热带气旋的经过会引起海洋内部强烈的剪切,由剪切不稳定触发的强混合可以将温跃层的冷水卷挟上来,导致海洋混合层加深和海表面温度的下降。本文利用3-Dimensional Price Weller and Pinkel(3DPWP)模式模拟了不同热带气旋下的海表面降温...热带气旋的经过会引起海洋内部强烈的剪切,由剪切不稳定触发的强混合可以将温跃层的冷水卷挟上来,导致海洋混合层加深和海表面温度的下降。本文利用3-Dimensional Price Weller and Pinkel(3DPWP)模式模拟了不同热带气旋下的海表面降温,分别研究了热带气旋各个要素(气旋的强度,最大风速半径和移动速度)对于海表面降温的影响。模拟结果表明,海表面降温的空间分布主要受到气旋移动速度的影响,移动速度越快的降温,右偏现象越明显。海表面降温的幅度以及降温的区域随着气旋强度和最大风速半径的增大而单调递增,随移动速度增加而单调递减。海表面降温与热带气旋3个要素的拟合结果表明,气旋各个要素对于海表面降温影响作用的大小不同:在气旋移动速度较慢(小于4.5m/s)时,海表面降温主要受到气旋级别和移动速度的影响,在气旋移动速度较快(大于4.5m/s)时,气旋移动速度的影响作用减弱,海表面降温主要受气旋级别的影响。气旋最大风速半径的影响作用始终较小。展开更多
A new moored microstructure recorder(MMR) is designed, developed, tested, and evaluated. The MMR directly measures the high-frequency shear of velocity fl uctuations, with which we can estimate the dissipation rate of...A new moored microstructure recorder(MMR) is designed, developed, tested, and evaluated. The MMR directly measures the high-frequency shear of velocity fl uctuations, with which we can estimate the dissipation rate of turbulent kinetic energy. We summarize and discuss methods for estimating the turbulent kinetic energy dissipation rate. Instrument body vibrations contaminate the shear signal in an ocean fi eld experiment, and a compensating correction successfully removes this contamination. In both tank test and ocean fi eld experiment, the dissipation rate measured with the MMR agreed well with that measured using other instruments.展开更多
文摘热带气旋的经过会引起海洋内部强烈的剪切,由剪切不稳定触发的强混合可以将温跃层的冷水卷挟上来,导致海洋混合层加深和海表面温度的下降。本文利用3-Dimensional Price Weller and Pinkel(3DPWP)模式模拟了不同热带气旋下的海表面降温,分别研究了热带气旋各个要素(气旋的强度,最大风速半径和移动速度)对于海表面降温的影响。模拟结果表明,海表面降温的空间分布主要受到气旋移动速度的影响,移动速度越快的降温,右偏现象越明显。海表面降温的幅度以及降温的区域随着气旋强度和最大风速半径的增大而单调递增,随移动速度增加而单调递减。海表面降温与热带气旋3个要素的拟合结果表明,气旋各个要素对于海表面降温影响作用的大小不同:在气旋移动速度较慢(小于4.5m/s)时,海表面降温主要受到气旋级别和移动速度的影响,在气旋移动速度较快(大于4.5m/s)时,气旋移动速度的影响作用减弱,海表面降温主要受气旋级别的影响。气旋最大风速半径的影响作用始终较小。
基金Supported by the National Natural Science Foundation of China(Nos.41006005,40906004,91028008,40890153,41176008,41176010)the National High Technology Research and Development Program of China(863 Program)(No.2008AA09A402)the Program for New Century Excellent Talents in University(No.NCET-10-0764)
文摘A new moored microstructure recorder(MMR) is designed, developed, tested, and evaluated. The MMR directly measures the high-frequency shear of velocity fl uctuations, with which we can estimate the dissipation rate of turbulent kinetic energy. We summarize and discuss methods for estimating the turbulent kinetic energy dissipation rate. Instrument body vibrations contaminate the shear signal in an ocean fi eld experiment, and a compensating correction successfully removes this contamination. In both tank test and ocean fi eld experiment, the dissipation rate measured with the MMR agreed well with that measured using other instruments.