1) Southwest jet
西南急流
1.
Due to the dynamic effect of the cold air in the north and the thermal effect caused by the southwest jet, the temperature of surface raised, the humidity enhanced and the gradient piled up, then the developed convection lead to downward momen.
本文对 2003 年 4 月 16 ~ 17 日发生在浙北沿海的一次 10 ~ 11 级南大风过程进行了诊断分析: 发现入海高压的稳定维持和西面低值系统的发展是造成南大风的直接原因,北面冷空气的动力作用和西南急流引起热力降压作用,使地面增温、增湿、梯度堆积,并引起对流发展,使高空动量下传,有利于南大风的出现。
2) low level southwest jet
低空西南急流
3) souther jet
南风急流
4) westerly jet
西风急流
1.
Based on a new climate variability theory “Energy complement each other and balance between westerly jet in winter and subtropical high in summer ”presented by the author in this paper, the flood and drought prediction in China from 1997 to 2001 had been completed.
根据作者提出的气候变化理论“冬季西风急流与夏季副热带高压的能量互补与平衡”对1997~2001年夏季旱涝进行了预测试验。
2.
The significant impact of heating fields on the upper-tropospheric westerly jet has been revealed in much previous research,but little effort has been paid on differentiating the relative contribution of various heating fields over tropical and subtropical regions.
利用NCEP/NCAR月平均再分析资料,采用奇异值分解方法分析200 hPa纬向风场与东亚地表加热场的空间耦合变化特征,揭示影响东亚副热带西风急流位置及强度变化的加热关键区域。
3.
In this paper, westerly jet, storm track and baroclinic wave packets of upper troposphere in the Northern Hemisphere at summer of 1980?1998 are analyzed by using NCEP/NC.
分析了 1998年夏季北半球的西风急流、风暴轴、以及对流层上层的斜压波活动与气候平均情况的异同 ,并揭示了1998年夏季北半球斜压波活动传播的主要区域、斜压波活动的持续性、斜压波向东传播的速度以及斜压波传播时所具有的明显的下游效应 。
5) West Asian westerly jet stream
西亚急流
6) westerly jet stream
西风急流
1.
In this study,the monthly wind and temperature fields from ECMWF(European Center for Medium-Range Weather Forecasts) reanalysis dataset ERA40 are used to investigate the characteristics and variabilities of the East Asian-western Pacific westerly jet stream(WJS) in winter seasons.
利用ECMWF再分析资料ERA40中的逐月风场和温度场资料,对冬季位于东亚-西太平洋上空的西风急流(WJS)基本结构和异常特征进行了分析。
补充资料:奥埃奥急流峡谷
奥埃奥急流峡谷,在离哈纳10英里的地方,是哈纳海岸最著名的景点。31号公路穿过一座拱桥。桥的左侧可看到低处的池水倾泻入海,高处的水池更有意思,只是很少有人会爬得那么高。向前走不远就是公园管理处和一个大停车场。那里有路标指引游客如何走向低处的水池。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条