个人简介

魏利平，西北大学化工学院 博士/副教授，硕士研究生导师、高压流动控制与安全技术联合实验室主任、西北大学“青年学术英才”、新加坡国立大学Research Fellow，获中国化工学会科技进步二等奖，陕西石化科技奖一等奖、陕西高等学校科学技术二等奖、陕西省科技工作者创新创业大赛三等奖、陕西省优秀博士学位论文。课题组长期开展清洁能源、新型化工过程及先进军工领域的关键问题开展研究，得到国家及省部级项目的持续支。在Powder Technology、Chemical Engineering Science、Advanced Powder Technology、International Journal of Hydrogen Energy、International Journal of Multiphase Flow、AppliedEnergy、Energy Conversion and Management、Chemical Engineering & Technology、Particuology等行业权威期刊与重要会议上发表相关的研究论文40多篇，其中SCI检索30篇次，中文核心EI检索10篇次，受邀撰写专著章节2章，申请国家发明专利7项（获批4项）。担任国际期刊Energy Technology、Chemical Engineering Science、International Journal of Hydrogen Energy等20多个国内外期刊审稿人，中国化工学会会员。与国内外重要研究机构及企业（合作机构：西安交通大学动力工程多相流国家重点实验室、新加坡国立大学，西安电子科技大学、华为、中科曙光、兵器工业204研究所、甘肃蓝科、陕西天然气、昱光发电、英国德蒙福特大学、装甲兵工程学院、中国人民解放军某部）建立了长期合作关系。招生学科：化工机械（学术型，招生代码080706）及材料与化工（专业型，招生代码085600-01），每年招收2~3名研究生。

一、教育工作经历：

2019年7月-今:西北大学化工学院副教授

2019年2月-2020年3月：新加坡国立大学，环境工程研究所（E2S2），ResearchFellow

2017年7月-2018年9月：西北大学 化学工程与技术博士后流动站 博士后

2015年6月-2019年7月：西北大学化工学院过程装备与控制工程系讲师

2009年9月-2015年6月：西安交通大学动力工程多相流国家重点实验室，动力工程及工程热物理，获工学博士学位

二、教学工作：

2020年-2022年：研究生课程《化工机械设计方法》。

2015年-今:讲授过程装备与控制专业本科生基础课程《机械设计基础（上、下）》、《金属工艺学》及《过程流体机械》等。

2019年：主持《机械设计基础》SPOC课程。

2018年：获得西北大学化工学院讲课比赛二等奖。

2018年：西北大学首届学术月，优秀指导教师。

2017年：获得西北大学教学成果一等奖（排名第三）。

承担项目

课题组长期开展化工过程中的多相流热物理问题开展研究，与校内外多位教授合作开发新型能源转化与利用技术，取得了一系列有价值的研究成果，得到国家及省部级项目的持续支持，研究课题包括：

低阶煤催化热解流化床多组分颗粒分布及固体相微观行为影响机制，国家自然科学基金，2017.01-2019.12，主持人

煤热解流化床颗粒组分特性对介尺度流动结构的影响机制，博士后基金，2017.08-2018.09，主持人

超临界水流化床反应器介尺度流动结构形成机理及对动量传递作用机制外协课题，国家自然科学基金重大研究计划培育项目，2017.1-2019.12，主持人

流化床多源压力脉动产生机理及传输耦合机制研究，陕西教育厅科技基金，2018.1-2019.12，主持人

流化床流化恶化过程中压力脉动形成机理及传输规律研究，陕西省自然科学基金，2016.1-2017.12，主持人

酸性环境下基于质子耦合电子转移的金属腐蚀动力学研究，国家自然科学基金，2017.1-2020.12，第三参与人

2-30 MPa新型背压阀阀芯结构应力分析及背压特性研究，科创嘉源实业有限公司，2020.6.13-2020.12.31，主持人

XX旋翼机PVC气囊浮筒造型及浮性计算，陕西宝鸡专用汽车有限公司，2020.7-2020.12，主持人

CFB锅炉金属防磨梁研究与制作实施项目，山西昱光发电有限责任公司，2020.6-2020.9，主持人

低阶煤催化热解流化床介尺度流动结构与反应的双向耦合作用机制,能源清洁利用国家重点实验室开放基金，2021.1.1-2021.12.30，主持人

特种能源材料差热分析性能测试，装甲兵工程学院，2021.4-2021.5，主持人

复杂球化过程CFD仿真软件开发，校内课题，2021.5-2021.6，主持人

吸收塔热处理燃烧系统控制技术研发，甘肃蓝科石化高新装备股份有限公司，2021.6-2022.6，主持人

气液、气固、液固两相流对水平管道腐蚀性能影响研究，甘肃蓝科石化高新装备股份有限公司，2021.6.2-2022.6.2，主持人

OpenFOAM流动求解器移植与矩阵求解加速优化，光合基金，2021.7.15-2022.7.15，主持人

循环流化床锅炉低负荷燃烧脱硝系统控制技术研发，山西昱光发电有限责任公司，2021.7-2021.9，主持人

材料形貌结构分析，陆军装甲兵学院，2021.3.11-2021.6.11，主持人

进气道模型热特征算法研究，西安交通大学，2021.9.1-2021.11.30，主持人

输气管道力学监测与完整性管理系统研究，陕西省天然气股份有限公司，2021.12.15-2022.12.5，主持人

固体火箭发动机两相流高性能并行计算方法研究，北京航空航天大学，2022.5.1-2022.9.30，主持人

OpenFOAM流动求解器集成及应用案例开发，2022.3.15-2023.3.15，主持人

高压流体控制阀组性能优化技术，咸阳市科技局揭榜挂帅，2022.7.1-2023.6-30，主持人

车辆内衬涂层及温控系统设计项目，中国人民解放军某部，2022.8.1-2022.10.30，主持人

太阳能甲烷化学链重整内循环流化床热质有序循环协同强化机制，国家自然科学基金面上项目（NO.22278332），2023.01- 2026.12,主持人

含能材料分子结构性质数据库关键技术开发，西安交通大学，2022.12- 2023.1,主持人

XX部队装备使用保障信息资源分析运用研究，XX军保障部信息保障室，2022.8-2023.08，主持人

煤热解制碳基材料关键技术与中试平台研究，陕西省科技厅，一般项目-工业领域，2023-YBGY-317，2023.1-2024.12，主持人

高性能水合工盐相变温控材料开发及特性研究，陕西省科技厅，一般项目-工业领域，2023-YBGY-175，2023.1-2024.12，参与

OpenFOAM多相流求解器移植与矩阵求解加速优化，光合基金B类，2023-4-1-2024-3-31，主持人

天然气管线积液特性及腐蚀行为研究，机械工业上海蓝亚石化设备检测所有限公司，2023-4-25-2025-4-25，主持人

全钒液流电池电解液测试开发，林源电力(南京)有限公司，2023-9-1-2024-8-31，主持人

兰炭尾气制高纯氢成套设备研制，陕西煤业化工集团神木能源发展有限公司，2023-9-1-2024-8-31，主持人

主控计算机散热分析,内蒙古第一机械集团股份有限公司, 2023-5-10--2023-7-10，主持人

高压流体背压间关键技术及性能优化，西安市“科学家+工程师"队伍建设项目，2023-07-01-2025-06-30，23KGDW0009-2023，主持人

兰炭尾气连续制取高纯氢技术研究，陕西煤业化工集团神木能源发展有限公司，2025-6-20-2026-6-30，主持人

兰炭尾气制高纯氢抗磨氧载体造粒工艺研究，陕西煤业化工集团神木能源发展有限公司，2025-6-20-2026-6-30，主持人

相关论文

在Powder Technology、Chemical Engineering Science、Chemical Engineering Research & Design、Advanced Powder Technology、International Journal of Hydrogen Energy、International Journal of Multiphase Flow、AppliedEnergy、Energy Conversion and Management、Chemical Engineering & Technology、Particuology、Thermochimica Acta、Korean Journal of Chemical Engineering、International Journal of Chemical Reactor Engineering、《化工学报》、《工程热物理学报》、《太阳能学报》等行业权威期刊与重要会议上发表相关的研究论文40多篇，其中SCI检索30篇次，中文核心EI检索10篇次，受邀撰写专著章节2章，申请国家发明专利7项（获批2项）。担任国际期刊Industry Chemistry Engineering Research、Energy Technology、Chinese Journal of Chemical Engineering、Fuel、Chemical Engineering Science、International Journal of Hydrogen Energy、Chemical Engineering Journal、Powder Technology、Coating、Journal of the Taiwan Institute of Chemical Engineers、Journal of Molecular Liquids、Particulate Science and Technology、Molecular Simulation、Journal of Thermal Analysis、Chemical Engineering Communications、IEEE Transactions on Plasma Science、Journal of Fluids and Structures、Flow Measurement and Instrumentation、ACS Omega、《化工学报》、《工程热物理学报》、《煤炭学报》、《山东科学》及教育部学位论文审稿人，中国化工学会会员。2017年-今：受邀担任国际多相流动与传热国际会议（ICMFHT’18）学术委员会委员。2019年：担任4^thCreate E2S2 Biochar workshop及2019 AIChE Singapore Local Section Meeting执行委员。2021年：Coating Special Issue客座编辑。2024年：《Clean Energy Science and Technology》编委。

代表性期刊论文

[1]Zhanyu Yang, Zihao Zhang, Xian Li, Mingwu Tan, Deliang Zhang, Lu Wang,Liping Wei*, Yanyan Zhu,Boosted solar-driven thermochemical syngas production using bio-inspired indirectly irradiated reactor with BaFe3Al9O19 hexaaluminate oxygen carrier,Chemical Engineering Journal, 2025, 516, 164106

[2]Shen Zhang, Haoqi Li, Zhaofu Deng, Yixiang Chen, Peidong Guo, Qian Yang, Yanyan Zhu,Liping Wei*,Effect of the combination of squid-fin-inspired wall and internal vortex generator on methane reduction in a micro-fluidized bed reactor[J].Fuel, 2025,133476.

[3]Fopeng Wen, Liuyun Xu, Yixiang Chen, Zhaofu Deng, Shen Zhang, Wenming Song, Yuge Li,Liping Wei*,Numerical simulation of water-slag elbow erosion-inhibiting by regulating the slag injection position with a novel preceding rotating sheet structure, Particuology,2024,90, 323-339

[4]Qiucheng Zhou, Zhanyu Yang, Changsong Zheng,Liping Wei*, Dong Li*, Xiaoyong Fan,Effect of the Injection Structure on Gas Velocity Distribution in a 3D Vertical Oven,Coatings 2023, 13(10), 1707.

[5]Jiaxi Lei,Liping Wei*, Hedan Yao, Tao Liu, Xian Xu, Dong Li*,Effect of pretreatment synergistics on Shenfu low-rank coal pyrolysis in molten metal, Journal of Analytical and Applied Pyrolysis,2023,175,106180

[6]Liping Wei*, Haoqi Li, Changsong Wu, Youjun Lu, Kun Luo. Effect of Cohesive Particle Addition on Bubbling Characteristics of Gas-Solid Fluidized Bed: Meso-scale Mechanism[J]. Korean Journal of Chemical Engineering. Korean Journal of Chemical Engineering,2023,40, 1529-1539.

[7]Xin Li, Maozhen Zhang,Liping Wei*, Feng Wu, Kun Luo,Effect of metal anti-wear device on the water wall erosion in CFB boiler,Chemical Engineering Research and Design,2023,189, 126-137.

[8]Shi, Z.; Lv, J.; E, Z.; Wei, P.; Gu, Y.; Li, Y.; Song, W.; Yan, Y.;Wei, L.*;Hu, J. Numerical Simulation of Acid Gas Distribution and Corrosion Characteristics in Connecting Pipe of Lean/Rich Amine Heat Exchanger. Coatings 2022, 12, 1460. https://doi.org/10.3390/coatings12101460

[9]Xian Li,Liping Wei, Chia Wei Lim, Jialing Chen, Peng Chud, Wojciech Lipiński, Yanjun Dai, Chi-Hwa Wang,Experimental and numerical study on thermal performance of an indirectly irradiated solar reactor with a clapboard-type internally circulating fluidized bed, Applied Energy, 305 (2022) 117976. (共同一作)

[10]Liping Wei, Peng Jiang, Wenming Yang, Xiao Liu, Yanjun Dai, Christine Shoemaker, Chi-Hwa Wang, Input Parameter Tuning of 3D Biodiesel Engine Simulation Using Parallel Surrogate Optimization Algorithm.Computers & Chemical Engineering, 2021, 145:107180.(SCI: 2区，IF=4)

[11]Liping Wei, Bing Zhang, Chenfei Lu, Youjun Lu, Chihwa Wang,Experimental Investigation of Pressure Fluctuation Propagation Characteristics by Using a Clapboard-type Internally Circulating Fluidized Bed, Advanced Powder technology,2020, 31(8): 3395-3407. (SCI: 2区，IF=4.217)

[12]Liping Wei*,Yukuan Gu, Yibin Wang, Youjun Lu, Multi-fluid Eulerian simulation of fluidization characteristics of mildly-cohesive particles: cohesive parameter determination and granular flow kinetic model evaluation [J],Powder Technology, 2020, 364(15):264-275. (SCI: 2区，IF=4.142)

[13]Liping Wei,Youjun Lu,Numerical investigation of binary particle mixing in gas-solid fluidized bed with a bubble-based drag EMMS model[J],Advanced Powder Technology, 2020, 31(4)1529-1542. (SCI: 2区，IF=4.217)

[14]Liping Wei,Xian Li, Wenming Yang, Yanjun Dai, Chi-Hwa Wang, Optimization of operation strategies of a syngas-fueled engine in a distributed gasifier- generator system driven by horticulture waste[J],Energy Conversion and Management,2020, 208(15): 112580. (SCI: 1区，IF=8.208)

[15]Xiang Kan,Liping Wei, Xian Li, et al. Effects of the three dual-fuel strategies on performance and emissions of a biodiesel engine [J],Applied Energy, 2020;262:114542. (SCI: 1区，IF=8.848)

[16]Xian Li, Ye Shen,Liping Wei, et al. Hydrogen production of solar-driven steam gasification of sewage sludge in an indirectly irradiated fluidized-bed reactor.Applied Energy. 2020, 261:114229. (SCI: 2区，IF=8.848)

[17]Guodong Jiang,Liping Wei*, Zhiwen Chen, et al.Experimental investigation of particle circulation in an internally circulating clapboard type fluidized bed[J].Chemical Engineering & Technology, 2020, 43, (2): 253–262. (SCI: 4区，IF=1.543)

[18]Liping Wei*, Guodong Jiang, Haipeng Teng, et al. Multi-fluid Eulerian simulating of mixing of binary particle in a gas-solid fluidized bed with a cohesive particle-particle drag model [J],Particuology, 2020, 49: 95-104. (SCI:2区，IF=2.787)

[19]Guodong Jiang,Liping Wei*, Depolymerization model for flash pyrolysis of Zhundong coal: competition and coordination reaction mechanisms between the bridge scission and condensation [J],Thermochimica Acta, 2019, 675, 44-54. (SCI:3区，IF=2.762)

[20]Liping Wei, Youjun Lu, Jianbo Zhu, et al. Effect of cohesive powders on pressure fluctuation characteristics of a binary gas-solid fluidized bed [J],Korean Journal of Chemical Engineering, 2018, 16(7):1-14. (SCI:3区，IF=2.762)

[21]Liping Wei, Youjun Lu, Fluidization in supercritical water: heat transfer between particle and supercritical water [J].International Journal of Chemical Reactor Engineering, 2018, 16(7). (SCI:4区，IF=1.152)

[22]Liping Wei, Youjun Lu, Guodong Jiang, et al. Unsteady-state bubble dynamic wave velocity of gas–solid bubbling fluidized bed[J].Chemical Engineering Research & Design, 2017,126: 255-264. (SCI:3区，IF=3.35)

[23]Jianbo Zhu,Liping Wei, Jun Hu, et al. Anchoring iron oxide nanoparticles on polypyrrole/rGO derived nitrogen-doped carbon as lithium-ion battery anode[J].Journal of Alloys & Compounds, 2017, 723: 729-735. (SCI:2区，IF=4.65)

[24]Liping Wei, Youjun Lu, Fluidization behavior in high-pressure water at temperature from ambient to supercritical[J].Powder Technology, 2016, 304: 89-100. (SCI:2区，IF=4.142)

[25]Liping Wei, Youjun Lu, Bubble dynamic wave velocity in fluidized bed[J].Chemical Engineering Science, 2016, 147: 21-29. (SCI:2区，IF=3.871)

[26]Liping Wei, Youjun Lu, Fluidization of solids with water in supercritical conditions - Characteristics of pressure fluctuations[J].Chemical Engineering Research & Design, 2016, 109: 657-666. (SCI:3区，IF=3.35)

[27]Liping Wei, Youjun Lu, Jinjia Wei, Mixed convection heat transfer from a particle in supercritical water[J],Thermal Science, 2016, 20 (2): 483-492. (SCI:4区，IF=1.574)

[28]Youjun Lu,Liping Wei, Jinjia Wei. A numerical study of bed expansion in supercritical water fluidized bed with a non-spherical particle drag model[J].Chemical Engineering Research and Design, 2015,104:164-173. (SCI:3区，IF=3.35)

[29]Liping Wei, Youjun Lu, Jinjia Wei. Flow separation from a spherical particle in supercritical water[J].Chemical Engineering Research and Design, 2014,11(92): 2273–2282 . (SCI:3区，IF=3.35)

[30]Liping Wei, Youjun Lu, Jinjia Wei. Numerical study on laminar free convection heat transfer between sphere particle and high pressure water in pseudo-critical zone[J].Thermal Science, 2014,18(4): 1293-1303 . . (SCI:4区，IF=1.574)

[31]Liping Wei, Youjun Lu, Jinjia Wei. Numerical study on the mixed convection heat transfer between a sphere particle and high pressure water in pseudo-critical zone[J].Advances in Mechanical Engineering, 2013, 5(3):208-214(SCI:4区，IF=1.161).

[32]Liping Wei, Youjun Lu, Jinjia Wei. Hydrogen production by supercritical water gasification of biomass: Particle and residence time distribution in fluidized bed reactor[J].International Journal of Hydrogen Energy, 2013, 38 (29): 13117-13124 (SCI:2区，IF=4.939).

[33]Zhen Wang, Tiantian Wang, Jianbo Zhu,Liping Wei, Yizhou Shen, Neng Li, Jun Hu. Synergistic effect and mechanism of copper corrosion inhibition using cinnamaldehyde and vanillin in HCl solution: An experimental and theoretical approach[J].Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 563:246-254. (SCI:3区，IF=3.99).

[34]Jun Hu, Chaoming Wang, Shijun He, Jianbo Zhu,Liping Wei, Shunli Zheng, A DFT-based model on the adsorption behavior of H2O, H+, Cl−, and OH−on clean and Cr-doped Fe (110) planes[J].Coatings, 2018, 8(2): 51. (SCI:4区，IF=2.436)

[35]Jun Hu, Shijun He, Zhen Wang, Jianbo Zhu,Liping Wei, Zhong Chen, Stearic acid-coated superhydrophobic Fe2O3/Fe3O4 composite film on N80 steel for corrosion protection,Surface & Coatings Technology, 2019 (359): 47-54. (SCI:3区，IF=3.784)

[36]Jun Hu, Tiantian Wang, Zhen Wang,Liping Wei, Jianbo Zhu, Maosheng Zheng, Zhong Chen, Corrosion Protection of N80 Steel in Hydrochloric Acid Medium Using Mixed C15H15NO and Na2WO4 Inhibitors,Coatings, 2018, 8, 315. (SCI:4区，IF=2.436)

[37]Shijun He, Zhen Wang, Jun Hu, Jianbo Zhu,Liping Wei, Zhong Chen, Formation of superhydrophobic micro-nanostructured iron oxide for corrosion protection of N80 steel,Materials & Design, 2018, 160: 84-94. (SCI:2区，IF=6.289)

[38]Tianyu Zhao, Maoshegn Zheng, A. Munis, J. Hu, Haipeng Teng,Liping Wei. Corrosion behaviours of typical metals in molten hydrate salt of Na2HPO4 center dot 12H(2)O - Na2SO4 center dot 10H(2)O for thermal energy storage.Corrosion Engineering science and technology. 2019;54(5):379-88. (SCI:4区，IF=1.706)

[39]Jianbo Zhu, Youlong Xu, Jun Hu,Liping Wei, J.J. Liu, Maosheng Zheng, Facile synthesis of MnO2 grown on nitrogen-doped carbon nanotubes for asymmetric supercapacitors with enhanced electrochemical performance,Journal of Power Sources, 2018, 393: 135-144. (SCI:1区，IF=8.247)

[40]Jianbo Zhu, Tianyu Feng, Xianfeng Du, Jiangping Wang, Jun Hu,Liping Wei, High performance asymmetric supercapacitor based on polypyrrole/graphene composite and its derived nitrogen-doped carbon nano-sheets[J]. Journal of Power Sources, 2017, 346:120-127. (SCI:1区，IF=8.247)

[41]Youjun Lu, Liang Zhao, Qiang Han,Liping Wei, Ximin Zhang, Liejin Guo, Jinjia Wei. Minimum fluidization velocities for supercritical water fluidized bed within the range of 633–693K and 23–27MPa[J].International Journal of Multiphase Flow. 2013, 49:78-82 (SCI:3区，IF=3.083

[42]杨展玉，尹琦岭，王团亮，李玉阁，宋文明，张玉福，闫渊，魏利平*，旋流器结构对主吸收塔内流动特性的影响，过程工程学报.2023, 23 (10): 1401-1410.

Zhanyu YANG , Qiling YIN , Tuanliang WANG , Yuge LI , Wenming SONG , Yufu ZHANG, Yuan YAN, Liping WEI*,Influence of structure of swirlers onfluidfield characteristics of main absorption tower,The Chinese Journal of Process Engineering,2023, 23 (10): 1401-1410.

[43]赵世明,魏培绪,史径丞,魏利平*.船舶排气热特征求解器开发及结果影响因素分析[J].科学技术与工程, 2023, 23(23): 9794-9801

Zhao Shiming, Wei Xupei, Shi Jingcheng,Wei Liping. Development of solver for thermal characteristics of ship exhaust and analysis of influencing factors of results[J]. Science Technology and Engineering,2023,23(23):9794-9801.

[44]雷甲玺，江国栋，魏利平*，李冬．神府低阶煤热解脱挥发分行为预测及热解机理研究[J/OL]．煤炭转化.https://kns.cnki.net/kcms/detail//14.1163.tq.20230130.1737.005.html

[45]史泽洋，黄志雄，蔺俊龙，高智德，林海萍，李玉阁，宋文明，闫渊，吴峰，魏利平*，煤气化炉出口合成气携灰对管道冲蚀的数值模拟研究[J],化工设备与管道, 2022,59(6):101-106

[46]李昊琦，魏利平*，庄子贤，郑茂盛.光伏相变系统温控特性及散热结构优化设计[J],太阳能学报,2022,43(09):57-63.DOI:10.19912/j.0254-0096.tynxb.2021-0073.

Li Haoqi，Wei Liping*，Zhuang Zixian，Zheng Maosheng. Optimal design of temperature control characteristics and heat dissipation structure of photovoltaic phase change system[J]Acta Energiae Solaris Sinica,2022,43(09):57-63.

[47]周秋成，魏利平，申联星，马宝岐，我国兰炭产业发展特点分析及建议[J].煤炭加工与综合利用,2022(03):69-72

QiuchengZhou, Liping Wei, Lianxing Shen, Baoqi Ma,Development characteristics and suggestions of blue-coke industry in China,Coal Processing & Comprehensive Utilization,2022(03):69-72

[48]李煌，任海波，闫渊，魏利平*，原料天然气初级旋流净化数值模拟研究[J]，石油化工设备技术,2022,43(4): 15-20.

Huang Li, Haibo Ren, Yuan Yan, Liping Wei, Numerical investigation of cyclone separator for raw natural gas purification. Petrochemical Equipment Technology, 2022,43(4): 15-20.

[49]张兵，魏利平*，滕海鹏,隔板式内循环流化床压力脉动信号递归分析[J],化工学报，2020,71(S1):106-113.（中文EI）

Bing Zhang,Liping Wei*, Haipeng Teng, Recurrence analysis of pressure fluctuations in a clapboard-type internally circulating fluidized bed[J],CIESC Journal, 2020,71(S1):106-113.

[50]郑茂盛,刘姣姣,王怡,魏利平,滕海鹏,胡军.考虑变形硬化的管道塑性弯曲屈曲临界应变预测[J].焊管,2020,43(01):1-6.DOI:10.19291/j.cnki.1001-3938.2020.01.001.

[51]古玉宽，魏利平*，刘学良，江国栋，基于Py-GC/MS热解温度对准东煤快速热解焦油产物分布的影响，应用化工，2020，50(354):2037-2041.（中文核心）

Yukuan Gu,Liping Wei*, Xueliang Liu, Guodong Jiang, Effect of Pyrolysis Temperature on Distribution of Rapid Pyrolysis Tar Product in Zhundong coal Based on Py-GC/MS[J], Applied Chemical Industry, 2020,50(354):2037-2041.

[52]张兵，魏利平*，滕海鹏，代自潮，孙常宇,流化床压力脉动信号混沌分析研究进展[J],应用化工，2019, 48(S2) 12-21.（中文核心）

Bing Zhang,Liping Wei*, Haipeng Teng, Zichao Dai, Changyu Sun, Research Advance on Chaotic Analysis of Fluidized Bed Pressure Fluctuations [J], Applied Chemical Industry,2019, 48(S2) 12-21.

[53]魏利平，江国栋，古玉宽，滕海鹏，五彩湾煤和吐鲁番煤热解动力学模型评估与应用[J],化工学报，2019，70(S2):275-286.（中文EI）

Liping Wei, Guodong Jiang, Yukuan Gu, Haipeng Teng, Evaluation and application of pyrolysis kinetic model of Wucaiwan coal and Tulufan coal[J],CIESC Journal, 2019, 70(S2):275-286.

[54]杨棁，史嘉乐，郑茂盛，滕海鹏，胡军，魏利平，硫酸镁-硫酸铝钾混合水合盐相变储热材料防结块性研究[J].应用能源技术,2018(06):1-7.

[55]魏利平,江国栋,滕海鹏.双组分粘性颗粒相间曳力模型[J],工程热物理学报, 2018, 39(2):1-4.（中文EI）

Liping Wei, Guodong Jiang, Haipeng Teng, A particle-particle drag model foe cohesive particle flow[J],Journal of Engineering Thermophysics,2018, 39(2):1-4.

[56]江国栋,魏利平*,滕海鹏,等.基于热重法的准东煤等转化率热解动力学模型[J].化工学报, 2017, 68(4):1415-1422.（中文EI）

Guodong Jiang,Liping Wei*, Haipeng Teng, et al. A kinetic model based on TGA data for pyrolysis of Zhundong coal[J],CIESC Journal, 2017, 68(4):1415-1422.

[57]江国栋,魏利平*,吴长松,等.隔板式内循环流化床颗粒循环速率实验与模型[J].化工学报, 2017, 68(9): 3427-3433.（中文EI）

Guodong Jiang,Liping Wei*, Changsong Wu, et al. Experimental and model studies on particle circulation rate in internal circulating clapboard-type fluidized bed[J],CIESC Journal, 2017, 68(9): 3427-3433.

[58]魏利平,吕友军,魏进家.球形颗粒在超临界水中自然对流传热特性研究[J].工程热物理学报, 2014, 35(1):86-90.（中文EI）

Liping Wei, Youjun Lu, Jinjia Wei. Numerical study on free convection heat transfer from sphere particle in supercritical water[J].Journal of Engineering Thermophysics, 2014,35(1): 86-90.

[59]魏利平,吕友军,魏进家.超临界水绕单颗粒流动及传热特性研究[J].工程热物理学报, 2013, 34(2): 280-283.（中文EI）

Liping Wei, Youjun Lu, Jinjia Wei.Supercritical water flow over a spherical particle[J].Journal of Engineering Thermophysics,2013, 34(2): 280-283.

[60]魏利平,吕友军,魏进家.超临界水流化床反应器加料方式优化的数值模拟[J].工程热物理学报, 2012, 33(7):1173-1176.（中文EI）

Liping Wei, Youjun Lu, Jinjia Wei. Numerical study of optimizing feeding methods of supercritical water fluidized bed reactor[J].Journal of Engineering Thermophysics,2012, 33(7):1173-1176.

[61]魏利平,吕友军,郭烈锦.超临界水流化床内两相流特性的数值模拟研究[J].工程热物理学报, 2011, 32(5):803-806.（中文EI）

Liping Wei, Youjun Lu, Liejin Guo. Numerical simulation of two-phase flow characteristics of supercritical water fluidized bed reactor[J].Journal of Engineering Thermophysics, 2011,32(5):803-806.

[62]吕友军,韩强,赵亮,魏利平,等.超临界水流化床流动阻力特性的实验研究[J].工程热物理学报, 2011, 32(10): 1685-1687.（中文EI）

Youjun Lu, Qiang Han, Liang Zhao,Liping Wei, et al. Experimental study on pressure drop characteristics of supercritical water fluidized bed[J].Journal of Engineering Thermophysics,2011, 32(10): 1685-1687.

[63]杨展玉,尹琦岭,王团亮,李玉阁,宋文明,张玉福,闫渊,魏利平.旋流器结构对主吸收塔内流动特性的影响[J/OL].过程工程学报:1-10[2023-08-21].http://kns.cnki.net/kcms/detail/11.4541.TQ.20230515.1532.002.html.

Zhanyu YANG, Qiling YIN, Tuanliang WANG , Yuge LI,WenmingSONG, Yufu ZHANG, Yuan YAN, Liping WEI,Influence of structure of swirlers on fluid field characteristics of main absorption tower,The Chinese Journal of Process Engineering,2023,DOI: 10.12034/j.issn.1009606X.222384

[64]史泽洋,黄志雄,蔺俊龙等.煤气化炉出口合成气携灰对管道冲蚀的数值模拟研究[J].化工设备与管道, 2022, 59 (06): 89-95

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更新于2025/11/14