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管长龙

发布者:李星锐发布时间:2021-12-02浏览次数:13039

长龙


教授

中国海洋大学 公海欢迎来到赌船

青岛市松岭路238号,266100

电话:+86-532-66782192

E-mailclguan@ouc.edu.cn


教育经历:

1980/09-1984/07  吉林大学 物理学 学士

1984/09-1987/07  吉林大学 理论物理学 硕士

1989/09-1992/07  青岛海洋大学 物理海洋学 博士


工作经历:

1987/08-1989/08 青岛化工学院基础部  助教

1992/07-1994/11 青岛海洋大学物理海洋研究所  讲师

1994/12-1997/11 青岛海洋大学物理海洋研究所  副教授

1997/12至今    青岛海洋大学海洋环境学院  教授

1995/10-1996/08 法国土伦大学地球环境遥感实验室  博士后

2002/09-2003/10 美国北卡罗莱纳州立大学  高级访问学者


主要项目:

  1. 2016/07-2020/12,国家重点研发计划重点专项课题“全球高分辨海浪数值预报系统研制”(2016YFC140140005),188万,主持

  2. 2013/01-2016/12,国家自然科学基金面上项目“热分层水槽中波浪混合的实验研究”(41276010),85万,主持

  3. 2011/01-2013/12,国家科技支撑计划课题“全球海面典型环境要素数值预报关键技术研究”(2011BAC03B01),489万,主持

  4. 2009/01-2012/12,国家自然科学基金重点项目“风浪对大气边界层的影响及其在海气交换中的作用”(40830959),165万,主持

  5. 2006/11-2009/11,国家科技支撑计划课题“近海重大海洋灾害预警技术研究”(2006BAC03B01),700万,主持

  6. 2005/11-2010/11,国家重点基础研究发展计划(973)课题“海上重要活动的海洋物理环境保障”(2005CB422307),171.43万,主持

  7. 2005/01-2007/12,国家自然科学基金面上项目“风浪破碎对海洋上混合层影响的研究”(40476008),34.0万,主持

  8. 2004/01-2005/12,国家科技攻关计划课题“业务化海浪数值预报模式的研制”(2004BA603B-01),200万,主持

  9. 2001/01-2003/12,国家科技攻关计划课题“业务化海浪数值预报模式的研制”(2001BA603B-01),314万,副主持

  10. 2001/01-2004/12,国家高技术研究发展计划(863)课题“模块化巨浪遥感信息提取与复合分析技术”(2001AA633070),100万,副主持

  11. 2001/01-2003/12,国家自然科学基金面上项目“海浪状态对卫星高度计海况偏差的影响机制”(40076003),20万,主持

  12. 1998/10-2000/12,国家高技术研究发展计划(863)青年基金项目“利用伴随方法同化多源遥感信息优化海面风场和海流场技术及应用”(818-Q-05),20万,主持

  13. 1997/01-1999/12,国家自然科学基金面上项目“非线性海浪波要素统计分布的研究”(49676274),9万,主持

  14. 1995/01-1997/12,山东省自然科学基金重点项目“黄渤海近岸浪--水位的耦合模式研究与应用”(Z94E0106),6万,主持


代表文章:

  1. Liu, Q., A. V. Babanin, S. Zieger, I. R. Young, C. Guan, 2016. Wind and wave climate in the Arctic Ocean as observed by altimeters. J. Clim., 29(11), 7957-7975, DOI: 10.1175/JCLI-D-16-0219.1

  2. Liu, Q., A. V. Babanin, C. Guan*, S. Zieger, J. Sun, and Y. Jia, 2016. Calibration and validation of HY-2 altimeter wave height. J. Amos. Ocean. Technol., 33(5), 919-936, DOI: 10.1175/JTECH-D-15-0219.1

  3. Wang, W., P. Forget, and C. Guan, 2016. Inversion and assessment of swell waveheights from HF radar spectra in the Iroise Sea. Ocean Dynamics, 66,DOI 10.1007/s10236-016-0941-3

  4. Liu, B., C. Guan*, L. Xie, and D. Zhao, 2015. Derivation of a wave-state-dependent sea spray generation function and its application in estimating sea spray heat flux. Science China: Earth Sciences, 58, 1862–1871, doi: 10.1007/s11430-015-5169-4

  5. Wang, W., P. Forget, and C. Guan, 2014. Inversion of swell frequency from a 1-year HF radar dataset collected in Brittany (France). Ocean Dynamics, 64(10), 1447-1456. DOI: 10.1007/s10236-014-0759-9

  6. Shao, W., X. Li, S. Lehner, and C. Guan, 2014. Development of TerraSAR-X Polarization Ratio Model for sea surface wind field retrieval. Int.J. Remote Sens., 35(11-12), 4046-4063, DOI: 10.1080/01431161.2014.916059

  7. 管长龙, 张文清, 朱冬琳, 魏来, 2014.上层海洋中浪致混合研究评述——研究进展及存在问题. 中国海洋大学学报, 44(10), 20-24

  8. Li, R., L. Xie, B. Liu, and C. Guan, 2013. On the sensitivity of hurricane storm surge simulation to domain size. Ocean Model., 67, 1-12. DOI: 10.1016/j.ocemod.2013.03.005

  9. Liu, B., C. Guan*, and L. Xie, 2012. The wave state and sea spray related parameterization of wind stress applicable from low to extreme winds. J.Geophys.Res., 117, C00J22, doi: 10.1029/2011JC007786

  10. Liu, B., C. Guan*, L. Xie, and D. Zhao, 2012. Investigating the effects of wave state and sea spray on an idealized typhoon using an air-sea coupled modeling system. Adv. Atmos. Sci., 29(2), 391-406

  11. Liu, B., H. Liu, L. Xie, C. Guan, and D. Zhao, 2011. A coupled atmosphere-wave-ocean modeling system: Simulation of the intensity of an idealized tropical cyclone. Mon. Wea. Rev., 139, 132-152

  12. Yu, T., G. Han, C. Guan, and Z. Deng, 2010. Several important issues in salinity quality control of Argo float. Marine Geodesy, 33, 424-36

  13. Xie, L., B. Liu, H. Liu, and C. Guan, 2009. Numerical simulation of tropical cyclone intensity using an air-sea-wave coupled prediction system. Adv. Geosci., 18(OS), 19-43

  14. Liu, B., K. Wu, and C. Guan*, 2007. Global estimates of wind energy input to subinertial motions in the Ekman-Stokes layer. J. Oceanogr., 63(3), 457-466

  15. Guan, C., W. Hu, J. Sun and R. Li, 2007. The whitecap coverage model from breaking dissipation parametrizations of wind waves. J. Geophys. Res., 112, C05031, doi:10.1029/2006JC003714

  16. Guan, C. and L. Xie, 2004. On the linear parameterization of drag coefficient over sea surface. J. Phys. Oceanogr., 34(12), 2847-2851

  17. Guan, C. and J. Sun, 2004. Similarities of some wind input and dissipation source terms. China Ocean Engineering, 18(4), 629-642

  18. Guan, C. and Q. Sun, 2002. Analytically derived wind wave growth relations. China Ocean Engineering, 16(3), 359-368

  19. Luo, Y., C. Guan and D. Wu, 2002. An eta-coordinate version of the Princeton Ocean Model. J. Oceanogr., 58(4), 589-597

  20. 管长龙, 2000. 我国海浪理论及预报研究的回顾与展望. 青岛海洋大学学报, 30(4), 549-556

  21. Guan, C., V. Rey, and P. Forget, 1999. Improvement of the WAM wave model and its application to the Rhone River Mouth area.J. Coast. Res., 15(4): 966-973

  22. Zhang, S., F. Sun, and C. Guan, 1999. On the joint distribution of surface slopes for the fourth order nonlinear random sea waves. Science in China, Ser. E, 42(5), 449-455

  23. Guan, C., 1998. The statistical distribution of the horizontal velocities of water particles at wave surface maxima. China Ocean Engineering,12(3), 359-364

  24. Guan, C. and F. Sun, 1997. Statistical distribution of surface elevation for the fourth order nonlinear random sea waves. Science in China, Ser. D, 40(6), 605-612


科研奖励:

  1. 2001年,“海浪统计理论与海浪谱研究”,中国高校自然科学一等奖(第2位)

  2. 2002年,“长江口海域波浪分析研究”,海洋创新成果二等奖(第4位)

  3. 2015年,“全球业务化海洋学预报系统与应用”,海洋科学技术奖(第3位)


学术兼职:

  1. 1997/07-2000/07 国际船舶与海洋工程大会(ISSC)环境委员会委员

  2. 2000/01-2002/12《黄渤海海洋》编委

  3. 2005/05至今  《中国海洋大学学报》(中英文版)编委

  4. 2007/09至今   中国海洋工程学会理事

  5. 2010.08-2015.12 国家海洋局海洋灾害预报技术研究重点实验室(国家海洋环境预报中心)学术委员会副主任委员

  6. 2010.04至今    教育部应急管理咨询专家组(自然灾害领域)成员

  7. 2011.06至今    《海洋预报》编委

  8. 2011.06-2016.12  热带海洋环境国家重点实验室(中国科学院南海海洋研究所)学术委员会委员

  9. 2016.01至今    国家海洋局海洋灾害预报技术研究重点实验室(国家海洋环境预报中心)学术委员会委员


讲授课程:

《海浪理论与计算原理》(研究生课程);《海洋要素计算与预报》(本科生课程);《海洋波动》,研究生课程(可英文授课)


研究兴趣:

海浪数值模拟与动力学;小尺度海-气相互作用;海浪的混合作用;近岸浪-流相互作用




Changlong GUAN


Professor

College of Oceanic and Atmospheric Sciences

Ocean University of China

238 Songling Rd, Qingdao 266100, China

Tel: +86-532-66782192

Email:clguan@ouc.edu.cn


Education

09/1980-07/1984, B.S. in Physics, Jilin University, China

09/1984-07/1987, M.S. in Theoretical Physics, Jilin University, China

09/1989-07/1992, Ph.D. in Physical Oceanography, Ocean University of Qingdao, China


EXPERIENCE

08/1987-08/1989, Assistant Professor, Qingdao Institute of Chemical Technology, China

07/1992-present, Lecturer, Associate Professor, Professor, Ocean University of China (Qingdao)

10/1995-08/1996, Post-doc, Laboratory of Remote Sensing for Terrestrial Environment, CNRS, University of Toulon, France

09/2002-10/2003, Senior Visiting Scholar, Dept. of Marine, Earth and Atmospheric Sciences, North Carolina State University, USA


pRINCIPAL RESEARCH PROJECTS

  1. 07/2016-12/2020, Numerical forecast system for global wave with high resolution, supported by Ministry of Science and Technology (MOST), China, chief PI

  2. 01/2013-12/2016, Experimental study on wave-induced mixing in a laboratory thermo-stratified tank, supported by the National Natural Science Foundation of China (NSFC), chief PI

  3. 01/2011-12/2013, Numerical forecast techniques for global sea surface wind and wave, supported by MOST, chief PI

  4. 01/2009-12/2012, The effects of wind waves on marine atmospheric boundary and air-sea exchange, supported by NSFC, chief PI

  5. 11/2006-11/2009, The predicting and warning techniques for major offshore marine disasters, supported by MOST, chief PI

  6. 11/2005-11/2010, The techniques of marine physical environment services to marine activities, supported by MOST, chief PI

  7. 10/2005-12/2007, The effect of wave breaking on mixed layer in upper ocean, supported by NSFC, chief PI

  8. 01/2001-12/2005, The operational numerical wave forecast models, supported by MOST, PI and then chief PI

  9. 01/2001-12/2004, Modular retrieval and fusion analysis to remote sensing data of huge waves, supported by MOST, PI

  10. 01/2001-12/2003, The effect of wave development state on sea state bias of satellite altimetry, supported by NSFC, chief PI

  11. 10/1998-12/2000, Optimization of sea surface wind and current by adjoint assimilation of multi-source remote sensing data, supported by MOST, chief PI

  12. 01/1997-12/1999, Statistical characteristics of nonlinear sea waves, supported by NSFC, chief PI

  13. 01/1995-12/1997, The coupled wave-current-water level model and its application to coastal Bohai and Yellow Seas, supported by the Natural Science Foundation of Shandong Province, China, chief PI


Selected REFEREED PUBLICATIONS

  1. Liu, Q., A. V. Babanin, S. Zieger, I. R. Young, C. Guan, 2016. Wind and wave climate in the Arctic Ocean as observed by altimeters. J. Clim., 29(11), 7957-7975, DOI: 10.1175/JCLI-D-16-0219.1

  2. Liu, Q., A. V. Babanin, C. Guan*, S. Zieger, J. Sun, and Y. Jia, 2016. Calibration and validation of HY-2 altimeter wave height. J. Amos. Ocean. Technol., 33(5), 919-936, DOI: 10.1175/JTECH-D-15-0219.1

  3. Wang, W., P. Forget, and C. Guan, 2016. Inversion and assessment of swell waveheights from HF radar spectra in the Iroise Sea. Ocean Dynamics, 66,DOI 10.1007/s10236-016-0941-3

  4. Liu, B., C. Guan*, L. Xie, and D. Zhao, 2015. Derivation of a wave-state-dependent sea spray generation function and its application in estimating sea spray heat flux. Science China: Earth Sciences, 58, 1862–1871, doi: 10.1007/s11430-015-5169-4

  5. Wang, W., P. Forget, and C. Guan, 2014. Inversion of swell frequency from a 1-year HF radar dataset collected in Brittany (France). Ocean Dynamics, 64(10), 1447-1456. DOI: 10.1007/s10236-014-0759-9

  6. Shao, W., X. Li, S. Lehner, and C. Guan, 2014. Development of TerraSAR-X Polarization Ratio Model for sea surface wind field retrieval. Int.J. Remote Sens., 35(11-12), 4046-4063, DOI: 10.1080/01431161.2014.916059

  7. Guan, C., W. Zhang, D. Zhu, and L. Wei, 2014.Review of research on surface wave induced mixing in upper ocean layer: Progress and existing problems. Period. Ocean Univ. China, 44(10), 20-24 (in Chinese with English abstract)

  8. Li, R., L. Xie, B. Liu, and C. Guan, 2013. On the sensitivity of hurricane storm surge simulation to domain size. Ocean Model., 67, 1-12. DOI: 10.1016/j.ocemod.2013.03.005

  9. Liu, B., C. Guan*, and L. Xie, 2012. The wave state and sea spray related parameterization of wind stress applicable from low to extreme winds. J.Geophys.Res., 117, C00J22, doi: 10.1029/2011JC007786

  10. Liu, B., C. Guan*, L. Xie, and D. Zhao, 2012. Investigating the effects of wave state and sea spray on an idealized typhoon using an air-sea coupled modeling system. Adv. Atmos. Sci., 29(2), 391-406

  11. Liu, B., H. Liu, L. Xie, C. Guan, and D. Zhao, 2011. A coupled atmosphere-wave-ocean modeling system: Simulation of the intensity of an idealized tropical cyclone. Mon. Wea. Rev., 139, 132-152

  12. Yu, T., G. Han, C. Guan, and Z. Deng, 2010. Several important issues in salinity quality control of Argo float. Marine Geodesy, 33, 424-36

  13. Xie, L., B. Liu, H. Liu, and C. Guan, 2009. Numerical simulation of tropical cyclone intensity using an air-sea-wave coupled prediction system. Adv. Geosci., 18(OS), 19-43

  14. Liu, B., K. Wu, and C. Guan*, 2007. Global estimates of wind energy input to subinertial motions in the Ekman-Stokes layer. J. Oceanogr., 63(3), 457-466

  15. Guan, C., W. Hu, J. Sun and R. Li, 2007. The whitecap coverage model from breaking dissipation parametrizations of wind waves. J. Geophys. Res., 112, C05031, doi:10.1029/2006JC003714

  16. Guan, C. and L. Xie, 2004. On the linear parameterization of drag coefficient over sea surface. J. Phys. Oceanogr., 34(12), 2847-2851

  17. Guan, C. and J. Sun, 2004. Similarities of some wind input and dissipation source terms. China Ocean Eng., 18(4), 629-642

  18. Guan, C. and Q. Sun, 2002. Analytically derived wind wave growth relations. China Ocean Eng., 16(3), 359-368

  19. Luo, Y., C. Guan and D. Wu, 2002. An eta-coordinate version of the Princeton Ocean Model. J. Oceanogr., 58(4), 589-597

  20. Guan, C., 2000. A review of history and prospect for study of sea wave theory and its forecast in China. Period. Ocean Univ. Qingdao, 30(4), 549-556 (in Chinese with English abstract)

  21. Guan, C., V. Rey, and P. Forget, 1999. Improvement of the WAM wave model and its application to the Rhone River Mouth area.J. Coast. Res., 15(4): 966-973

  22. Zhang, S., F. Sun, and C. Guan, 1999. On the joint distribution of surface slopes for the fourth order nonlinear random sea waves. Science in China, Ser. E, 42(5), 449-455

  23. Guan, C., 1998. The statistical distribution of the horizontal velocities of water particles at wave surface maxima. China Ocean Eng.,12(3), 359-364

  24. Guan, C. and F. Sun, 1997. Statistical distribution of surface elevation for the fourth order nonlinear random sea waves. Science in China, Ser. D, 40(6), 605-612


Awards

  1. Natural Science Award, Ministry of Education, China, 2001

  2. Marine Science Innovation Award, State Oceanic Administration, China, 2002

  3. Marine Science and Technology Award, State Oceanic Administration, China, 2015


PROFESSIONAL SERVICES

  1. 07/1997-07/2000, member of Environment Committee, the International Ship and Offshore Structures Congress (ISSC)

  2. 01/2000-12/2002, Journal of Yellow and Bohai Seas Oceanology, associate editor

  3. Since 05/2005, Journal of Ocean University of China, and Periodical of Ocean University of China (in Chinese), associate editor

  4. Since 07/2007, member of Chinese Ocean Engineering Society

  5. Since 06/2011, Marine Forecasts, associate editor


Courses

  1. Ocean Wave Theory and Calculation Principle, for graduate students (in Chinese)

  2. Computation and Forecast of Ocean Waves, for undergraduate students (in Chinese)

  3. Waves in the Ocean, for graduate students in Chinese or English


Research Interests

Dynamics and modeling of wind-generated waves; Wave-current interaction in coastal seas; Air-sea interaction; Surface gravity wave-induced mixing in upper ocean



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