The General Electric T-700 Or What makes that “Rotor Thing” turn? CW3 SMART References: -10 T700 Engine manual Student Handouts
OBJECTIVE Develop student instructor pilots understanding of the GE T-700 engine.
Topics History and development IAW FTG Schedule Electrical control unit (ECU) Hydromechanical unit (HMU) Pressure and overspeed unit (POU) NP overspeed protection Engine Alternator
ENGINE CHARACTERISTICS Output power: 1,543 SHP (sea level standard day) Type of compressor: 5 stages axial, 1 centrifugal Variable geometry: IGV+ stage 1&2 stator vanes Engine weight: 415 LBS Time between overhaul: none(on condition)
HISTORY&DEVELOPMENT The T700 engine design is directed at minimizing required maintenance Maintenance tasks have been simplified Corrective maintenance is on on a “on condition” basis Modular design allows sub-system replacement
HISTORY CONTINUED: Lock wire elimination Tool requirements reduced LRU’s External lines reduced HMU no Rigging Dual sided sight glass and “impending” bypass indicators
ENGINE MODULES Cold section Hot section power turbine module Accessory module
COLD SECTION
COLD SECTION Includes the inlet comprised of , swirl frame, main frame, front frame, and scroll case. These together with the inlet duct and blower make up the Inlet. Compressor section, diffuser and midframe. Hot air and oil provide anti-icing Scroll vanes act as air/oil cooler supplementing the fuel/oil cooler 100% NG=44,700 RPM
BASIC OPERATION
HOT SECTION Consists of combustion liner, #1 stage nozzle assembly, and the gas generator turbines. Gas generator turbines rotor drives the compressor 12 fuel injectors, 2 primer nozzles, and 2 igniters
POWER TURBINE MODULE Comprised of the power turbine rotors, power turbine driveshaft, power turbine case, the #3 and #4 nozzles, and the exhaust frame. Expanding exhaust gases exiting drives the free power turbine at 20,900 RPM=100%NP Casing support the 7 TGT Thermocouples and the NP/torque sensors
ACCESSORY MODULE Mounts to the cold section module and is driven off the compressor section by a PTO via a radial driveshaft. Provides drive and mounts (pads) for engine components
ECU
ECU….. WHAT’S IT DO? Trims the HMU NG governor through the tq motor within acceptable engine limits to maintain isochronous NP governing. This can be overridden ONLY by TGT limiting. Exchanges tq signals to provide automatic load sharing for multi-engine use. Provides signal to the POU for NP overspeed protection 106+- 1% Provides cockpit signals, NP, TGT, TQ
ECU FUNCTIONS, OR CHECK RIDE ANSWERS ? Np reference from cockpit Overspeed signal to POU (redundant power,TQ SIGNAL) TGT limiting, 837-849 Signals to cockpit, TQ, TGT, Np History recorder signal Isochronous NP governing(will maintain ref.) Torque load sharing
HYDOMECHANICAL UNIT
HMU DESCRIPTION Mounted on the aft center of the AGB Receives filtered fuel through cored passages in the AGB High pressure vane type pump. Max 832 PSI
HMU FUNCTIONS Collective pitch compensation (LDS) Acceleration/deceleration flow limiting Ng limiting (Governing & shutdown) Torque motor to trim NG governor PAS override (lockout) Fuel pumping Fuel metering Variable geometry positioning Vapor vent (priming)
POU
POU DESCRIPTION The Pressurizing and overspeed unit is mounted on the aft, left hand side of the AGB 3 outlets. Start fuel manifold, main fuel manifold, and overboard drain (+bypass during overspeed) 3 inlets. Fuel through AGB core, P3 air, overspeed signal
POU FUNCTIONS Sequences fuel to start fuel manifold (2) Sequences fuel to main fuel manifold (12) Purges start fuel manifold and nozzles during start, and main fuel manifold and nozzles during shutdown Provides NP overspeed protection when activated from the ECU overspeed circuit
ENGINE ALTERNATOR
ALTERNATOR DESCRIPTION Mounted on the right hand forward side of the AGB Provides power to all essential engine functions output consists of 3 individual signals (windings) May fail independently or as a unit
ALTERNATOR FUNCTIONS (BY WINDING) Provides power to the ignition exciter Provides power to the ECU Provides NG signal to the cockpit
NICE TO KNOW STUFF BLUE=OVERSPEED GREEN=COCKPIT SIGNALS BLACK=ENGINE IGNITION YELLOW=ENGINE ELECTRICAL FUNCTIONS
ENGINE EP’S FAILURE LAUNDRY LIST COMPRESSOR SHAFT INCREASE/DECREASE/TQ SPLIT
LIMITS OIL TEMP OIL PRESS NG NP TGT -50-135/135-150 20-100/35-100 0-99/99-102/102-105 91/95-101/101-105/105-107 0-775/775-850/850-886
SUMMARY The T700 is closely integrated with helicopter components to provide proper power output for each flight condition The system functions automatically, with no pilot action required after starting Engine control is functionally split between the HMU and ECU. The HMU provides functions for safe operation, and the ECU performs a fine trim to reduce pilot workload The system is self contained and engine powered