Dynamics and Thermodynamics Analysis of Tropical Cyclone Haiyan

Authors

Abstract:

Tropical cyclone Haiyan (TCH) that formed over the West Pacific Ocean during 3-11 November 2013 has been investigated using three datasets produced by Japan Meteorology Agency, ECMWF and NCEP. Strength of TCH has been studied using two synoptic parameters of 10-m wind velocity and mean sea level pressure (MSLP). Following, three dynamic parameters including vertical wind shear (VWSH) vector, helicity and potential vorticity (PV) together with the thermodynamic parameter of convective available potential energy (CAPE) have been calculated and analyzed during TCH life cycle. VWSH vector was analyzed in three classes of weak, moderate and strong shear, having northeasterly direction for the most of TCH lifetime. Moreover, the helicity parameter was intensified to the tornadic instability (at about 6 hours later than the time of maximum 10-m wind speed), and its anomaly was located in the downshear quadrants for the most of TCH life span. In addition, no significant PV anomaly was detected near TCH, but a subtropical PV anomaly was extended to the Philippines Islands before TCH eye reached this region. Also, CAPE parameter was intensified to the strong instability class at about 48 hours earlier than the time of maximum 10-m wind speed and its anomaly was equally displaced in both up- and downshear quadrants. Finally, it can be concluded that 30-hourly lag between the time of CAPE maximum value and VWSH one let TCH to be intensified to category 5.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

Tropical Cyclone Eye Thermodynamics

In intense tropical cyclones, sea level pressures at the center are 50–100 hPa lower than outside the vortex, but only 10–30 hPa of the total pressure fall occurs inside the eye between the eyewall and the center. Warming by dry subsidence accounts for this fraction of the total hydrostatic pressure fall. Convection in the eyewall causes the warming by doing work on the eye to force the thermal...

full text

Tropical cyclone genesis

Introduction Conclusions References

full text

Predicting Tropical Cyclone Genesis

The long-term goal of this project is to provide probabilistic genesis forecast guidance to operational forecasters and develop a genesis index to provide guidance for operational dynamical model prediction of tropical cyclone (TC) genesis. Once regions of high TC genesis probability are identified, a movable, multi-nested version of the COAMPS with resolution of roughly 3 km or less in the inn...

full text

Tropical Cyclone Predictability

The scientific objectives of the effort are to apply several techniques developed within the program, including Monte Carlo ensemble approaches, techniques adapted from non-linear systems analysis and optimal combinations of forecasting approaches to estimating the intrinsic limits to predictability for (i) tropical cyclone mean forecast position errors in the first instance, and (ii) to tropic...

full text

Evolution of Tropical Cyclone Characteristics

The long-term goals are to understand how variabilities in the large-scale atmospheric environment and the internal tropical cyclone structure influence tropical cyclone track and intensity characteristics and define how these influences differ between developing, mature, and decaying tropical cyclones. During the initial stages of tropical cyclone development, structure and track characteristi...

full text

My Resources

Save resource for easier access later

Save to my library Already added to my library

{@ msg_add @}


Journal title

volume 42  issue 4

pages  13- 26

publication date 2016-12-21

By following a journal you will be notified via email when a new issue of this journal is published.

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023