张金弘（副教授）

教授孩子深呼吸和冥想以平复紧张 #生活技巧# #家庭教育建议# #情绪管理教育#

1. 论文

以第一/通讯作者在工程技术领域著名期刊发表论文20余篇：

[1] Jinhong Zhang*, Yansheng Huang, Daniel Takyi Sekyere, Weicheng Wang,   Yuanyu Tian. Catalytic fast pyrolysis of waste pine sawdust over solid base,   acid and base-acid tandem catalysts[J]. Bioresource Technology, 2024, 394: 130294. (SCI一区TOP)

[2] Jiming Liu, Jinhong Zhang*, Haoyang Sun, Chunxiao Gao, Yaozheng Chen, Ruotong Cui,   Yuanyu Tian. Ultrastable bifunctional multi-stage active metal catalysts for   low concentration CO2 capture and in-situ conversion[J]. Fuel,   2024, 357: 129801. (SCI一区TOP)

[3] Daniel Takyi Sekyere1, Jinhong Zhang1,*, Yaozheng Chen,   Yansheng Huang, Mengfei Wang, Jiaxu Wang, Noah Niwamanya, Andrew Barigye,   Yuanyu Tian, Production of light olefins and aromatics via catalytic   co-pyrolysis of biomass and plastic, Fuel, 333 (2023) 126339. (SCI一区TOP)

[4] Zhang   Jinhong*, Niwamanya Noah, Gao Chunxiao, Takyi Sekyere Daniel, Barigye   Andrew, Tian Yuanyu*, Structure and millisecond pyrolysis behavior of heavy   oil and its eight group-fractions on solid base catalyst, Fuel, 318 (2022)   123483. (SCI一区TOP)

[5] Noah Niwamanya, Jinhong Zhang*, Chunxiao Gao, Daniel Takyi Sekyere, Andrew   Barigye, Jacqueline Nangendo, Yuanyu Tian, Catalytic Pyrolysis Behavior of   Heavy Crude Oil Over Acid-base Composite Catalysts, Fuel, 328 (2022) 125285.   (SCI一区TOP)

[6] Junhui Hao, Peijie Zong, Yuanyu   Tian*, Jinhong Zhang*, Yingyun   Qiao. Distribution and chemical structure characteristic of the fast   thermal-cracking products of Buton oil sand bitumen by Py–GC/TOF–MS and a   fluidized bed reactor. Energy Conversion and Management, 2019, 183: 485-499.   (SCI一区Top)

[7] Junhui Hao, Wen Feng, Yingyun Qiao,   Yuanyu Tian*, Jinhong Zhang*,   Yuanjun Che, Thermal cracking behaviors and products distribution of oil sand   bitumen by TG-FTIR and Py-GC/TOF-MS. Energy Conversion and Management, 2017,   151: 227-239 (SCI一区Top)

[8] Yuanjun Che, Meng Yuan, Yingyun   Qiao, Qin Liu, Jinhong Zhang*,   Yuanyu Tian*. Fundamental study of hierarchical millisecond gas-phase   catalytic cracking process for enhancing the production of light olefins from   vacuum residue. Fuel, 2019, 237:1-9. (SCI一区Top)

[9] Yuanjun Che, Junhui Hao, Jinhong Zhang*, Yingyun Qiao, Dawei   Li, Yuanyu Tian*, Vacuum Residue Thermal Cracking: Product Yield   Determination and Characterization Using Thermogravimetry–Fourier Transform   Infrared Spectrometry and a Fluidized Bed Reactor, Energy & Fuels, 2018,   32 (2): 1348-1357. (SCI二区Top)

[10] Zhang Jinhong*, Tian Yuanyu*, Qiao Yingyun, Yang Chaohe, Shan   Honghong, Structure and Reactivity of Iranian Vacuum Residue and Its Eight   Group-Fractions. Energy & Fuels, 2017, 31 (8), 8072-8086. (SCI二区Top)

[11] Zhang Jinhong, Che Yuanjun, Wang Zhenbo, Qiao Yingyun*, Tian   Yuanyu*, Coupling Process of Heavy Oil Millisecond Pyrolysis and Coke   Gasification: A Fundamental Study, Energy & Fuels, 2016, 30 (8):   6698-6708. (SCI二区Top)

[12] Zhang Jinhong, Shan Honghong, Chen Xiaobo*, Liu Wenjing, Yang   Chaohe*, Synergistic Process for High Nitrogen Content Feedstocks Catalytic   Cracking: A Case Study of Controlling the Reactions of Nitrogen Compounds in   Situ, Industrial & Engineering Chemistry Research, 2014, 53 (14):   5718-5727. (SCI二区Top)   

[13] Zhang, Jinhong, Shan, Honghong*, Chen, Xiaobo, Liu, Wenjing,   Yang, Chaohe*. Fluid Catalytic Cracking Study of Coker Gas Oil: Effects of Processing   Parameters on Sulfur and Nitrogen Distributions[J]. Energy & Fuels, 2014,   28 (2): 1362-1371. (SCI二区Top)   

[14] Zhang, Jinhong, Shan, Honghong, Chen, Xiaobo, Li, Chunyi, Yang,   Chaohe*. In Situ Upgrading of Light Fluid Catalytic Cracking Naphtha for Minimum   Loss. Industrial & Engineering Chemistry Research, 2013, 52 (19):   6366-6376. (SCI二区Top)   

[15] Zhang, Jinhong, Shan, Honghong, Liu, Wenjing, Chen, Xiaobo, Li,   Chunyi*, Yang, Chaohe*. Synergistic Process for Coker Gas Oil Catalytic   Cracking and Gasoline Reformation. Energy & Fuels, 2013, 27 (2): 654-665.   (SCI二区Top)   

[16] Zhang, Jinhong, Shan, Honghong, Chen, Xiaobo, Li, Chunyi*, Yang,   Chaohe*. Multifunctional Two-Stage Riser Catalytic Cracking of Heavy Oil.   Industrial & Engineering Chemistry Research, 2013, 52 (2): 658-668. (SCI二区Top)

2. 专利

授权中国/美国发明专利22项：

[1] 催化裂化与加氢生产清洁汽油并增产丙烯的装置及方法，ZL201310423606.1

[2] 催化裂化与加氢精制联合生产清洁汽油的装置及方法，ZL201310423263.9

[3] 重质石油烃催化裂解与轻质石油烃蒸汽裂解组合工艺，ZL201510710907.1

[4] 天然气脱液除渣脱酸性气撬装装置及工艺，ZL201510698016.9

[5] 生活垃圾气化过程渗滤液清洁高效处理装置，ZL201610281413.0

[6] 生活垃圾热处理过程渗滤液处理工艺， ZL201610281411.1

[7] 生活垃圾清洁整体气化循环联合发电工艺，ZL201610280036.9

[8] 重油毫秒分级气相催化裂解制低碳烯烃工艺，ZL201810341227.0

[9] 一种重油催化裂解性能的微量评价装置及方法，ZL201710317273.2

[10] 一种重油热裂解性能的微量评价装置及方法，ZL201710308081.5

[11] 劣质重油双反应管碱性毫秒催化裂解和气化耦合工艺，ZL201810341347.0

[12] 基于小分子烃活化强化的重油固体热载体毫秒热解工艺，ZL201810341305.7

[13] 重油双反应管半焦循环床毫秒热解-气化耦合工艺，ZL201810341313.1

[14] 原油毫秒分级气相催化裂解和加氢组合最大化制取化工原料工艺，ZL201810341186.5

[15] 一种原油双管串联多区催化转化制化学品的方法，ZL202110766145.2

[16] 一种原油双管并联多区催化转化制化学品的方法，ZL202110768732.5

[17] 一种强化进料油剂混合的反应器，ZL202110768529.8

[18]一种铝酸钙基多金属复合材料及其制备方法和应用，ZL202310107150.1

[19] Method For Producing Chemicals From   Crude Oil By Double-Tube Parallel Multi-Zone Catalytic Conversion, 美国，US17401534

[20] Stepwise Solidus Synthesis Method   For A Micro-Mesoporous Calcium Aluminate Catalyst, 美国，US10668461

[21] Gasification Co-Generation Process   Of Coal Powder In A Y-Type Entrained Flow Bed, 美国, US10711209

[22] Integrated Device For   Millisecond-Level Gas Phase Catalytic Cracking Reaction And Separation, 美国, US10822554

网址：张金弘（副教授） https://www.yuejiaxmz.com/news/view/1156516

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