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.
The mean depth for each third of total runway length
.
The reported μ or braking action.
The reported μ is measured by such friction-measuring vehicles, as: Skidometer, Saab Friction Tester (SFT), MU-Meter, James Brake Decelerometer (JDB), Tapley meter, Diagonal Braked Vehicle (DBV). ICAO Airport Services Manual Part 2 provides information on these measuring vehicles.
The main problem is that the resulting friction forces of an aircraft (interaction tire/runway) depend on its weight, tire wear, tire pressure, anti-skid system efficiency and… ground speed. The only way to obtain the aircraft’s effective μ would be to use the aircraft itself in the same takeoff conditions, which is of course not realistic in daily operations.
Another solution is to use one of the above-mentioned vehicles, but these vehicles operate at much lower speeds and weights than an aircraft. Then comes the problem of correlating the figures obtained from these measuring vehicles (reported μ
), and the actual braking performance of an aircraft (effective μ
).
To date, scientists have been unsuccessful in providing the industry with reliable and universal values. But tests and studies are still in progress. This is why Airbus publishes contaminated runway information as a function of the type of contaminant and depth of contaminant, and not as a function of the aircraft’s effective μ. Regulation states that:
“IEM OPS 1.485
(b) If the performance data has been determined on the basis of measured runway friction coefficient, the operator should use a procedure correlating the measured runway friction coefficient and the effective braking coefficient of friction of the aeroplane type over the required speed range for the existing runway conditions.”
5.5.2.3. Precipitation Drag
Precipitation drag is composed of:
.
Displacement drag: Produced by the displacement of the contaminant fluid from the path of the tire.
.
Spray impingement drag: Produced by the spray thrown up by the wheels (mainly those of the nose gear) onto the fuselage.
The effect of these additional drags is to :
.
Improve the deceleration rate: Positive effect, in case of a rejected takeoff.
.
Worsen the acceleration rate: Negative effect for takeoff.
So, the negative effect on the acceleration rate leads to limit the depth of a fluid contaminant to a maximum value. On the other hand, with a hard contaminant covering the runway surface, only the friction coefficient (effective μ) is affected, and the depth of contaminant therefore has no influence on takeoff performance.
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