Safety system for airports and airfields

Stock material or miscellaneous articles – Pile or nap type surface or component – With particles

Reexamination Certificate

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C428S017000, C428S015000

Reexamination Certificate

active

06620482

ABSTRACT:

DESCRIPTION
The present invention relates in general to a safety system for airports and airfields, and more particularly to a synthetic turf surface and accompanying sub-surface installed substantially adjacent to airport runways and taxiways and a method for installation of said surface and said sub-surface.
BACKGROUND OF THE INVENTION
Airfields, including military airfields, small airfields and large commercial airports presently have grass surfaces adjacent to the airport runways and taxiways. These natural grass surfaces are difficult, time consuming and expensive to maintain and are not aesthetically pleasing. More importantly, the existing grass surfaces create potential safety problems for departing and arriving aircraft. The existing grass surfaces also create potential safety problems relating to the clean-up of hazardous waste spills and to the use of pesticides and herbicides necessary for proper upkeep of the grass.
One further problem with natural grass surfaces at airports or airfields is improper water drainage. In typical natural grass installations, the surface of the soil is approximately at the same height as the concrete (or other) surface of a runway or taxiway. The height of the grass thus normally extends past the height of the runway or taxiway surface. Grass clippings, dust, dirt and debris blown across the runway or taxiway, catch the overextending lip of grass and collect adjacent thereto, creating a more extensive vertical barrier. The clippings, dust, dirt and debris trapped adjacent to the runway or taxiway increase the potential of “foreign object damage” or “FOD” to airplanes and are therefore classified as “FODS.” FODS are any foreign object that can damage a stationary or moving aircraft, specifically including a turbine engine.
The collected clippings, dust, dirt and debris along the edge of the runway or taxiway also inhibit proper water drainage from runways or taxiways. This build-up also traps and pools rainwater that contacts the runway or taxiway and drains to their sides (i.e., down their grade). The water eventually drains into and through the build-up and often creates a three to four foot (30 to 40 cm) area of wet mud adjacent to the runway. The grass in this area often dies, the mud dries and the top soil erodes so that new grass seed cannot effectively form a root system. Grass sod directly adjacent to a runway or taxiway can become loose, fly up and become a FOD, so that airports are effectively stuck with eroded soil in safety areas adjacent runways or taxiways.
Commercial airports (and certain other airports) must include graded surfaces adjacent to airport runways and taxiways capable of handling a hundred year flood. A conventional grade for such surfaces is a drop in height of at least one quarter inch (0.62 cm) for every foot (30 cm) in a direction perpendicular to the runway, or approximately a two percent drop. Over time, the flow of water carrying dirt and debris away from the runway or taxiway erodes the grade, at least at certain points, in the natural grass surfaces adjacent to the runway or taxiway. Water tends to pool in such areas of the natural grass where the grade is eroded. The pooled water also kills the grass and creates muddy areas where little grows. The muddy areas are aesthetically displeasing and conventional vehicles such as sanitation trucks, maintenance trucks and emergency vehicles cannot travel on or over the muddy areas, if necessary.
In dry, desert like climates, sand adjacent to runways and taxiways also creates problems. Little grows in sand, which leaves the airport with the unenviable choice of either planting, irrigating and maintaining an expansive and expensive natural grass surface or exposing large areas of aesthetically displeasing sand. Conventional vehicles such as sanitation trucks, maintenance trucks and emergency vehicles also cannot travel on or over the areas having sand, if necessary. Windblown sand can also be a dangerous FOD, which in certain instances has been known to sand blast the inside of a jet's turbine engine.
As mentioned above, both wet and dry climates in combination with natural grass adjacent to airport runways and taxiways create potential safety problems; namely, through the creation of FODS and by potentially limiting access to and from the runway or taxiway. Natural grass is also expensive to upkeep. In peak periods, some airport operators must mow twice a week. Weeds, high grass, muddy areas and other obstructions collect litter and debris intermittently over the entire airport or airfield. For example, Los Angeles international Airport currently maintains full time employees whose primary responsibility is to collect litter and trash from the runways and taxiways and adjacent safety areas.
Although airfields are noisy and frequented by large, fast moving jet-powered aircraft, they still tend to support wildlife. Airfields often cover large expanses of open natural grass field surrounded by fences, providing good visibility and a haven for birds and other animals from man and pets. Man-made retention basins and drainage ditches provide a convenient source of free standing water. Mowing machines leave behind mowed straw and the like for nest construction and shattered seeds and maimed insects for food.
Another well known and potentially dangerous safety problem furthered by natural grass are birds and other animals. Many birds including gulls, waterfowl, raptors such as hawks and other species flock to airfields to eat, drink and reproduce. Birds eat insects and grubs which live in natural grass up to six inches (15 cm) below the soil surface. Birds also eat rodents, which feed on the insects. Standing water, especially after fresh rains, attracts many species of birds, including waterfowl. Large birds such as ducks or geese also create especially dangerous conditions for aircraft and are classified as FODs. Natural grass further provides materials and cover for birds to nest and breed.
Many airports and airfields report collisions between airplanes and birds and other animals that have the potential to damage an airplane. In July 1998, a Boeing 757 struck a hawk while ascending from Dallas Fort Worth airport. The plane ingested the bird into its left engine, tower personnel reported flames coming out of the engine and the plane landed safely. In May 1998, a Boeing 767 struck two Canadian Snow Geese while departing John F. Kennedy International Airport. The plane landed immediately with a damaged No. 2 engine and a hole in the right flap. In the same month, a Boeing 727 struck Canadian Snow Geese while ascending from Colorado Springs Metro Airport destroying one engine, cracking the plane's radome and causing $1.4 million in damage to the plane. Also in the same month, an F-16 struck white pelicans near Ainsworth, Nebr., which penetrated a windscreen and caused the pilot to eject.
In April 1998, an MD-80 struck geese ascending from La Guardia airport in New York. The geese destroyed the plane's radome. The plane had airspeed problems and had to divert to and land at Newark airport. In the same month, a Boeing 737 struck a bird while ascending from Dane County Wisconsin Regional airport, damaging an engine and causing a precautionary landing. In March 1998, a Boeing 727 struck a bird on takeoff causing major engine damage and a runway to be closed to remove engine fan blades. In the same month, a Merlin 4 struck a bird on approach to Denver International, the pilot took glass to the face but landed safety. In February 1998, a Cessna Citation flew through a flock of gulls in Watsonville, Calif., which damaged its fuselage windows, an engine and several wing panels.
In January of 1998, a bird struck a Boeing 737 while leaving Salt Lake City International and damaged the plane's No. 1 engine. In that same month, snow geese forced the emergency landing of a Boeing 727, damaged an engine, tore the radome and pilot tube from the aircraft and damaged both leading edges of the airplane's wings. Also in that same month, a Cessna Citation hit a

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