| H-Series | |
|---|---|
| |
| Let L-410NG H85 installation | |
| Type | Turboprop |
| National origin | Czech Republic/United States |
| Manufacturer | GE BGA Turboprops |
| First run | 2009 |
| Major applications | Thrush Model 510 Let L-410NG Technoavia Rysachok |
| Developed from | Walter M601 |
The General Electric H-Series is a family of turboprop aircraft engines produced by GE BGA Turboprops. The initial H80 is an updated derivative of the Walter M601, while the H75 and H85 are later derivatives.
The H80 was launched in 2009 based on the M601. GE added a new compressor, blisks, blades and new stators to enhance power by 3% and boost efficiency by 10%.[1] It reaches 597 kW (801 hp) (shaft horsepower) from the M601-F's 580 kW (780 hp),[2] and improves hot and high performance.
The H80 was certificated by EASA at 13 December 2011, followed by the FAA at 13 March 2012.[3] Its Russian type certificate was received in October 2012, and the engine also approved by Brazilian Civil Aviation agency (ANAC) and the Argentine Administración Nacional de Aviación Civil.[4]
Its Electronic Engine and Propeller Control (EEPC) system received EASA type certification in late 2016. The Diamond Dart 550 military trainer is due to fly it in early 2018 and it will be certified on the Thrush 510G crop duster in this year.[1]
The two-shaft, reverse flow design is derived from the Walter M601: its core features a two-stage axial and single-stage centrifugal compressor, an annular combustor and a single turbine stage, and its propulsion section is powered by a single-stage turbine driving a two-stage planetary gearbox. GE redesigned the compressor with 3D aero to improve its pressure ratio and upgraded the hot section and turbine stages with modern metal alloys for higher temperatures with the same durability.[5]
The H75-100 weighs 94 lb (43 kg) more than the equivalent PT6 but pioneers single lever electronic propeller and engine control in general aviation, for an initial TBO of 4,000 hr which could be increased with experience.[5] It promises 10% better fuel burn, 10% longer overhaul and lower maintenance costs than the PT6A-135 for the Nextant G90XT.[6]
| Variant | H75 | H80 | H85 |
|---|---|---|---|
| Dimensions (L×W×H) | 1,670×560×580 mm (66×22×23 in) | ||
| basic dry | 390 lb (180 kg) | ||
| Compressor[13] | 2-stage axial + 1-stage centrifugal | ||
| Combustor[13] | Annular with fuel slinger | ||
| turbine[13] | 1-stage axial gas.gen + 1-stage axial power | ||
| fuel type | Jet-A/A1 | ||
| Shaft power | 751 hp (560 kW) | 800 hp (597 kW) | 850 hp (634 kW) |
| Eq. shaft power | 795 hp (593 kW) | 845 hp (630 kW) | 898 hp (670 kW) |
| Power-to-weight ratio | 1.93 | 2.05 | 2.18 |
| gas gen. RPM | 35,524 | 35,854 | 36,183 |
| Shaft RPM | 2,080 | ||
| airflow | 8.1 lb (3.7 kg)/s | 8.2 lb (3.7 kg) | 8.4 lb (3.8 kg) |
| TBO | 4,000 h | ||
| Overall pressure ratio | 6.7:1[14] | ||
Related development
Comparable engines
Related lists
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GE Aircraft Engines/GE Aviation/GE Aerospace aircraft engines
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| Turbojets |
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| Turbofans |
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| Turboprops and turboshafts |
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| Aeroderivative gas turbine engines |
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| Propfans |
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