Glossary Engines & Propulsion

推力 (Thrust)

Definition

航空機のエンジンが生み出す前進力で、ポンドフォース(lbf)またはキロニュートン(kN)で測定され、飛行と上昇を可能にする。

推力とは?

Thrust is the reaction force generated by an aircraft engine that propels the aircraft forward. It is produced in accordance with Newton's Third Law: by accelerating a mass of air rearward, the engine creates an equal and opposite forward force on the aircraft. Thrust must overcome aerodynamic drag to maintain level flight, and exceed drag plus the component of weight along the flight path to climb.

仕組み

Different engine types generate thrust through different mechanisms:

  • Turbofan: The fan accelerates a large bypass airstream rearward while the core expels hot exhaust. Combined reaction produces thrust. See Turbofan Engine.
  • Turboprop: A propeller accelerates a very large mass of air at lower velocity — highly efficient at low airspeeds. See Turboprop Engine.
  • Piston/propeller: Similar to turboprop but with a reciprocating piston engine.
  • Rocket: Carries its own oxidizer — produces thrust in vacuum but used only for spacecraft.

Thrust is measured in pounds-force (lbf) in the United States and kilonewtons (kN) in most other countries. One lbf equals approximately 4.448 N.

性能仕様

  • Static vs. in-flight: Thrust decreases with airspeed as net momentum difference reduces; also falls with altitude as air density decreases.
  • Thrust-to-weight ratio (TWR): Must exceed 1.0 for vertical takeoff. Commercial airliners typically achieve 0.25–0.35 TWR.
  • Takeoff thrust (full rated): Boeing 737 MAX: ~56,000 lbf total (2 × 28,000); Boeing 777X: ~210,000 lbf total (2 × 105,000)
  • Derated thrust: Airlines frequently use reduced thrust takeoffs (flex thrust) to extend engine life on cool, light, or short-runway days.
  • Flat rated temperature: Most engines maintain full rated thrust up to ~30–35 °C (ISA+15); above this, thrust decreases with temperature.

航空機の事例

  • Airbus A380: 4 × GP7270 engines, 311,000 lbf total thrust at takeoff
  • Boeing 777X: 2 × GE9X-105B1A, 210,000 lbf — most powerful twin-engine airliner
  • Concorde (retired): 4 × Olympus 593, 152,200 lbf total with afterburner
  • Embraer E175: 2 × CF34-8E5, 28,900 lbf total

After landing, Thrust Reversers redirect engine output forward to assist braking.

Frequently Asked Questions

What is 推力?
航空機のエンジンが生み出す前進力で、ポンドフォース(lbf)またはキロニュートン(kN)で測定され、飛行と上昇を可能にする。
Why is 推力 important in aviation?
推力とは? Thrust is the reaction force generated by an aircraft engine that propels the aircraft forward. It is produced in accordance with Newton's Third Law: by accelerating a mass of air rearward, the engine creates an equal and opposite forward force on the aircraft.
What are examples of 推力?
Common examples of 推力 include: Boeing 777X: 105,000 lbf per GE9X engine, Airbus A380: 311,000 lbf total from 4 GP7270 engines, Boeing 737 MAX: 28,000 lbf per CFM LEAP-1B.
How does 推力 relate to other aviation concepts?
推力 is closely related to アフターバーナー and スラストリバーサー, among other key aviation concepts.

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