aviation Aviation includes the activities surrounding mechanical flight and the aircraft industry. ''Aircraft'' includes fixed-wing and rotary-wing types, morphable wings, wing-less lifting bodies, as well as lighter-than-air craft such as hot a ...

, a balanced field takeoff is a condition where the

takeoff distance Takeoff is the phase of flight in which an aerospace vehicle leaves the ground and becomes airborne. For aircraft traveling vertically, this is known as liftoff. For aircraft that take off horizontally, this usually involves starting with a t ...

required (TODR) with one engine inoperative and the accelerate-stop distance are equal for the aircraft weight, engine thrust, aircraft configuration and runway condition. For a given aircraft weight, engine thrust, aircraft configuration, and runway condition, the shortest runway length that complies with safety regulations is the balanced field length."If we let A be the distance traveled by the airplane along the ground from the original starting point to the point where V₁ is reached, and we let B be the additional distance traveled with an engine failure (the same distance to clear an obstacle or to brake to a stop), then the balanced field length is by definition the total distance A+B." Anderson, John D. Jr (1999), ''Aircraft Performance and Design'', Section 6.7, McGraw-Hill, The takeoff decision speed V₁ is the fastest speed at which the pilot must take the first actions to reject the takeoff (e.g. reduce thrust, apply brakes, deploy speed brakes). At speeds below V₁ the aircraft can be brought to a halt before the end of the runway. At V₁ and above, the pilot should continue the takeoff even if an emergency is recognized. The speed will ensure the aircraft achieves the required height above the takeoff surface within the takeoff distance. To achieve a balanced field takeoff, V₁ is selected so the take-off distance with one engine inoperative, and the accelerate-stop distance, are equal. When the runway length is equal to the balanced field length only one value for V₁ will exist. Aviation regulations (for

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aircraft) require the

with one engine inoperative to be no greater than the take-off distance available (TODA); and the accelerate-stop distance to be no greater than the accelerate-stop distance available (ASDA). On runways longer than the balanced field length for the aircraft weight the operator may be able to choose V₁ from a range of speeds if adequate information is supplied by the aircraft manufacturer. The slowest speed in this range will be determined by the Take Off Distance Available (TODA). For a low V₁, if an engine fails just above V₁, the acceleration to V_R on one engine will take more distance. Whereas, if an engine fails before a low V₁, it will take less distance to stop, so the Accelerate Stop Distance Required (ASDR) is lower. By contrast, the fastest speed in this range will be determined by the Accelerate Stop Distance Available (ASDA). If an engine fails above a high V₁, it will take less distance to reach V_R, so Take Off Distance Required (TODR) is lower. Whereas, if an engine fails just below a high V₁, it will take more distance to stop, so the Accelerate Stop Distance Required is greater. Alternatively, on runways longer than the balanced field length the pilot can use reduced thrust, resulting in the balanced field length again being equal to the runway length available. Factors affecting the balanced field length include: * the mass of the aircraft – higher mass results in slower acceleration and higher takeoff speed * engine thrust – affected by temperature and air pressure, but reduced thrust can also be deliberately selected by the pilot *

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– reduced air pressure or increased temperature increases minimum take off speed * aircraft configuration such as wing

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position * runway slope and runway wind component * runway conditions – a rough or soft field slows acceleration, a wet or icy field reduces braking

Technology

Calculation of the balanced field length traditionally involves relying on an expansion program model, where the various forces are evaluated as a function of speed, and step-wise integrated, using an estimate for V₁. The process is iterated with different values for the engine failure speed until the accelerate-stop and accelerate-go distances are equal. This process suffers from the inherently slow and repetitive approach, which is also subject to round-off errors if the speed increment between the steps is not carefully selected, which could cause some issues in first principle aircraft performance models provided to airlines for day-to-day operations. Alternate approaches using a more mathematically complex but inherently more accurate and faster algebraic integration method have however been developed. Landing and Takeoff Performance Monitoring SystemsKhatwa, R., ''The Development of a Takeoff Performance Monitor'', doctoral thesis, University of Bristol, 1991 are devices aimed at providing the pilot with information on the validity of the performance computation, and averting runway overruns that occur in situations not adequately addressed by the takeoff V-speeds concept.

References

{{Types of take-off and landing Types of take-off and landing

Technology

See also

References