According to the "International Civil Aviation Organization (ICAO), a runway is a "defined rectangular area on a land "aerodrome prepared for the "landing and "takeoff of "aircraft". Runways may be a man-made surface (often "asphalt, "concrete, or a mixture of both) or a natural surface ("grass, "dirt, "gravel, "ice, or "salt).["citation needed]
In January 1919, aviation pioneer "Orville Wright underlined the need for "distinctly marked and carefully prepared landing places, [but] the preparing of the surface of reasonably flat ground [is] an expensive undertaking [and] there would also be a continuous expense for the upkeep."
Runways are named by a number between 01 and 36, which is generally the "magnetic "azimuth of the runway's "heading in "deca"degrees. This heading differs from "true north by the local "magnetic declination. A runway numbered 09 points east (90°), runway 18 is south (180°), runway 27 points west (270°) and runway 36 points to the north (360° rather than 0°). When taking off from or landing on runway 09, a plane would be heading 90° (east).
A runway can normally be used in both directions, and is named for each direction separately: e.g., "runway 33" in one direction is "runway 15" when used in the other. The two numbers usually differ by 18 (= 180°).
If there is more than one runway pointing in the same direction (parallel runways), each runway is identified by appending Left (L), Center (C) and Right (R) to the number to identify its position (when facing its direction) — for example, Runways One Five Left (15L), One Five Center (15C), and One Five Right (15R). Runway Zero Three Left (03L) becomes Runway Two One Right (21R) when used in the opposite direction (derived from adding 18 to the original number for the 180 degrees when approaching from the opposite direction). In some countries, if parallel runways are too close to each other, regulations mandate that only one runway may be used at a time under certain conditions (usually adverse "weather).
At large airports with four or more parallel runways (for example, at "Los Angeles, "Detroit Metropolitan Wayne County, "Hartsfield-Jackson Atlanta, "Denver, "Dallas-Fort Worth and "Orlando) some runway identifiers are shifted by 10 degrees to avoid the ambiguity that would result with more than three parallel runways. For example, in Los Angeles, this system results in runways 6L, 6R, 7L, and 7R, even though all four runways are actually parallel (approximately 69 degrees). At "Dallas/Fort Worth International Airport, there are five parallel runways, named 17L, 17C, 17R, 18L, and 18R, all oriented at a heading of 175.4 degrees. Occasionally, an airport with only 3 parallel runways may use different runway identifiers, for example when a third parallel runway was opened at "Phoenix Sky Harbor International Airport in 2000 to the south of existing 8R/26L, rather than confusingly becoming the "new" 8R/26L it was instead designated 7R/25L, with the former 8R/26L becoming 7L/25R and 8L/26R becoming 8/26.
For clarity in radio communications, each digit in the runway name is pronounced individually: runway three six, runway one four, etc. A leading zero, for example in "runway zero six" or "runway zero one left", is included for all ICAO and some "U.S. military airports (such as "Edwards Air Force Base). However, most U.S. "civil aviation airports drop the leading zero as required by FAA regulation. This also includes some military airfields such as "Cairns Army Airfield. This American anomaly may lead to inconsistencies in conversations between American pilots and controllers in other countries. It is very common in a country such as Canada for a controller to clear an incoming American aircraft to, for example, runway 04, and the pilot read back the clearance as runway 4. In "flight simulation programs those of American origin might apply U.S. usage to airports around the world. For example, runway 05 at "Halifax will appear on the program as the single digit 5 rather than 05.
Runway designations change over time because the magnetic poles slowly drift on the Earth's surface and the "magnetic bearing will change. Depending on the airport location and how much drift takes place, it may be necessary over time to change the runway designation. As runways are designated with headings rounded to the nearest 10 degrees, this will affect some runways more than others. For example, if the magnetic heading of a runway is 233 degrees, it would be designated Runway 23. If the magnetic heading changed downwards by 5 degrees to 228, the Runway would still be Runway 23. If on the other hand the original magnetic heading was 226 (Runway 23), and the heading decreased by only 2 degrees to 224, the runway should become Runway 22. Because the drift itself is quite slow, runway designation changes are uncommon, and not welcomed, as they require an accompanying change in "aeronautical charts and descriptive documents. When runway designations do change, especially at major airports, it is often changed at night as "taxiway signs need to be changed and the huge numbers at each end of the runway need to be repainted to the new runway designators. In July 2009 for example, "London Stansted Airport in the United Kingdom changed its runway designations from 05/23 to 04/22 during the night.
For "fixed-wing aircraft it is advantageous to perform takeoffs and landings into the wind to reduce takeoff or landing roll and reduce the "ground speed needed to attain "flying speed. Larger airports usually have several runways in different directions, so that one can be selected that is most nearly aligned with the wind. Airports with one runway are often constructed to be aligned with the "prevailing wind. Compiling a "wind rose is in fact one of the preliminary steps taken in constructing airport runways. Note that "wind direction is given as the direction the wind is coming from: a plane taking off from runway 09 would be facing east, directly into an "east wind" blowing from 090 degrees.
Runway dimensions vary from as small as 245 m (804 ft) long and 8 m (26 ft) wide in smaller "general aviation airports, to 5,500 m (18,045 ft) long and 80 m (262 ft) wide at large "international airports built to accommodate the largest "jets, to the huge 11,917 m × 274 m (39,098 ft × 899 ft) lake bed runway 17/35 at "Edwards Air Force Base in California – a landing site for the retired "Space Shuttle.
Takeoff and landing distances available are given using one of the following terms:
"" There are runway markings.
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There are runway markings and signs on most large runways. Larger runways have a distance remaining sign (black box with white numbers). This sign uses a single number to indicate the remaining distance of the runway in thousands of feet. For example, a 7 will indicate 7,000 ft (2,134 m) remaining. The runway threshold is marked by a line of green lights.
There are three types of runways:
The first runway lighting appeared in 1930 at "Cleveland Municipal Airport (now known as Cleveland Hopkins International Airport) in "Cleveland, "Ohio.["citation needed] A line of lights on an airfield or elsewhere to guide aircraft in taking off or coming in to land or an illuminated runway is sometimes also known as a "Flare Path.
Runway lighting is used at airports that allow night landings. Seen from the air, runway lights form an outline of the runway. A runway may have some or all of the following:
According to "Transport Canada's regulations, the runway-edge lighting must be visible for at least 2 mi (3 km). Additionally, a new system of advisory lighting, "runway status lights, is currently being tested in the United States.
The edge lights must be arranged such that:
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Typically the lights are controlled by a "control tower, a "flight service station or another designated authority. Some airports/airfields (particularly "uncontrolled ones) are equipped with "pilot-controlled lighting, so that pilots can temporarily turn on the lights when the relevant authority is not available. This avoids the need for automatic systems or staff to turn the lights on at night or in other low visibility situations. This also avoids the cost of having the lighting system on for extended periods. Smaller airports may not have lighted runways or runway markings. Particularly at private airfields for light planes, there may be nothing more than a "windsock beside a landing strip.
Types of runway "safety incidents include:
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The choice of material used to construct the runway depends on the use and the local ground conditions. For a major airport, where the ground conditions permit, the most satisfactory type of pavement for long-term minimum maintenance is "concrete.["clarification needed] Although certain airports have used reinforcement ["clarification needed] in concrete pavements, this is generally found to be unnecessary, with the exception of "expansion joints across the runway where a "dowel assembly, which permits relative movement of the concrete slabs, is placed in the concrete. Where it can be anticipated that major settlements of the runway will occur over the years because of unstable ground conditions, it is preferable to install "asphaltic concrete surface, as it is easier to patch on a periodic basis. For fields with very low traffic of light planes, it is possible to use a sod surface. Some runways also make use of salt flat runways.
For pavement designs, borings are taken to determine the subgrade condition, and based on the relative "bearing capacity of the subgrade, the specifications are established. For heavy-duty commercial aircraft, the pavement thickness, no matter what the top surface, varies from 10 in (250 mm) to 4 ft (1 m), including subgrade.
Airport pavements have been designed by two methods. The first, Westergaard, is based on the assumption that the pavement is an elastic plate supported on a heavy fluid base with a uniform reaction "coefficient known as the "K value. Experience has shown that the K values on which the formula was developed are not applicable for newer aircraft with very large footprint pressures.
The second method is called the "California bearing ratio and was developed in the late 1940s. It is an extrapolation of the original test results, which are not applicable to modern aircraft pavements or to modern aircraft "landing gear. Some designs were made by a mixture of these two design theories. A more recent method is an analytical system based on the introduction of vehicle response as an important design parameter. Essentially it takes into account all factors, including the traffic conditions, service life, materials used in the construction, and, especially important, the dynamic response of the vehicles using the landing area.
Because airport pavement construction is so expensive, manufacturers aim to minimize aircraft stresses on the pavement. Manufacturers of the larger planes design landing gear so that the weight of the plane is supported on larger and more numerous tires. Attention is also paid to the characteristics of the landing gear itself, so that adverse effects on the pavement are minimized. Sometimes it is possible to reinforce a pavement for higher loading by applying an overlay of asphaltic concrete or "portland cement concrete that is bonded to the original slab. Post-tensioning concrete has been developed for the runway surface. This permits the use of thinner pavements and should result in longer concrete pavement life. Because of the susceptibility of thinner pavements to "frost heave, this process is generally applicable only where there is no appreciable "frost action.
Runway pavement surface is prepared and maintained to maximize friction for wheel braking. To minimize "hydroplaning following heavy rain, the pavement surface is usually grooved so that the surface water film flows into the grooves and the peaks between grooves will still be in contact with the aircraft tires. To maintain the macrotexturing built into the runway by the grooves, maintenance crews engage in "airfield rubber removal or "hydrocleaning in order to meet required "FAA friction levels.
In "aviation charts, the surface type is usually abbreviated to a three-letter code.
The most common hard surface types are asphalt and concrete. The most common soft surface types are grass and gravel.
|* BIT||"Bitumenous asphalt or tarmac|
|* BRI||"Bricks (no longer in use, covered with asphalt or concrete now)|
|* COR||"Coral (fine crushed coral reef structures)|
|* GRE||Graded or rolled earth, grass on graded earth|
|* GRS||"Grass or earth not graded or rolled|
|* PEM||Partially concrete, asphalt or bitumen-bound macadam|
|* PER||Permanent surface, details unknown|
|* PSP||"Marston Matting (derived from pierced/perforated steel planking)|
|* SMT||"Sommerfeld Tracking|
|* U||Unknown surface|
Water runways do not have a type code as they do not have physical markings, and are thus not registered as specific runways.
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A runway of at least 6,000 ft (1,829 m) in length is usually adequate for "aircraft weights below approximately 200,000 lb (90,718 kg). Larger aircraft including "widebodies will usually require at least 8,000 ft (2,438 m) at sea level and somewhat more at higher "altitude airports. International widebody flights, which carry substantial amounts of fuel and are therefore heavier, may also have landing requirements of 10,000 ft (3,048 m) or more and takeoff requirements of 13,000 ft (3,962 m).
At "sea level, 10,000 ft (3,048 m) can be considered an adequate length to land virtually any aircraft. For example, at "O'Hare International Airport, when landing simultaneously on 4L/22R and 10/28 or parallel 9R/27L, it is routine for arrivals from "East Asia, which would normally be vectored for 4L/22R (7,500 ft (2,286 m)) or 9R/27L (7,967 ft (2,428 m)) to request 28R (13,001 ft (3,963 m)). It is always accommodated, although occasionally with a delay. Another example is that the "Luleå Airport in Sweden was extended to 10,990 ft (3,350 m) to allow any fully loaded freight aircraft to take off.
An aircraft taking off at a higher altitude must do so at reduced weight due to decreased "density of air at higher altitudes, which reduces engine power. An aircraft must also take off at a reduced weight in hotter or more humid conditions (see "density altitude). Most commercial aircraft carry manufacturer's tables showing the adjustments required for a given temperature.
The world's longest paved runway, at "Qamdo Bamda Airport in Tibet (China), has a total length of 5,500 m (18,045 ft).
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