黄国强

现任职称/职务：副教授、正高级工程师
通讯地址：天津大学北洋园校区50楼B432
电子邮箱：hgq@tju.edu.cn
办公电话：022-27891125

论著专利:

第一作者或唯一通讯作者论文78篇，第一发明人专利50余项：

 代表性论文（第一作者或唯一通讯作者）： 

(1)Ze Luo, Qingxin Liang, Yuanshuai Qi, Guoqiang Huang*. The Cu/TiO₂ adsorbent modified by Ce-doping removes trace phosphorus impurities from circular hydrogen of a polysilicon chemical vapor deposition furnace[J]. Separation And Purification Technology, 2024, 344: 127148.（SCI一区）

(2)Qingxin Liang, Guoqiang Huang*. Efficient adsorption removal of diborane impurities from recycled hydrogen during the production of polysilicon by xylitol modified activated carbon[J]. Separation And Purification Technology, 2024, 345: 127414.（SCI一区）

(3)Yuemei Zhang, Guoqiang Huang*, Guoliang Su. Hydrodynamic behavior of silicon particles with a wide size distribution in a draft tube spout-fluid bed[J]. Chemical Engineering Journal, 2018, 328: 645-653.（SCI一区）

(4)Xu Xuanwen, Huang Guoqiang*, Qi Shuai. Properties of AC and 13X zeolite modified with CuCl₂ and Cu(NO₃)₂ in phosphine removal and the adsorptive mechanisms[J]. Chemical Engineering Journal, 2017, 316: 563-572.（SCI一区）

(5)Guoliang Su, Guoqiang Huang*, Ming Li, Chunjiang Liu. Study on the flow behavior in spout-fluid bed with a draft tube of sub-millimeter grade silicon particles[J]. Chemical Engineering Journal, 2014, 237: 277–285.（SCI一区）

(6)Qiang Geng, Guoqiang Huang*. Catalytic conversion of carbon-containing impurity methyldichlorosilane to purify raw material trichlorosilane of polysilicon production[J]. Reaction Chemistry & Engineering, 2022, 7(7): 1544-1554.（SCI二区）

(7)Yeming Zhou, Taifeng He, Shuaifeng Liu, Guoqiang Huang*. Adsorption of Trace Phosphine in Circular Hydrogen of a Polysilicon Chemical Vapor Deposition Stove by Cu/gamma-Al₂O₃[J]. Industrial & Engineering Chemistry Research, 2018, 57(44): 15122-15131.（SCI二区、三大期刊）

(8)Xuanwen Xu, Guoqiang Huang*. Effect of 13X Zeolite Modified with CuCl₂ and ZnCl₂ for Removing Phosphine from Circular Hydrogen of a Polysilicon Chemical Vapor Deposition Stove[J]. Industrial & Engineering Chemistry Research, 2016, 5(55): 1380-1386.（SCI二区、三大期刊）

(9)Guoqiang Huang, Chengcheng Lv*. Isobaric Vapor-Liquid Equilibria for Binary Systems Comprising 1-Chloro-2-ethylhexane, 2-Ethyl-1-hexanol, p-Xylene, and N-Methylpyrrolidone (NMP) at 40.0 kPa[J]. Journal of Chemical & Engineering Data, 2013, 2(58): 279-284.（SCI二区）

(10)Guoqiang Huang, Shuaipeng Yao, Yuchen Zhao, Liyan Liu*. Isobaric Vapor Liquid Equilibrium for Binary Systems of Toluene plus Acrylic Acid, Toluene plus Acetic Acid, and Cyclohexane plus Acrylic Acid at 20 kPa[J]. Journal of Chemical & Engineering Data, 2011,10(56): 3914-3919.（SCI二区）

(11)Zhang Ruiling, Huang Guoqiang*, Lian Jingyan, Li Xingang. Degradation of MTBE and TBA by a new isolate from MTBE-contaminated soil[J]. Journal of Environmental Sciences, 2007,19(9): 1120-1124.（SCI二区）

(12) Zhao Qianyi, Geng Qiang, Huang Guoqiang*. Manganese-oxide-supported gold catalyst derived from metal-organic frameworks for trace PCl₃ oxidation in an organic system[J]. RSC Advances, 2024, 14(6): 4230-4243.

(13) Miaolei Zhang, Jianhua Liu, Guoqiang Huang*. Silicon Dioxide Functionalized with Oxygen–Containing Groups for Enhanced BCl₃ Adsorption[J]. Adsorption Science & Technology, 2023: 7581943.

(14) Zhaochen Huang, Guoqiang Huang*. Study on Zinc-Modified Adsorbent for Adsorption of Trace CO2 in Electronic Special Gas BF₃[J]. Processes, 2023, 11(4): 1075.

(15) Jianhua Liu, Miaolei Zhang, Guoqiang Huang *.Conversion of Carbonaceous Organic Impurities (Methyldichlorosilane) in Trichlorosilane Using Weakly Basic Anion-Exchange Resin as Solid Catalyst[J]. Processes, 2023, 11(2): 429.

(16) Tingting Zhang, Guoqiang Huang, Guoliang Su, Shuaifeng Liu. Effect of bed geometry on operating pressure drop and minimum fluidizing velocity in a draft tube spout-fluid bed[J]. Canadian Journal of Chemical Engineering, 2019, 97: 2318~2325.

(17) Sun Shuaishuai, Huang Guoqiang*. Simulation of Reactive Distillation Process for Monosilane Production via Redistribution of Trichlorosilane[J]. Chinese Journal of Chemical Engineering, 2014, 22(3): 287-293.

(18) Li Hong, Li Xin-Gang, Huang Guo-Qiang*, Jiang Bin. Modeling the migration of soluble methanol in unsaturated soil zone[J]. Pedosphere, 2007, 17(3): 366-372.

(19) Li Hong, Li Xingang, Gao Chuanbo, Huang Guoqiang*, Jiang Bin. 2D-cell experiment on methyl tert-butyl ether transport in saturated zone of groundwater[J]. Chinese Geographical Science, 2007, 17(3): 275-279.

(20) Jiang Bin, Liang Hongying, Huang Guoqiang*, Li Xingang. Study on NOx formation in CH₄/air jet combustion[J]. Chinese Journal of Chemical Engineering, 2006, 14(6): 723-728.

(21) Jiang Bin, Liang Hongying, Huang Guoqiang*, Li Xingang. Chemical Kinetics for NO Emissions in System of Methane Air Turbulent Jet Diffusion Flame[J]. Transactions of Tianjin Univesity, 2006, 12(6): 404-409.

(22) Zheng Yanmei, Huang Guoqiang*, Jiang Bin, Li Xingang. Mass Transfer of MTBE in Groundwater During Air Sparging[J]. Transactions of Tianjin University, 2006, 12(2): 100-103.

代表性发明专利（均为第一发明人）： 

(1) 黄国强等, 三氯氢硅除碳反应-选择性吸附耦合装置及方法, 2021.07.30, 中国, CN202110876164.0

(2) 黄国强等, 用于生产高品质多晶硅的还原循环氢气深冷除杂的方法及装置, 2021.07.30, 中国, CN202110874264.X

(3) 黄国强等, 一种丙炔醇、丁炔二醇水溶液体系的隔板精馏工艺和设备, 2020.12.13, 中国, CN202011468603.6

(4) 黄国强等, 一种有机硅单体精馏热集成方法, 2020.02.28, 中国, CN202010128608.8

(5) 黄国强等, 测量氯硅烷中痕量磷杂质含量的样品预处理装置及方法, 2016.11.21, 中国, CN201611039284.0

(6) 黄国强等, 一种生产光纤级四氯化硅的方法及装置, 2016.02.29, 中国, CN201610111715.3

(7) 黄国强等, 一种兼用于硅烷、氯硅烷歧化及反歧化的反应精馏装置及方法, 2015.07.14, 中国, CN201510413574.6

(8) 黄国强等, 低温等离子体还原四氯化硅生产三氯氢硅方法及其装置, 2014.09.19, 中国, CN201410484126.0

(9) 黄国强等, 一种生产及分离苯基三氯硅烷的方法和装置, 2014.09.05, 中国, CN201410452302.2

(10) 黄国强等, 一种通过液相流率调节的隔板精馏方法及其装置, 2013.06.05, 中国, CN201310221760.0

(11) 黄国强等, 一种精制氯化亚砜的方法和设备, 2013.04.17, 中国, CN201310134398.3

(12) 黄国强等, 三氯氢硅歧化反应精馏制备高纯硅烷的装置及方法, 2013.03.27, 中国, CN201310102815.6

(13) 黄国强等, 一种制作医药级氯化亚砜的连续变压精馏方法及装置, 2013.03.22, 中国, CN201310095646.8

(14) 黄国强等, DCS歧化制硅烷的西门子联产工艺, 2013.02.26, 中国, CN201310060284.9

(15) 黄国强等, 改良西门子法联产制备高纯硅烷的方法, 2013.02.26, 中国, CN201310060283.4

(16) 黄国强等, 从氯硅烷残液中回收和提纯六氯乙硅烷的间歇操作方法及装置, 2013.02.26, 中国, CN201310059040.9

(17) 黄国强等, 利用反应精馏处理二氯二氢硅废料的方法及设备, 2013.01.21, 中国, CN201310022016.8

(18) 黄国强等, 四氯化硅残液的处理方法及其装置, 2012.03.14, 中国, CN201210066913.4

(19) 黄国强等, 采用静态混合升压器提纯三氯氢硅热泵节能分离装置和方法, 2011.04.12, 中国, CN201110091541.6

(20) 黄国强等, 一种引入微循环分布结构的四氯化硅氢化反应器, 2010.11.24, 中国, CN201010558465.0

(21) 黄国强等, 隔板反应精馏设备及进行二氯二氢硅和四氯化硅的反歧化反应, 2010.11.24, 中国, CN201010559429.6

(22) 黄国强等, 双塔热耦反应精馏除去氯硅烷体系中硼杂质的方法和装置, 2010.11.16, 中国, CN201010546176.9

(23) 黄国强等, 去除氯硅烷体系中硼杂质的隔板吸附装置及方法, 2010.11.13, 中国, CN201010542402.6

(24) 黄国强等, 一种多晶硅还原炉, 2010.11.12, 中国, CN201010542482.5

(25) 黄国强等, 利用反歧化反应通过反应精馏制备三氯氢硅方法及设备, 2010.10.21, 中国, CN201010514102.7

(26) 黄国强等, 电子级多晶硅生产中提纯三氯氢硅气相直进还原系统及工艺, 2010.08.12, 中国, CN201010251725.X

(27) 黄国强等, 三氯氢硅三塔差压耦合节能精馏提纯系统及操作方法, 2010.01.29, 中国, CN201010102924.4

(28) 黄国强等, 高纯三氯氢硅热泵精馏生产装置和方法, 2009.11.20, 中国, CN200910228635.6

(29) 黄国强等, 光纤级高纯四氯化硅连续共沸脱轻精馏方法, 2009.05.15, 中国, CN200910068887.7

(30) 黄国强等, 多晶硅生产过程中的三氯氢硅分离提纯系统及操作方法, 2009.04.21, 中国, CN200910068556.3

(31) 黄国强等, 一种有机硅粗单体与氯甲烷分离的节能、精制装置及方法, 2020.11.30, 中国, CN202011377857.7