Glossary Engines & Propulsion

Udara Bleed (Bleed Air)

Definition

Udara bertekanan tinggi dan bersuhu tinggi yang disadap dari tahap kompresor mesin, digunakan untuk pressurization kabin, pendingin udara, de-icing sayap, dan sistem pesawat lainnya.

Apa Itu Bleed Air?

Bleed air is compressed, hot air extracted from intermediate or high-pressure compressor stages of a gas turbine engine. At those stages, air has been compressed to pressures of 30–45 psi and temperatures of 200–250 °C — energetic enough to run cabin pressurization, heating, anti-icing systems, and engine starting without additional pumps or heaters. Extracting bleed air reduces available engine thrust and efficiency, which is why some aircraft have eliminated bleed air entirely.

Cara Kerja

Bleed air is tapped at one of two compressor stages depending on flight conditions:

  • Intermediate pressure (IP) port: Lower-energy air used at high power settings where the engine compresses air sufficiently at intermediate stages.
  • High pressure (HP) port: Used at low power settings (descent, idle) when IP stage pressure is insufficient. Automatically switches via Pressure Regulating Shutoff Valves (PRSOV).

After extraction, bleed air travels through the Pneumatic Distribution System to:

  • Air Conditioning Packs: Air cycle machines cool and regulate bleed air for cabin distribution
  • Pressurization: Maintains cabin altitude (typically 6,000–8,000 ft equivalent) by pressurizing the fuselage
  • Wing and engine inlet anti-icing: Hot bleed air flows through leading edge D-sections to prevent ice accumulation
  • Engine starting: Bleed air from the APU or a ground cart spins the starter turbine to accelerate the engine to self-sustaining speed
  • Hydraulic reservoir pressurization and potable water tank pressurization

Spesifikasi Kinerja

  • Efficiency penalty: Bleed air extraction costs 1–3% fuel burn on a typical flight
  • Pressure: Delivered to packs at approximately 30–45 psi after regulation
  • Temperature: Pre-cooled by fuel-air heat exchangers to ~200 °C before distribution
  • Flow rate: Up to 2 lb/sec per engine on large twins at maximum bleed demand

Contoh Pesawat

  • Airbus A320: Conventional bleed air from CFM56/LEAP engines — industry-standard architecture
  • Boeing 787 Dreamliner (bleedless): No bleed air extracted from engines. Instead, electric compressors (powered by generators) provide all pressurization and anti-icing — saving 2–3% fuel burn and improving cabin air quality (no risk of engine oil contamination)
  • Airbus A350 (partial bleedless): Uses bleed air for cabin conditioning but electric wing anti-icing (hybrid approach)
  • Boeing 737 / Airbus A320: APU provides bleed air for engine starting and ground air conditioning before main engines start

Bleed air management is controlled automatically by FADEC in coordination with the aircraft's pneumatic and environmental control systems.

Related Terms

Arsitektur No-Bleed

Filosofi desain pesawat modern yang dipelopori Boeing 787 yang menghilangkan seluruh ekstraksi udara bleed mesin, menggantikan sistem pneumatik dengan kompresor, pompa, dan elemen pemanas elektrik untuk efisiensi bahan bakar dan keandalan yang lebih baik.

Kontrol Mesin Digital Penuh

Sistem komputerisasi dengan otoritas penuh atas semua parameter mesin, mengoptimalkan kinerja dan melindungi mesin dari kerusakan tanpa cadangan mekanis.

Mesin Turbofan

Jenis mesin jet paling umum dalam penerbangan komersial, menggunakan kipas besar untuk menghasilkan sebagian besar daya dorongnya.

Ruang Bakar

Bagian mesin jet tempat udara terkompresi bercampur dengan bahan bakar dan terbakar, menghasilkan gas berenergi tinggi yang menggerakkan turbin.

Sistem Kontrol Lingkungan

Sistem terintegrasi yang menjaga suhu, tekanan, dan kualitas udara kabin dengan mengkondisikan udara bleed mesin atau udara terkompresi secara elektris untuk kenyamanan dan keselamatan penumpang dan awak.

Sistem Perlindungan Es

Sistem yang mencegah atau menghilangkan akumulasi es pada permukaan pesawat kritis — termasuk tepi depan sayap, inlet mesin, tabung pitot, dan kaca depan — menggunakan metode termal, mekanis, atau kimia.

Sistem Pneumatik

Sistem pesawat yang menggunakan udara terkompresi — biasanya diekstrak dari tahap kompresor mesin sebagai udara bleed — untuk pressurization kabin, anti-icing, starting mesin, dan pressurization reservoir hidrolik.

Tahap Kompresor

Sekumpulan airfoil berputar dan stasioner di dalam mesin jet yang secara bertahap memampatkan udara masuk sebelum pembakaran.

Unit Daya Bantu (APU)

Mesin kecil di bagian ekor yang menyediakan tenaga listrik dan pendingin udara saat mesin utama mati.

Frequently Asked Questions

What is Udara Bleed?
Udara bertekanan tinggi dan bersuhu tinggi yang disadap dari tahap kompresor mesin, digunakan untuk pressurization kabin, pendingin udara, de-icing sayap, dan sistem pesawat lainnya.
Why is Udara Bleed important in aviation?
Apa Itu Bleed Air? Bleed air is compressed, hot air extracted from intermediate or high-pressure compressor stages of a gas turbine engine.
What are examples of Udara Bleed?
Common examples of Udara Bleed include: Conventional bleed air on Airbus A320 for cabin pressurization, Bleedless Boeing 787 using electric compressors instead, APU bleed air for engine starting on ground.
How does Udara Bleed relate to other aviation concepts?
Udara Bleed is closely related to Arsitektur No-Bleed and Kontrol Mesin Digital Penuh, among other key aviation concepts.

More in Engines & Propulsion