王澄海
高等学校教师
教授, 男,博士,兰州大学“萃英学者”二级教授,博士生导师。甘肃省高等学校教学名师,甘肃省优秀专家,全国气象教学名师,甘肃省气候资源与防灾减灾重点实验室主任。泰国兰泰恒大学客座教授。中国气象局兰州干旱气象研究所客座研究员(2014.1—);冻土工程国家重点实验室客座研究员(2003-2005年)。兰州大学教育学院兼职硕士生导师。第一、二届全国气候与气候变化标准化技术委员会委员;全国气候与气候变化标准化技术委员会风能太阳能气候资源分技术委员会委员(SAC/TC540/SC2);CNC-CliC/IACS 委员;中国气象学会动力气象委员会委员;中国气象学会统计预报委员会委员;中国气象学会气候变化与低碳发展委员会;中国气象学会第27届干旱气象委员会委员;甘肃省气象学会第十届气候与气候变化委员会副主任委员。WCRP_CN委员会委员;IUGG-IACS中国委员会委员(2012-2015);甘肃省第五届工程决策咨询专家(2012.1—2016.12);甘肃省青少年科技创新大赛评审委员会委员(2012-2016);《Sciences in Cold and Arid Regions》(创刊—2013年);《冰川冻土》,《干旱气象》 杂志编委。《Frontiers》Editorial Board Members。
人物简介
男,博士教授博士生导师甘肃省高等学校教学名师甘肃省优秀专家,全国气象教学名师[2]。泰国兰泰恒大学客座教授中国气象局兰州干旱气象研究所客座研究员(2014.1—);冻土工程国家重点实验室客座研究员(2003-2005年)。兰州大学教育学院兼职硕士生导师。第一届全国气候与气候变化标准化技术委员会委员;全国气候与气候变化标准化技术委员会风能太阳能气候资源分技术委员会委员(SAC/TC540/SC2);CNC-CliC/IACS 委员;中国气象学会动力气象委员会委员;中国气象学会统计预报委员会委员;中国气象学会气候变化与低碳发展委员会;中国气象学会第27届干旱气象委员会委员;甘肃省气象学会第十届气候与气候变化委员会副主任委员。WCRP_CN委员会委员;IUGG-IACS中国委员会委员(2012-2015);甘肃省第五届工程决策咨询专家(2012.1—2016.12);甘肃省青少年科技创新大赛评审委员会委员(2012-2016);《Sciences in Cold and Arid Regions》(创刊—2013年);《冰川冻土》,《干旱气象》 杂志编委。《Frontiers》Editorial Board Members。
入选2023年中国工程院院士增选有效候选人。
研究方向
季风、干旱区气候、数值模式和模拟,寒区气候学,风(光)电功率预测,气候预测;
出版图书
学术获奖
已发表科研论文200余篇,教育教学论文5篇;著有《大气数值模式及模拟》、《气候变化与荒漠化》、《Climatology in Cold Regions》、《数值天气预报基础》、《数值天气预报习题集》。主持完成国家自然基金重点项目2项,主持完成国家自然基金多项;参加国家“973”项目、气象行业专项各1项。主持完成甘肃省科技进步奖一项,中国气象学会教学成果奖一项。甘肃省优秀硕士,兰州大学优秀博士论文指导教师,培养硕士生30余名,博士生10余名和博士后多名。
主要论文
1.Wang Chenghai, Bao Yue, Li Ruoling, Bao Hongyan, Impacts of the Asia-Australia Dipole and ENSO on climate variability in Asia-Australia region,International Journal of Climatology, DOI:10.1002/JOC4625
2.Shi Hongxia, Wang Chenghai, Projected 21st century changes in snow water equivalent over Northern Hemisphere landmasses from the CMIP5 model ensemble. The Cryosphere. 9, 2135-2166, 2015. doi:10.5194/tc-9-1-2015
3.Wang W, A. Rinke, J. More, X. Cui, D. Ji, Q. Li, N. Zhang, Ch. Wang, Sh. Zhang, D.M. Lawrence, A.D. McGuire, W. Zhang, C. Delire, C. Koven, K. Saito, A. MacDougall, and E.2016. Burke, Diagnostic and model dependent uncertainty of simulated Tibetan permafrost area, The Cryosphere, 10, 287–306, doi:10.5194/tc-10-287-2016
4.Wang, C. H., H. X. Shi, H. L. Hu, Y. Wang, and B. Xi, 2015: Properties of cloud and precipitation over the Tibetan Plateau. Adv. Atmos. Sci., 32(11), 1504–1516, doi: 10.1007/s00376-015-4254-0.
5.Yi Wang, Chenghai Wang. The Features of Clouds and Convection before and after Monsoon Onset. Theo.& Appl.Clim. 1-4. DOI: 10.1007/s00704-015-1372-7.
6.Zhang F, Yang Yi, Chenghai Wang,2015. The Improvement Experiments of Assimilating ATOVS Radiances on forecasted Near-Surface Wind with WRF-3DVAR. Mon.Wea.Rev. 143(1)153-164. DOI:10.1175/MWR-D-14-00038.
7.WANG Chenghai, Guo Yipeng, 2014. Trends in Precipitation Recycling over the Qinghai-Xizang Plateau in Last Decades. Journal of Hydrology, 517.PP: 826-835. DOI: 10.1016/j.jhydrol.2014.06.006 .
8.Wang Chenghai,Jin Shuanglong,2013.The Features of the Errors and their Possible Causes from a Low-level Wind Field Simulated by WRF. Wind Energy. DOI: 10.1002/we.1635
9.Hui Tian, Jun Wen, Cheng-hai Wang et al. Effect of pixel scale on Evapotranspiration estimation by remote sensing over oasis areas in north-western China, Environmental Earth Sciences, 2012, doi: 10.1007/s12665-012-1677-0.
10.TIAN Hui, WANG Cheng-Hai, WEN Jun, WANG Xin, LU Deng-Rong, L? Shao-Ning.Soil moisture estimation over an arid environment in Mongolia from passive microwave remote sensing based on a simplified parameterization method. Chinese J. Geophys.
11.WANG Chenghai, Guo Yipeng, 2012, Precipitable water conversion rates over the Qinghai-Xizang (Tibet) Plateau: changing characteristics with global warming, Hydrological Processes. 26, 1509–1516.DOI: 10.1002/ hyp.8246, 26,
12.Wang, C. H., L. Yu, and B. Huang, 2012: The impact of warm pool SST and general circulation on increased temperature over the Tibetan Plateau. Adv. Atmos. Sci., 29(2), 274-284, DOI: 10.1007/s00376-011-1034-3.
13.Wang Chenghai, Zhifu Zhang, Wenshou Tian, 2011, Factors Affecting The Surface Radiation Trends Over China Between 1960-2000. Atmospheric Environment. 45. 2379-2385, 10.1016/ j.atmosenv.2011.02.028
14.Wang Chenghai, XZ Liang, A,Samel, 2011, AMIPII GCMs Simulations of East China precipitation Seasonal and interannual Variation. Journal of Climate, 24(8). 2116-2133. doi: 10.1175/2011JCLI3631.1
15.Wang Chenghai , Cui Yang, Jin Shuanglong, 2010. Oscillation Propagation Features of Atmosphere around the Qinghai-Xizang Plateau during the Spring Season of Typical Strong and Weak Monsoon Years. SCIENCE CHINA Earth Sciences 54(2): 305-314, DOI: 10.1007/s11430-010-4113-x
16.CUI Yang,WANG Cheng-hai,2009.Comparison of sensible and latent heat fluxes from reanalysis datasets during the transition season over the western Tibetan Plateau. Progress in Nature Science.19(6): 719-726. DOI: 10.1016/j.pnsc.2008.11.001
17.Li Xin, Huang Chunlin, Che Tao,Jin Rui, Wang Shugong,Wang Jiemin, Gao Feng, Zhang Shuwen, Qiu Chongjian,Wang Chenghai. 2007.Development of a Chinese land data assimilation system: its progress and prospects. Progress in Natural Science.17(8):881-892
18.Wang Chenghai, Dong wenjie, Wei zhigang,2003.Study on Relationship between Freezing-Thawing Processes of the Qinghai-Tibet Plateau and the Atmospheric Circulation over East Asia,Chinese Journal of Geophysics. 46(3):438-441. DOI:10.1002/cjg2.3361.
19.Wang C.-H., W.-J. Dong and Z.-G.Wei, 2002.Anomaly feature of seasonal frozen soil variance on the Qinghai-Tibet Plateau, JOURNAL OF GEOGRAPHICAL SCIENCES. Vol.12 (1): 99-107, DOI: 10.1007/BF02837433
20.Wang C.-H, S.-G.Wang, D.-B.Yang, A.-X.Dong, 2003, The correlation between the Pacific sea surface temperature(SST) and precipitation over NW China. J. Tropical Meteorology. Vol.9(1):64-73.
21.Meixue Yang, Tandong Yao, Fresderick Nelson, Nikolay I Shiklomanov, Donglin Guo, Chenhai Wang, 2008, Snow cover and depth of freeze-thaw on the Tibet Plateau: a case study from 1997 to 1998. Physical Geography, 29(3):208-221
最新修订时间:2024-09-03 13:46
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