Glossary Engines & Propulsion

Nebenstromverhältnis (Bypass Ratio) (BPR: Bypass Ratio)

Definition

Das Verhältnis des Luftmassenstroms um den Triebwerkskern zum Strom durch den Kern, ein wichtiger Effizienzindikator.

Was ist das Nebenstromverhältnis?

Bypass Ratio (BPR) is the ratio of the mass airflow bypassing the engine core to the mass airflow passing through the core in a Turbofan Engine. A BPR of 10:1 means ten kilograms of air flow around the core for every one kilogram that passes through it. Higher bypass ratios generally translate to greater fuel efficiency and lower noise.

Funktionsweise

The fan at the front of a turbofan accelerates both bypass and core airstreams. The bypass air, expelled at moderate velocity through the fan duct, provides the bulk of thrust efficiently. The core air undergoes combustion and exits at very high velocity, contributing the remainder. The efficiency gain comes from the physics of momentum:

  • Low BPR (1–3:1): High exhaust velocity, high noise, lower efficiency. Typical of older jets and military aircraft.
  • Medium BPR (4–7:1): CFM56 family, older 737s and A320s. Good efficiency balance.
  • High BPR (8–13:1): LEAP, GE9X, Trent XWB. Maximum commercial efficiency and minimum noise.

Leistungsdaten

  • CFM56-7B (737 NG): BPR ~5.1:1
  • CFM LEAP-1B (737 MAX): BPR ~9:1 — 15% fuel saving vs CFM56
  • PW1100G (A320neo): BPR ~12:1 — geared turbofan architecture
  • GE9X (777X): BPR ~10:1 with 134-inch fan diameter
  • GE90-115B (777-300ER): BPR ~8.7:1, previously world's most powerful engine

Flugzeugbeispiele

  • Airbus A220: Pratt & Whitney PW1500G, BPR ~12:1 — quiet regional operations
  • Boeing 787 Dreamliner: GEnx-1B, BPR ~9.6:1, or Rolls-Royce Trent 1000, BPR ~10:1
  • Concorde (retired): Olympus 593 turbojet, BPR 0:1 — pure core thrust for supersonic flight

BPR directly affects Specific Fuel Consumption (SFC). Higher BPR reduces SFC, extending aircraft range. Engine Fan Blades grow larger as BPR increases, requiring wider Nacelles.

Frequently Asked Questions

What is Nebenstromverhältnis (Bypass Ratio) (BPR)?
Das Verhältnis des Luftmassenstroms um den Triebwerkskern zum Strom durch den Kern, ein wichtiger Effizienzindikator.
What does BPR stand for?
BPR stands for Nebenstromverhältnis (Bypass Ratio) (BPR). Das Verhältnis des Luftmassenstroms um den Triebwerkskern zum Strom durch den Kern, ein wichtiger Effizienzindikator.
Why is Nebenstromverhältnis (Bypass Ratio) (BPR) important in aviation?
Was ist das Nebenstromverhältnis? Bypass Ratio (BPR) is the ratio of the mass airflow bypassing the engine core to the mass airflow passing through the core in a Turbofan Engine .
What are examples of Nebenstromverhältnis (Bypass Ratio) (BPR)?
Common examples of Nebenstromverhältnis (Bypass Ratio) (BPR) include: CFM LEAP-1B BPR ~9:1 on Boeing 737 MAX, PW1100G BPR ~12:1 on Airbus A320neo, GE9X BPR ~10:1 on Boeing 777X.
How does Nebenstromverhältnis (Bypass Ratio) (BPR) relate to other aviation concepts?
Nebenstromverhältnis (Bypass Ratio) (BPR) is closely related to Fan-Blatt and Getriebe-Turbofan, among other key aviation concepts.

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