Tag Archives: Tropical Cyclone Stan

Tropical Cyclone Stan Brings Wind and Rain to Western Australia

Tropical Cyclone Stan brought wind and rain to the coast of Western Australia as it made landfall on Saturday.  At 2:00 p.m. EDT on Saturday the center of Tropical Cyclone Stan was located at latitude 20.0°S and longitude 119.9°E which put it about 22 miles (35 km) east-northeast of Pardoo Station, Australia.  Stan was moving toward the south-southeast at 13 m.p.h. (20 km/h).  The maximum sustained wind speed was 75 m.p.h. (120 km/h) and there were wind gusts to 90 m.p.h. (145 km/h).  The minimum surface pressure was 977 mb.

The center of Tropical Cyclone Stan made landfall just east of Pardoo Station.  The circulation of Stan is relatively small and tropical storm force winds only extend about 100 miles from the center.  Most of the heavy rain is occurring west of the center of circulation between Pardoo and Port Hedland.

Tropical Cyclone Stan is moving around the western end of a subtropical ridge.  A trough in the middle levels of the atmosphere is west of Stan and it is helping to steer the tropical cyclone toward the southeast.  That general motion is expected to continue during the next 24 hours.  On its anticipated track Tropical Cyclone Stan will move farther inland over Western Australia.  It could pass near Yarrie in a few hours.

Tropical Cyclone Stan will continue to weaken steadily as it moves farther inland.  It could cause localized wind damage.  Stan could also produce locally heavy rain in isolated locations.

Tropical Cyclone Stan Intensifying As It Nears Western Australia

Tropical Cyclone Stan intensified on Friday as it moved closer to the coast of Western Australia.  At 4:00 p.m. EDT on Friday the center of Tropical Cyclone Stan was located near latitude 18.6°N and longitude 118.9°E which put it about 120 miles (195 km) north of Port Hedland, Australia.  Stan was moving toward the east-southeast at 6 m.p.h. (10 km/h).  The maximum sustained wind speed was 65 m.p.h. (105 km/h) and there were wind gusts to 80 m.p.h. (130 km/h).  The minimum surface pressure was 982 mb.

The circulation of Tropical Cyclone Stan is much more well organized than it was 24 hours ago.  A primary rainband has wrapped about two thirds of the way around a distinct center of circulation.  There are many more thunderstorms in the core of the circulation and the structure is more symmetrical.  Thunderstorms in the core of Tropical Cyclone Stan are beginning to generate more upper level divergence which is pumping out mass in all directions.

The environment surrounding Tropical Cyclone Stan is now more favorable for intensification.  Stan has moved closer to the center of an upper level ridge that is located east of the tropical cyclone.  As a result, the upper level winds are not as strong and there is less vertical wind shear.  Since Tropical Cyclone Stan is over water where the Sea Surface Temperature is near 29°C, the reduced wind shear allowed it to intensify significantly today.  The environment will be favorable for intensification until Tropical Cyclone Stan makes landfall, and it could become the equivalent of a hurricane within 12 hours.  A period of rapid intensification may be possible.

As Tropical Cyclone Stan moved into an area where the easterly winds in the middle and upper levels were not as strong, it jogged eastward on Friday.  Stan is moving around the western end of a subtropical ridge and it is expected to begin to move more toward the southeast during the next 12 to 24 hours.  The eastward jog today also moved the most likely landfall location to the east.  On its anticipated track Tropical Cyclone Stan is expected to make landfall on the coast of Western Australia in 12 to 24 hours.  The highest probability of landfall is between Broome and Port Hedland near Pardoo Station.

Tropical Cyclone Stan will likely be the equivalent of a hurricane when it makes landfall.  It will be capable of causing wind damage.  Stan will also bring locally heavy rain and a chance for flash floods.  Tropical Cyclone Stan could generate a significant storm surge along the coast near where the center makes landfall.

Tropical Cyclone Stan Heading for Western Australia

A tropical low intensified into Tropical Cyclone Stan on Thursday and it is moving toward Western Australia.  At 10:00 p.m. EST on Thursday the center of Tropical Cyclone Stan was located at latitude 17.7°N and longitude 117.8°E which put it about 190 miles (305 km) north-northwest of Port Hedland, Australia.  Stan was moving toward the south-southeast at 7 m.p.h. (11 km/h).  The maximum sustained wind speed was 45 m.p.h. (75 km/h) and there were wind gusts to 60 m.p.h. (95 km/h).  The minimum surface pressure was 995 mb.

Tropical Cyclone Stan is not particularly well organized.  A primary rainband curves around the western side of the circulation, but there are not many thunderstorms in the eastern half of the cyclone.  Upper level divergence is occurring to the west of the center, but not to the east of the center.

The environment is marginally favorable for further intensification.  Tropical Cyclone Stan is over water where the Sea Surface Temperature is near 29°C.  However, an upper level ridge east of Stan is generating easterly winds over the top of the tropical cyclone.  The resulting vertical wind shear is inhibiting upper level divergence to the east of Stan.  The tropical cyclone is extracting enough energy from the ocean to intensify but the vertical wind shear is slowing the rate of intensification.  Tropical Cyclone Stan is expected to continue to intensify until it makes landfall.

Tropical Cyclone Stan is moving around the western end of a subtropical ridge which is steering it toward the south-southeast.  The south-southeast motion is expected to continue for another 24 to 36 hours.  On its anticipated track Tropical Cyclone Stan will make landfall on the coast of Western Australia near Port Hedland in about 24 hours.

Tropical Cyclone Stan could be near hurricane intensity when it makes landfall.  It will be capable of causing some wind damage.  Stan could also produce locally heavy rain and flooding.  It will also cause some storm surge near where the center makes landfall.