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王燕鸿


王燕鸿



副研究员

地址:  广州市五山路381号华南理工大学逸夫工程馆208

邮编:510640

电话: +86-020-87110453

邮箱:   wyh@scut.edu.cn


教育背景


1997.09 —2001.07  天津大学化工学院 本科

2003.09 — 2005.08  天津大学化工学院   硕士

2005.09 — 2008.07 天津大学化工学院博士


工作经历


2008.07 — 2013.08  华南理工大学化学与化工学院讲师

2017.9-2018.9  美国科罗拉多矿业大学访问学者

2013.09 — 至今  华南理工大学化学与化工学院副研究员

奖励与荣誉

2014  中国石油和化学工业联合会科学技术奖二等奖

2014  中国石油和化学工业联合会科学技术奖三等奖

主持项目

2022.3-2025.3   广州市重点研发计划,船载可燃冰样品分析系统与产能评价装备

2019.1-2022.12 国家自然科学基金,高含氢二元水合物制备及低压保存机制研究;

2012.01 —2014.12  国家自然科学基金  酰胺基在水合物动力学抑制剂中作用及抑制机理的模拟研究

       2016.07 — 2020.12国家重点研发项目  水合物在线快速评价技术

      2016.06 — 2019.06广东省自然科学基金项目  季铵盐类物质在水合物成核与生长过程中的作用研究

      2013.07 — 2015.06 中国石油科技创新基金  烟气置换开采天然气水合物研究

      2016.10 — 2018.09 中国石油科技创新基金  注含CO2混合气置换联合注热法开采天然气水合物

      2013.01 — 2014.12 中央高校基本科研业务费  水合物法CO2捕获过程中的强化传热传质研究

      2015.07 — 2017.06 中央高校基本科研业务费  季铵盐类物质在水合物成核与生长过程中的作用研究

     2010.01 — 2-11.12 中央高校基本科研业务费  低剂量水合物组合抑制剂抑制机理研究

研究成果

       在国内外重要学术期刊共发表论文125篇,其中SCI收录90篇(其中第一作者/通讯作者30+篇),EI收录18篇。被他人学术论文引用次数 2397次,(SCI他引为2200次)。个人SCI H因子为27。出版专著1本《天然气利用新技术》。第一发明人授权发明专利7项。

一作/通讯文章如下:

1.Chen,S.; Wang, Y.*; Fan, S.; Lang, X.; Li, G., An Innovative Nucleation Method forHigh and Rapid Hydrogen Storage Based on Clathrate Hydrates. Journal ofMaterials Chemistry A 2024, 12, 11424-11438.

2.Li,M.; Fan, S.; Wang, Y.*; Lang, X.; Cheng, P.*, Heterogeneous Nucleation of Co2Hydrate: A Thermodynamics Analysis Considering Effects of Wall Characteristicsand Solution Activity. International Journal of Heat and Mass Transfer 2024,224:125285

3.Chen,S.; Wang, Y.*; Fan, S.; Lang, X.; Li, G., Intriguing phenomenon ofhydrogen molecules occupancy in clathrate hydrate cages_ Implications forhydrogen storage, Chemical Engineering Journal, 2024, 499 :156089

4.YaxueZhang, Shuanshi Fan*, Yanhong Wang*, Xuemei Lang, Gang Li, Enhancedmethane hydrate formation through lignocellulose fiber, Fuel, 2024, 380:133194

5. Xu,Z.; Lang, X.; Fan, S.; Li, G.; Wang, Y., Design and Optimization of CarbonDioxide Storage Technology: Energy Efficiency and Economic Analysis. Energy& Fuels 2024, 38, 7108-7120.

6.  Chen,S.Y., Wang, Y.H., Lang, X.M., Fan, S.S. and Li, G. Phase Equilibrium ofHydrogen Clathrate Hydrates with Propylene Oxide and 1,2-Epoxycyclopentane.Journal of Chemical and Engineering Data, 2023,68: 1184-1190.

7. Chen,S., Wang, Y., Lang, X., Fan, S. and Li, G. Rapid and high hydrogen storage inepoxycyclopentane hydrate at moderate pressure. Energy, 2023, 268: 126638

8. Wang,Y., Zhou, Y., Fan, S., Lang, X., and Li, G., Influence of low temperatureoxidation on heavy oil coking by thermal pyrolysis during in situ combustionprocess. Fuel, 2022. 316:123314.

9. Fan S,Long X, Lang X, et al. CO2 Capture from CH4/CO2 MixtureGas with Tetra-n-Butylammonium Bromide Semi-clathrate Hydrate Through PressureRecovery Method[J]. 2016, 30(10).

10. Li, M., Fan, S., Wang, Y., Lang, X., Li,G., Wang, S., and Yu, C., Effect of surface curvature and wettability onnucleation of methane hydrate. Aiche Journal, 2022. 68(10):e17823

11. Wang, Yanhong; Yin, Kaidong; Fan,Shuanshi;  Lang, Xuemei;  Yu, Chi; Wang Shenglong; Li, Song, Themolecular insight into the “Zeolite-ice” ashydrogen storage material. Energy 2021, 217, 119406.

12. Yanhong Wang, Xin Li, Shuanshi Fan,Shenglong Wang*, Xuemei Lang*,  Chi Yu, Cyclopentane Hydrate CrystalGrowth Behavior at the Three-Phase Interface with the Presence of Fine-GrainedSediments, Energy & Fuels  2021, 35, 2, 1433-1441

13. Wang, Yanhong; Yin, Kaidong; Fan,Shuanshi;  Lang, Xuemei; Gang Li; Chi Yu; Shenglong Wang. Hydrogenstorage in sH binary hydrate: Insights from molecular dynamicssimulation[J].International Journal of Hydrogen Energy, 2021,46(29):15748-15760

14.王燕鸿,姚凯,郎雪梅,樊栓狮.高含水油包水乳液的水合物储气性能研究[J/OL].化工学报

15. Yanhong Wang, Shuanshi Fan, XuemeiLang. Reviews of gas hydrate inhibitors in gas-dominant pipelines andapplication of kinetic hydrate inhibitors in China. Chinese Journal of ChemicalEngineering, 2019 27: 2118–2132 

16.Jing Qi, Yanhong Wang,* Shuanshi Fan,Xuemei Lang, Qi Li, Gang Li, and Jianbiao Chen, Hydrate EquilibriumMeasurements for CH4 and CO2/CH4 Mixture in the Presence of Single 2‑Methyl-2-propanoland 1,1-Dichloro-1- fluoroethane, J. Chem. Eng. Data 2018, 63, 3145−3149

17. Xu P, Lang X, Fan S, et al. MolecularDynamics Simulation of Methane Hydrate Growth in the Presence of the NaturalProduct Pectin[J]. Journal of Physical Chemistry C, 2016, 120(10).

18.Xu S, Fan S, Fang S, et al. Pectin as anExtraordinary Natural Kinetic Hydrate Inhibitor[J]. Scientific Reports, 2016,6:23220.

19. Xu S, Fan S, Wang Y, et al. AnInvestigation of Kinetic Hydrate Inhibitors on the Natural Gas from the SouthChina Sea[J]. Journal of Chemical & Engineering Data, 2015, 60(2):311-318

20.Wang Y, Lang X, Fan S. Hydrate capture CO2 fromshifted synthesis gas, flue gas and sour natural gas or biogas[J]. 能源化学(英文版), 2013, 22(1):39-47.

21.Yang H, Fan S, Lang X, et al. HydrateDissociation Conditions for Mixtures of Air + Tetrahydrofuran, Air +Cyclopentane, and Air + Tetra-n-butyl Ammonium Bromide[J]. Journal of Chemical& Engineering Data, 2012, 57(4):1226–1230

22.王燕鸿, 陈玉娟, 包玲,等. 聚乙烯唑啉作用下甲烷水合物分解的分子动力学模拟[J]. 物理化学学报,2012, 28(7):1683-1690.

23.Wang Y, Lang X, Fan S. Acceleratednucleation of tetrahydrofuran (THF) hydrate in presence of ZIF-61[J]. 能源化学(英文版), 2012, 21(3):299-301.

24.Zhang G B, Fan S S, Lang X M, et al.Process Simulation Research of CH4/N2 Separation[J].Advanced Materials Research, 2011, 403-408:585-592

25.Yang H, Fan S, Lang X, et al. EconomicComparison of Three Gas Separation Technologies for CO2 Capturefrom Power Plant Flue Gas[J]. 中国化学工程学报(英文版), 2011, 19(4):615-620.

26.Yang L, Fan S, Wang Y, et al. AcceleratedFormation of Methane Hydrate in Aluminum Foam[J]. Industrial & EngineeringChemistry Research, 2011, 50(20):11563-11569.

27.Yang H, Fan S, Lang X, et al. PhaseEquilibria of Mixed Gas Hydrates of Oxygen + Tetrahydrofuran, Nitrogen +Tetrahydrofuran, and Air + Tetrahydrofuran[J]. Journal of Chemical &Engineering Data, 2014, 56(11).