🔵✈️ Aviation: Troubleshooting Turbine Engines 🚁
| Indicated Malfunction | Probable Causes | Suggested Action |
| Engine rumbles during starting and at low power cruise conditions. | • Pressurizing and drain valve malfunction. • Cracked air duct. • Fuel control malfunction. | • Replace pressurizing and drain valves. • Repair or replace duct. • Replace fuel control. |
| Engine rpm hangs up during starting. | • Subzero ambient temperatures. • Compressor section damage. • Turbine section damage. | • If hang-up is due to low ambient temperature, engine usually can be started by turning on fuel booster pump or by positioning start lever to run earlier in the starting cycle. • Check compressor for damage. • Inspect turbine for damage. |
| High oil temperature. | • Scavenge pump failure. • Fuel heater malfunction. | • Check lubricating system and scavenge pumps. • Replace fuel heater. |
| High oil consumption. | • Scavenge pump failure. • High sump pressure. • Gearbox seal leakage. | • Check scavenge pumps. • Check sump pressure as outlined in manufacturer’s maintenance manual. • Check gearbox seal by pressurizing overboard vent. |
| Overboard oil loss. | • Can be caused by high airflow through the tank, foaming oil, or unusual amounts of oil returned to the tank through the vent system. | • Check oil for foaming. • Vacuum-check sumps. • Check scavenge pumps. |
| Engine has low rpm, exhaust gas temperature, and fuel flow when set to expected engine pressure ratio. | • Engine pressure ratio indication has high reading error. | • Check inlet pressure line from probe to transmitter for leaks. • Check engine pressure ratio transmitter and indicator for accuracy. |
| Engine has high rpm, exhaust gas temperature, and fuel flow when set to expect engine pressure ration. | • Engine pressure ratio indication has low reading error due to: - Misaligned or cracked turbine discharge probe. - Leak in turbine discharge pressure line from probe to transmitter. - Inaccurate engine pressure ratio transmitter or indicator. - Carbon particles collected in turbine discharge pressure line or restrictor orifices. | • Check probe condition. • Pressure-test turbine discharge pressure line for leaks. • Check engine pressure ratio transmitter and indicator for accuracy. |
| Engine has high exhaust gas temperature, low rpm, and high fuel flow at all engine pressure ratio settings. | • Possible turbine damage and/or loss of turbine efficiency. | • Confirm indication of turbine damage by: - Checking engine coast-down for abnormal noise and reduced time. - Visually inspect turbine area with strong light. |
| NOTE: Engines with damage in turbine section may have tendency to hang up during starting. | • If only exhaust gas temperature is high, other parameters normal, the problem may be thermocouple leads or instrument. | • Re-calibrate exhaust gas temperature instrumentation. |
| Engine vibrates throughout rpm range, but indicated amplitude reduces as rpm is reduced. | • Turbine damage. | • Check turbine as outlined in preceding item. |
| Engine vibrates at high rpm and fuel flow when compared to constant engine pressure ratio. | • Damage in compressor section. | • Check compressor section for damage. |
| Engine vibrates throughout rpm range, but is more pronounced in cruise or idle rpm range. | • Engine-mounted accessory such as constant-speed drive, generator, hydraulic pump, etc. | • Check each component in turn. |
| No change in power setting parameters, but oil temperature high. | • Engine main bearings. | • Check scavenge oil filters and magnetic plugs. |
| Engine has higher than normal exhaust gas temperature during takeoff, climb, and cruise. Rpm and fuel flow higher than normal. | • Engine bleed-air valve malfunction. • Turbine discharge pressure probe or line to transmitter leaking. | • Check operation of bleed valve. • Check condition of probe and pressure line to transmitter. |
| Engine has high exhaust gas temperature at target engine pressure ratio for takeoff. | • Engine out of trim. | • Check engine with jetcal. Re-trim as desired. |
