共查询到20条相似文献,搜索用时 171 毫秒
1.
利用WRF_ARW模式,对锋面型涡旋诱发南海强热带风暴Noguri(2002)的生成过程进行模拟研究。通过对动力学和热力学物理量的诊断分析,讨论了锋面型初始涡旋诱发热带气旋(TC)的可能途径和机制。结果表明:该类型TC与热带扰动诱发TC的过程相类似,强对流单体(如积云塔)与环境场间的相互作用发挥重要作用,而这些对流尺度系统的活动受较大尺度系统调控。在环境场强垂直风切变情况下,初始涡旋在发展过程中,表现为垂直方向上涡旋结构由倾斜向垂直演变的过程,涡度、螺旋度和水汽场均存在若干次振荡。进一步分析表明,水汽和对流循环的反馈对涡旋的振荡发展很重要,且与环境场垂直风切变的强弱变化有着密切的联系。 相似文献
2.
西北太平洋热带气旋快速增强阶段的风速分布特征 总被引:1,自引:2,他引:1
利用联合台风预警中心的最优路径(best-track)资料,筛选出西北太平洋地区快速增强和非快速增强两类热带气旋样本。利用美国国家海洋与大气管理局(NOAA)的多平台热带气旋表面风分析资料,对比分析了两类样本的风速和涡度的分布特征。结果显示,快速增强的热带气旋样本通常结构更紧凑,最大风速较大,最大风速半径较小,台风内区的风速较大。在涡度上表现为快速增强热带气旋样本内区的涡度和涡度梯度较大。对两类样本进行t检验,结果显示两类样本内区的切向风差异明显,说明热带气旋的内区风速分布与其发展之间存在密切联系。其物理机制可能是:当存在较大的内区涡度梯度时,涡度隔离机制有利于对流单体向涡旋中心汇聚,此外较大的涡度意味着较大的惯性稳定度,有利于非绝热加热向热带气旋动能的转换,二者共同作用有利于热带气旋的快速发展。 相似文献
3.
季风涡旋对台风活动有重要的影响, 因此研究季风涡旋的形成机制有利于提高台风预报的准确性。此研究利用中尺度非静力数值模式WRF-ARW模拟1991年8月季风涡旋的生成过程, 并对其生成机制进行分析。模式结果表明, 此次季风涡旋个例是由一个中纬度气旋性低压发展而来。初期中纬度高层正位势涡度的强迫作用有利于对流层低层气旋性低压的发展和维持, 随后高层动力强迫作用减弱, 但中纬度气旋性低压在南移过程中其东南侧对流带逐渐与低纬地区的对流带合并, 使得对流潜热释放增强, 进而使低压在Gill响应的作用下不断加强并最终形成季风涡旋。同时, 涡旋的对流结构表现出明显的非对称性, 因而使其得以维持较大尺度。敏感性试验的结果表明对流层高层强迫对于初始低层扰动的发展至关重要, 而后期热带地区的潜热释放有利于季风涡旋的增强。 相似文献
4.
台风榴莲(2001)在季风槽中生成的机制探讨 总被引:2,自引:0,他引:2
利用NCEP 1°×1°分析资料、TMI海温资料、卫星云图资料对季风槽中南海台风榴莲(2001)生成机制进行了分析,揭示了大尺度环境流场、温暖洋面、中尺度对流活动对热带气旋(TC)生成的控制作用.结果表明,水平风速垂直切变的演变在一定程度上指示着TC在暖湿洋面上生成的时间,水平风速垂直切变由强向弱转变,在TC发生前18小时迅速减小到10 m/s,随后在10 m/s以下维持少变,垂直切变的变化主要反映了对流层高层环流形势的演变;在对流层中低层,季风槽的形成和加强对TC的生成有重要作用,由于热带温暖洋面作用,季风槽首先表现出有利于单体对流和带状对流发生发展的条件性对流不稳定特征,随着季风槽的加强,季风槽进一步表现出有利于中尺度扰动发生发展的正压不稳定特征;季风槽槽线南侧的低空急流的经向分布很宽广,由105°E越赤道气流和中南半岛偏西气流(其源头是索马里越赤道低空急流)汇合而成,急流的加强活动具有经向差异,由于边界层高θ_e空气辐合抬升产生两条经向距离约300 km的显著带状对流云系,槽线南侧风速分布的经向差异导致两条带状云系发生追赶,并逐步在季风槽底部槽线附近合并加强为MCC,进而导致中尺度涡旋(MCV)的产生并最终发展成为TC.分析结果还表明,为深对供应丰富对流有效位能的主要是来自台风发生区域本地南海暖洋面的地面热通量,南海暖洋面对TC生成有重要贡献.台风榴莲的生成是一个多尺度相互作用过程,主要包括涡旋对流热塔、与带状对流云系伴随的涡度带的升尺度,涡度带合并成长为MCV,以及大尺度条件对TC在季风槽中生成的时间及地点的控制作用等. 相似文献
5.
热带气旋的生成是一个由初始扰动转变成为暖心结构低压的过程,但已有的经典理论对初始流场的配置及初始扰动的触发都没有详细的描述。利用FY-2C的TBB资料和日本再分析资料,以2008年8号台风“凤凰”为例,跟踪其流场和涡度场演变,追溯该热带气旋从初始扰动生成到转为有暖心结构的热带低压的过程。分析结果显示,初始扰动在水平风垂直切变较强的鞍形场中触发。随着高层环流调整,水平风垂直切变迅速减弱,高空冷涡外围暖区云系为初始扰动的发展提供了有利动力和热力条件。在其发展为热带低压的过程中,结构上出现正涡度从对流层中层向低层加强并有中心下降的特点,低层涡度的快速增加主要受气压梯度增强导致的辐合增强的影响。由个例分析结果可以看到,高空冷涡和副热带高压对热带初始扰动的生成以及发展和结构演变都起到重要的作用。 相似文献
6.
介绍了国内外关于热带气旋外眼墙形成和维持过程的相关研究进展,包括大尺度环境场和热带气旋涡旋内部动力学过程,如涡旋罗斯贝波理论、轴对称化过程、涡丝化作用、β-skirt轴对称化外眼墙形成假说和边界层非平衡动力过程等。随着对外眼墙形成机理研究的不断深入,当前存在多种外眼墙形成的机制理论,而这些机制均强调在外眼墙的形成阶段,热带气旋外围有大量对流及位势涡度扰动的发生发展。因此,热带气旋外眼墙的形成很有可能是多种机制相互作用导致的。最后,提出研究多种机制相互作用导致外眼墙处的对流和位势涡度扰动的发生发展过程具有重大意义。 相似文献
7.
热带气旋生成过程的中尺度涡旋活动数值模拟 总被引:1,自引:1,他引:0
热带气旋生成过程中包含不同尺度环流及其相互作用。为此,本文将热带气旋生成数值模拟的起点提前到模拟中尺度涡旋(MCV)的生成,从而利用高分辨率数值试验结果,对热带气旋过程中的不同尺度涡旋活动进行分析。模式首先模拟了季风涡旋的东南侧增强的西南气流中出现低形变旋转性扰动,随着扰动的旋转性增强,中层出现水平尺度为200 km左右的MCV。在扰动区内的不同高度上还发现10~20 km尺度不等的中γ气旋性涡旋扰动,其中部分涡旋扰动具有热塔的特征,中γ气旋性涡旋扰动在MCV的旋转环境内不断组织化,低层气旋性涡旋扰动的分布比中层更加集中。模拟表明这些较小尺度的气旋性中尺度涡旋扰动对热带气旋的生成有重要作用。 相似文献
8.
初始涡旋结构对热带气旋强度变化影响的数值研究 总被引:6,自引:6,他引:0
本文利用中尺度WRF模式,通过构造3个位于不同高度上强度相同的初始涡旋暖心中心(分别称为Low试验、Mid试验和High试验),认识暖心垂直结构对热带气旋发展的影响。理想数值试验发现,在积分6 h后在Low试验和Mid试验中最大风速半径开始收缩,眼墙内对流发展,高层暖心发展明显比High试验强,强度增加明显快于High试验,达到快速增强的标准。进一步诊断发现,暖心偏低的试验中初始CAPE值较大,低层风垂直切变较强,有利于眼墙内对流发展,非绝热加热在高层暖心形成过程中起重要作用,最大风速半径收缩比High试验快,热带气旋强度快速增加。本研究清楚表明,数值预报模式中构造初始涡旋的暖心高度对模拟热带气旋的强度发展有重要影响。 相似文献
9.
台风榴莲(2001)生成初期中尺度涡旋合并过程研究 总被引:3,自引:1,他引:2
由于热带海洋上观测资料的稀缺和热带气旋系统本身发生、发展的复杂性,热带气旋生成机制研究领域至今仍然存在很多未解之谜。已有的观测和模拟研究证明,中尺度涡旋合并过程对于热带气旋的生成可能有触发作用,但尚未见到南海季风槽内热带气旋生成过程中中尺度涡旋合并现象的实例模拟研究。利用新一代中尺度天气研究与预报模式WRF对南海热带气旋榴莲(2001)生成过程中的中尺度涡旋合并过程进行了高分辨率(4 km)数值模拟,并与观测资料进行对比,利用模式输出结果重点分析两个中尺度涡旋合并过程中的主要动力学和热力学特征,并在此基础上进一步分析了合并过程中系统中心附近涡度方程中各项涡度收支的演变情况,最后通过两个敏感性试验与控制试验结果的对比,初步探讨中尺度涡旋合并过程对于热带气旋榴莲生成的作用。结果表明,南海季风槽中的新生中层中尺度涡旋V2,是榴莲生成过程中的主导涡旋,预先存在的东部低层的中尺度涡旋V1对于台风榴莲的生成则起到了辅助作用,两个不同高度的涡旋合并叠加促使涡度的辐合、辐散项率先在低层引起涡度的快速增长,随后垂直输送项在对流层中层对涡度的增长起主要作用。两个涡旋的最终合并,使热带气旋系统正绝对涡度在垂直方向上从低层到中层得以贯通,进而触发榴莲的生成。 相似文献
10.
涡旋Rossby波传播和台风切向风速变化的数值研究 总被引:1,自引:0,他引:1
余锦华 《南京气象学院学报》2003,26(2):172-180
设计了一个高分辨率f平面准地转正压涡度方程半谱模式,用以研究非线性对台风切向风速变化,以及不同初始异常条件下台风环流内涡旋Rossby波传播和台风切向风速变化特征。6类(14组)试验的数值结果表明:非线性使台风切向风速的增强减弱,可能使最大风速半径收缩。初始扰动中心位置对涡旋Rossby波传播和台风切向风速变化的影响明显。扰动中心在最大风速半径附近时,台风最大切向风速增强最多;异常中心在台风外区时,使最大切向风速减小。初始异常尺度(范围)减小对台风最大切向风速变化的影响减弱。双涡分布条件下,台风环流外区的涡旋使内区或近眼壁区对流涡旋对台风最大切向风速的影响减弱。 相似文献
11.
Idealized Numerical Simulations of Tropical Cyclone Formation Associated with Monsoon Gyres简 总被引:1,自引:0,他引:1
Monsoon gyres have been identified as one of the important large-scale circulation patterns associated with tropical cyclone (TC) formation in the western North Pacific.A recent observational analysis indicated that most TCs form near the center of monsoon gyres or at the northeast end of the enhanced low-level southwesterly flows on the southeast-east periphery of monsoon gyres.In the present reported study,idealized numerical experiments were conducted to examine the tropical cyclogenesis associated with Rossby wave energy dispersion with an initial idealized monsoon gyre.The numerical simulations showed that the development of the low-level enhanced southwesterly flows on the southeasteast periphery of monsoon gyres can be induced by Rossby wave energy dispersion.Mesoscale convective systems emerged from the northeast end of the enhanced southwesterly flows with mid-level maximum relative vorticity.The simulated TC formed in the northeast of the monsoon gyre and moved westward towards the center of the monsoon gyre.The numerical experiment with a relatively smaller sized initial monsoon gyre showed the TC forming near the center of the initial monsoon gyre.The results of the present study suggest that Rossby wave energy dispersion can play an important role in TC formation in the presence of monsoon gyres. 相似文献
12.
Intraseasonal modulation of tropical cyclogenesis in the western North Pacific: a case study 总被引:2,自引:0,他引:2
The temporal clustering of the western North Pacific tropical cyclogenesis and its modulation by the Madden–Julian oscillation (MJO) during the 1991 summer were examined based on the tropical cyclone best track, outgoing longwave radiation, and NCEP/NCAR reanalysis datasets. The wavelet analysis shows that convective activities around the monsoon trough in the western North Pacific possessed a distinct MJO with a period of 20–60 days. Two or more tropical cyclones were observed to form successively during each active phase of the MJO, and tropical cyclones tended to generate around the southeastern part of the maximum vorticity of the low-frequency cyclonic circulation during the developing and peak stages of the active MJO phase. But tropical cyclogenesis scarcely occurred during inactive MJO phases. Thus the MJO was a major agent in modulating repeated development of tropical cyclones in the western North Pacific during the 1991 summer. The MJO in circulation was characterized by a huge anomalous cyclone (anticyclone) in the lower troposphere existing alternately over the western North Pacific, leading to an enhanced (weakened) monsoon trough. An examination of the meridional gradient of absolute vorticity associated with the zonal flow indicates that the zonal flow in the monsoon trough region satisfied the necessary conditions for barotropic instability, with both zonal flow and the meridional gradient of absolute vorticity varying on the similar MJO timescale. The intraseasonal oscillation of such an unstable zonal flow might thus be an important mechanism for temporal clustering of tropical cyclogenesis in the western North Pacific. The barotropic conversion could provide a major energy source for the formation and growth of tropical cyclones in the western North Pacific during active MJO phases, with the eddy kinetic energy generation being dominated by both terms of eddies interacting with zonal and meridional gradients of the basic zonal flow. 相似文献
13.
A statistical analysis of the initial vortexes leading to tropical cyclone(TC) formation in the western North Pacific(WNP) is conducted with the ECMWF ERA5 reanalysis data from 1999 to 2018. It is found that TCs in the WNP basically originate from three kinds of vortexes, i.e., a mid-level vortex(MV), a low-level vortex(LV), and a relatively deep vortex with notable vorticity in both the lower and middle troposphere(DV). Among them, LV and DV account for 47.9% and24.2% of tropical cyclogenesis e... 相似文献
14.
It has long been known that incipient tropical cyclones (TCs) always occur in
synoptic-scale disturbances or tropical cyclogenesis precursors, and the disturbances can
intensify only within a limited area during tropical cyclogenesis. An observational analysis
of five tropical cyclogenesis events over the western North Pacific during 11 August to 10
September 2004 is conducted to demonstrate the role of synoptic-scale disturbances in
establishing a limited area of low-deformation vorticity for tropical cyclogenesis.
The analysis of the five tropical cyclogenesis events shows that synoptic-scale tropical
cyclogenesis precursors provide a region of low-deformation vorticity, which is measured with
large positive values of the Okubo-Weiss (OW) parameter. The OW concentrated areas are within
the tropical cyclogenesis precursors with a radius of about 400-500 km and can be found as
early as 72 hours prior to the formation of the tropical depression. When the TCs reached the
tropical storm intensity, the concentrated OW is confined to an area of 200-300 radius and the
storm centers are coincident with the centers of the maximum OW. This study indicates that the
tropical cyclogenesis occurs in the low-deformation 18-72 hours prior to the formation of
tropical depressions, suggesting the importance of low-deformation vorticity in pre-existent
synoptic-scale disturbances. Although the Rossby radius of deformation is reduced in TC
genesis precedes, the reduction does not sufficiently make effective conversion of convective
heating into kinetic energy within the low-deformation area. Further analysis indicates that
the initial development of four of the five disturbances is coupled with the counterclockwise
circulation of the mixed Rossby-Gravity (MRG) wave. 相似文献
15.
The cyclone frequency distribution over the Bay of Bengal during 1990–2009 was distinctly bimodal, with a primary post-monsoon peak and a secondary pre-monsoon peak, despite the very high convective available potential energy (CAPE) during the pre-monsoon. The location of the monsoon trough over the bay is a primary factor in tropical cyclogenesis. Because the trough was in the northernmost bay during the pre-monsoon season, cyclogenesis was inactive in the southern bay, where a strong southwesterly wind shear was found. In this season, moreover, a hot, dry air mass extending vertically from 950 to 600 hPa was advected from northwestern India toward the bay. Moist, warm southwesterly winds penetrating below the deep, dry air mass caused a prominent dryline to form aloft on the northwestern side of the bay. The synoptic-scale hot, dry air forcing to the bay suppressed the active convection necessary for cyclogenesis. The strength of the stable environmental layer, represented by convective inhibition (CIN), was extremely large, and acted as a cap over the northern and northwestern bay. Conversely, during the post-monsoon, there were no horizontal temperature or moisture gradients, and CAPE and CIN were fairly modest. The entire bay was covered by a very deep, moist layer from the surface to 700 hPa transported from the east. The monsoon trough position and the environmental CIN in combination can explain the lower frequency of cyclogenesis during the pre-monsoon compared with the post-monsoon season. 相似文献
16.
The quasi-biweekly oscillation(QBWO) is the second most dominant intraseasonal mode over the western North Pacific(WNP) during boreal summer. In this study, the modulation of WNP tropical cyclogenesis(TCG) by the QBWO and its association with large-scale patterns are investigated. A strong modulation of WNP TCG events by the QBWO is found.More TCG events occur during the QBWO's convectively active phase. Based on the genesis potential index(GPI), we further evaluate the role of environmental factors in affecting WNP TCG. The positive GPI anomalies associated with the QBWO correspond well with TCG counts and locations. A large positive GPI anomaly is spatially correlated with WNP TCG events during a life cycle of the QBWO. The low-level relative vorticity and mid-level relative humidity appear to be two dominant contributors to the QBWO-composited GPI anomalies during the QBWO's active phase, followed by the nonlinear and potential intensity terms. These positive contributions to the GPI anomalies are partly offset by the negative contribution from the vertical wind shear. During the QBWO's inactive phase, the mid-level relative humidity appears to be the largest contributor, while weak contributions are also made by the nonlinear and low-level relative vorticity terms.Meanwhile, these positive contributions are partly cancelled out by the negative contribution from the potential intensity.The contributions of these environmental factors to the GPI anomalies associated with the QBWO are similar in all five flow patterns—the monsoon shear line, monsoon confluence region, monsoon gyre, easterly wave, and Rossby wave energy dispersion associated with a preexisting TC. Further analyses show that the QBWO strongly modulates the synoptic-scale wave trains(SSWs) over the WNP, with larger amplitude SSWs during the QBWO's active phase. This implies a possible enhanced(weakened) relationship between TCG and SSWs during the active(inactive) phase. This study improves our understanding of the modulation of WNP TCG by the QBWO and thus helps with efforts to improve the intraseasonal prediction of WNP TCG. 相似文献
17.
2006年7—9月西北太平洋热带气旋季节活动的数值模拟 总被引:4,自引:1,他引:3
利用NCEP(National Centers for Environmental Prediction)提供的1°×1°的FNL(final)资料和中尺度WRF(Weather Research and Forecasting)模式,研究了热带气旋(tropical cyclone,简记TC)动力季节预报的可能性,通过在27km的粗网格中运用张弛逼近(Nudging)技术,对2006年7-9月西北太平洋TC活动进行了92d的连续数值积分。与观测结果比较表明,WRF模式不仅较好地模拟了MJO(Madden-Julian oscillation)和准双周振荡的活动情况,而且模拟的TC频数、移动路径和强度都与实际观测结果比较接近。在嵌套的9km网格中,不仅模拟出眼墙、暖心等TC结构的主要特征和TC的西行盛行路径及登陆活动情况,而且所模拟的生成过程包括早期研究中提出的TC生成过程中的两次快速发展的过程。模拟的TC初始涡旋主要出现在季风槽中,伴随准双周振荡活动,它的第一次发展在初始涡旋中心形成强烈的对流区;经过一段时间的减弱后,在有利的大尺度形势下,涡旋中心湿水汽层迅速增厚,导致气旋的第二次强烈发展。 相似文献
18.
季风低压对台风生成影响的观测分析 总被引:1,自引:1,他引:0
选取2007年和2009年发生的4个季风低压个例, 利用FNL资料和CMORPH卫星反演的降水资料, 采用多尺度环流分析法, 对西北太平洋季风环流的多尺度特征进行了分析, 研究季风低压对台风生成的可能影响。分析发现:季风低压生成于季风槽中, 其天气尺度波列的气旋性环流中。虽然以季风槽为特点的低频环流为台风生成提供大尺度气候条件, 但是季风低压通过进一步提供较大的正相对涡度, 可以有效减小Rossby变形半径, 促进热带低压中中尺度对流系统的相互作用和合并, 有利于台风的生成。 相似文献
19.
Scale interaction in the Western Pacific Monsoon 总被引:9,自引:1,他引:9
G. J. Holland 《Meteorology and Atmospheric Physics》1995,56(1-2):57-79
Summary The lower-tropospheric scale interactions occurring in the summer monsoon of the western North Pacific are reviewed and summarised in a conceptual model. Diabatic heating produces a circulation with similar characteristics to those that are observed. In the lower troposphere the advection of vorticity by the divergent wind produces a compact, and more intense response than in the upper levels. Subsequent phase dispersion westward, and group propagation eastwards, lead to a monsoon depression in convectively suppressed conditions, a westerly jet with cross-equatorial flow, and a strong confluence region to the east of the monsoon depression.I suggest that this confluence zone traps tropical waves in the mid-lower troposphere in a similar manner to the accumulation and emanation mechanisms described by Chang and Webster. The details of the convection in the confluence zone are of little direct consequence to the monsoon circulation, which is similar in scale to the deformation radius for the undisturbed tropics. However, mesoscale convective systems can both self organise into larger coherent structures and produce vortices of horizontal scale 100–200 km, which are long-lived and potentially have considerable indirect influence on both the monsoon and embedded systems, such as tropical cyclones. The confluence zone provides an excellent environment for tropical cyclone formation, which is enhanced by the presence of a previously developed tropical cyclone. Scale-interaction arising from the merger of developing vortices and the large monsoon depression can lead to development of a very large typhoon and rapid breakdown of the total monsoon circulation. The interaction of tropical cyclones with the mid-latitude systems is complex and not well understood, but recurving tropical cyclones may provide a major component of the emanation of energy to higher latitudes.With 16 Figures 相似文献
20.
The influence of the interannual variation of cross-equatorial flow(CEF) on tropical cyclogenesis over the western North Pacific(WNP) is examined in this paper by using the tropical cyclone(TC) best track data from the Joint Typhoon Warning Center and the JRA-25 reanalysis dataset. The results showed that the number of TCs forming to the east of 140°E over the southeastern part of the western North Pacific(WNP) is in highly positive correlation with the variation of the CEF near 125° E and 150° E, i.e., the number of tropical cyclogeneses increases when the cross-equatorial flows are strong. Composite analyses showed that during the years of strong CEF, the variations of OLR, vertical wind shear between 200-850 h Pa, 850 h Pa relative vorticity and 200 h Pa divergence are favorable for tropical cyclogenesis to the east of 140°E over the tropical WNP, and vice versa. Moreover, it is also discussed from the view of barotropic energy conversion that during the years of strong CEF, an eastward-extended monsoon trough leads to the rapid growth of eddy kinetic energy over the eastern part of WNP, which is favorable for tropical cyclogenesis;but during the years of weak CEF, the monsoon trough is located westward in the western part of the WNP, consistent with the growth area of eddy kinetic energy. As a result, there are fewer TC geneses over the eastern part of WNP.Besides, the abrupt strengthening of a close-by CEF 2-4 days before tropical cyclogenesis may be the one of its triggers. 相似文献