NASA's sighting of hot towers indicated Typhoon Vicente's rapid intensification

Jul 24, 2012
NASA's TRMM satellite captured rainfall data on Typhoon Vicente on July 23, 2012. Vicente had mostly light to moderate rainfall - seen in the yellow, green and blue areas, where rain was falling between 20 and 40 millimeters (.78 to 1.57 inches) per hour. However, some heavy rainfall (falling at 2 inches/50 mm per hour) and hot towering clouds (in red) were seen around the center of circulation. Credit: Credit: SSAI/NASA, Hal Pierce

Rapid intensification of tropical cyclones is still somewhat of a mystery to forecasters, but one marker that NASA scientists confirmed is when "hot towers" appear within a tropical cyclone as they did in Typhoon Vicente before it exploded in strength on July 23. Vicente made landfall in southern China on July 23.

NASA's Measuring Mission (TRMM) satellite spotted hot towers in Typhoon Vicente, and it rapidly intensified again within six hours on July 23. By the afternoon (Eastern Daylight time) Vicente's winds spun up to 120 knots (138 mph/222 kmh). At that time, Vicente was located about 75 nautical miles (86.3 miles/138.9 km) south of Hong Kong and was headed northwest at 8 knots (9 mph/~14 kmh).

A "hot tower" is a tall cumulonimbus cloud that reaches at least to the top of the troposphere, the lowest layer of the atmosphere. It extends approximately nine miles (14.5 km) high in the tropics. The hot towers in Vicente were over 9.3 miles (15 km) high. These towers are called "hot" because they rise to such altitude due to the large amount of latent heat. Water vapor releases this latent heat as it condenses into liquid. NASA research shows that a tropical cyclone with a hot tower in its eyewall was twice as likely to intensify within six or more hours, than a cyclone that lacked a hot tower. Not only did Vicente intensify, but it was almost explosive intensification where sustained winds went from 70 knots (80.5 mph/129.6 kmh) to 120 knots (138 mph/222 kmh) in six hours.

Vicente made landfall near Macao, China around 2100 UTC (5 p.m. EDT) on July 23, 2012, with maximum sustained winds near 115 knots (132.3 mph/213 kmh). It was about 60 nautical miles (69 miles/111 km) southwest of Hong Kong at landfall, near 21.7 North and 113.3 East. When it made landfall it brought with it very rough seas, where waves were topping 30 feet high (9.1 meters), which likely brought and low land flooding. According to Reuters news, business across Hong Kong was disrupted from the gale-force winds and heavy rainfall. Flights were delayed and cancelled, schools closed, and CNN reported that 129 people were injured from the storm but there were no fatalities.

On July 24, Vicente was still holding onto typhoon strength, even over land. At 0300 UTC (11 p.m. EDT/July 23), Typhoon Vicente's were still near 100 knots (115 mph/185 kmh). At that time it had moved inland and was 110 miles (177 km) west of Hong Kong, near 22.3 North and 112.2 East.

By 9 a.m. EDT on July 24, the center of Typhoon Vicente appeared to near Guangxi, with a large area strong bands of thunderstorms extending into the South China Sea, and over Macao and Hunan Island, China. The western-most fringe of Vicente was also reaching northern Vietnam. Vicente continues to move west on radar and northern Vietnam and Laos can expect heavy rainfall today. The Joint Warning Center expects that Vicente will continue moving west and dissipate slowly in .

Beginning this summer and over the next several years, NASA will be sending unmanned aircraft dubbed "severe storm sentinels" above stormy skies to help researchers and forecasters uncover information about hurricane formation and intensity changes. The mission, called Hurricane and Severe Storm Sentinel (HS3) airborne mission will begin in September from Wallops Island, Va. For more information about the mission, visit: www.nasa.gov/HS3

Explore further: NASA balloons begin flying in Antarctica for 2014 campaign

add to favorites email to friend print save as pdf

Related Stories

NASA sees hot towers as Tropical Storm Fabio's trigger

Jul 12, 2012

NASA research has indicated whenever "Hot Towering" thunderstorms are spotted within a tropical cyclone, it is more likely to strengthen. NASA's TRMM satellite saw hot towers within newborn Tropical Depression ...

Recommended for you

Scientists make strides in tsunami warning since 2004

14 hours ago

The 2004 tsunami led to greater global cooperation and improved techniques for detecting waves that could reach faraway shores, even though scientists still cannot predict when an earthquake will strike.

Trade winds ventilate the tropical oceans

15 hours ago

Long-term observations indicate that the oxygen minimum zones in the tropical oceans have expanded in recent decades. The reason is still unknown. Now scientists at the GEOMAR Helmholtz Centre for Ocean Research ...

User comments : 0

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.