhu*, Hang Xiao, Qingshan Huang**. Effect of controlling strategies of pH and ammonia concentration on preparing full concentration gradient Ni_0.8Co_0.1Mn_0.1(OH)₂ via co-precipitation in a pilot-scale reactor. Energy Technology, 2020, 8(5): 1901437.

(22) 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.

(23) 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.

(24) 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.

(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，程景才，杨超，一种浆态床清洁液体的采出方法及采出装置，中国发明专利，已授权，ZL202010855068.3

(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，中国发明专利，申请号：CN201910856053.6

(29) 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

(30) Quanhong Zhu，Qingshan Huang，Hang Xiao，Chao Yang，Device and method for increasing solid holdup in reaction crystallizer. US invention patent, Publication Number：US20220016594A9

(31) 朱全红，宋红兵，盖恒军，肖盟，黄婷婷，从磁稳定流化床中颗粒采出再生并返还的方法，中国发明专利，申请号：CN202210484133.5

(32) 朱全红，盖恒军，宋红兵，肖盟，黄婷婷，一种从结晶器中采出成熟大晶体颗粒的方法，中国发明专利，申请号：CN202210563615.X

(33) 朱全红，盖恒军，宋红兵，肖盟，黄婷婷，一种防止双向窜气的双密相循环流化床，中国发明专利，申请号：CN202210609712.8

(34) 朱全红，盖恒军，宋红兵，肖盟，黄婷婷，一种快速测量混合物中磁性颗粒含量的方法，中国发明专利，申请号：CN202210926021.0

(35) 朱全红，盖恒军，宋红兵，肖盟，黄婷婷，一种从油水混合物中分离重油和轻油的方法，中国发明专利，申请号：CN202210985544.2

(36) 朱全红，张强，盖恒军，宋红兵，肖盟，黄婷婷，生物质颗粒电磁加热催化热解工艺，中国发明专利，申请号：CN202211151307.2

(37) 朱全红，张强，杨培艺，盖恒军，宋红兵，肖盟，黄婷婷，一种高温含尘气体的冷却除尘工艺，中国发明专利，申请号：CN202310005594.4

●  承担科研项目

(1) 青岛科技大学高层次人才引进启动专项，2021-2026，负责人，在研。

(2) 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，负责人，结题。

(3) 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，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。