Weather Graphics Hurricane Science - Weather Graphics

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Hurricane Science

TMBA was instrumental in giving producers of "Storm Stories" an essential visual tool to show the specific circumstances behind hurricane formation. Produced for the Weather Channel, "Storm Stories" is an in depth look at forensic weather. Accented with fantastic 3D graphics from TMBA, this series gives viewers a close-up look at the most dangerous storms on the planet. Taking only basic facts, TMBA created some of the most challenging 3D elements including thunder clouds, waves, and hurricane cloud formations. Overlaid with descriptive motion graphics, these 3D animations explain and entertain in just a few short seconds. Something only great 3D animation can do.

Hurricane science tells us that hurricanes are formed from more simple thunderstorms over the ocean. The mechanics of hurricane formation involve a number of "perfect storm" factors involving the ocean, the atmosphere and temperature. First, the ocean surface must be warmer than 26.5 degrees Celsius (81 degrees F). Heat and moisture from this warm water is ultimately the source of energy hurricanes need to gear up. High humidity reduces the amount of evaporation in the clouds and helps to maximize the heat that is generated by increased condensation.  That concentration of heat is a critical component to driving a potential hurricane into overdrive.  

If the storm moves over cooler water, or over an area with less humidity, it will lose the energy it needs to survive. Also, the existence of strong wind shear can slant the storm, causing the heat build up from condensation to be spread over a larger surface area which can minimize the intensity of the storm. Wind shear may also play a role in intensifying the storm by moving vertically into it, causing it to gain momentum.

Occurring when winds have reached about 80 miles per hour, the "eye" can be anywhere from 20 to 40 miles in diameter. It extends down into the storm like the opening of a cylinder. The area surrounding the eye is known as the "eyewall," a dangerous combination of dense cumulonimbus clouds, thunderstorm clouds and extremely strong winds.

Hurricane science has come a long way but, many researchers predict that global warming will have a huge impact on these fierce forces of nature. They believe that hurricane science needs to step up its efforts to predict future trends. To that end, a few lucky researchers recently won front row seats to one of the most incredible shows on earth, Hurricane Earl.

NASA is now using a small fleet of unmanned aircraft to fly into, over and around hurricanes. Using a Global Hawk observation aircraft, NASA researchers can get a 3D view of the water vapor, liquid water and reigning temperatures that make up a hurricane. Despite Earl's waning as it moved up the east coast of the United States, the Global Hawk was able to fly over the eye of the storm to the surface of the sea and compare different layers in real time and at a relatively high resolution.

NASA's HAMSR (High-Altitude Monolithic Microwave Integrated Circuit Sounding Radiometer), is the official term for the unmanned drone that flew some 63,000 feet over Earl with an HD camera, a set up that gives hurricane scientists the ability to view storms in real time as they strengthen or degrade.

Weather Graphics Storm Surge - Weather Graphics (212) 789-9077

Storm Surge
Weather Graphics

Hurricane storm surge flooding causes a tremendous amount of damage. These storm surges are considered to be the cause for 90% of deaths that occur when hurricanes come ashore. Although inland flooding has been responsible for the greatest number of deaths in recent years, storm surges still remain the largest single threat related to hurricanes.

Storm surge is the water that is pushed toward the shore by the force and strength of the winds circling around center of the storm. This water that is being pushed towards the sore gains even more force when it is combined with the force of the normal incoming tide. This hurricane storm tide increases the water level by 15 feet or higher. The strong winds associated with the hurricane also create wind driven waves on top of the hurricane storm tide.

This increased water level can cause additional flooding along the shoreline, especially when the storm tide and the regular high tide happen at the same time.

The fact that hurricanes have the potential to elevate the surging water level 10 feet or more above the mean sea level, this represents a significant danger to much of the United States Atlantic and Gulf coast areas. This is the main reason that these coast areas are evacuated as the hurricanes approach.

The height of the waves and the storm surge when they the shore is also affected by the shape of the ocean floor. In very specific areas, the height of the storm surge is determined by the slope of the continental shelf. A long shallow slope along the coastline will allow the surge to submerge coastal areas and housing developments. Shoreline that have a steeper continental shelf, will be less affected by incoming storm surges. Large breaking waves will present significant issues in these areas.