Troubleshooting: PW 530A/535A engines

May 16, 2005
As with any advanced engine, to effectively troubleshoot an engine problem, you must know the symptoms.

Pratt & Whitney of Canada has developed many series of turboprop, turboshaft, and turbofan engines over the years. The most recent production series for corporate jet aircraft is the 530A/535A engines. The PW 530A engine was introduced in December 1995 on the Cessna Citation Bravo. This engine is a 3.24:1 high by-pass, twin-spool engine with a rated take-off thrust of 2,887 pounds. In June 1999, the PW 535A engine was introduced on the Cessna Citation Ultra/Encore. This engine is 8 inches longer than the 530A due to the addition of another compressor stage. This engine shares the same core as the PW 530A. It is rated at 3,360 pounds of thrust at take-off and has a 3.5:1 high by-pass ratio.

The new generation PW 530A/535A engines have their roots in the PW JT15D. Two special features set this engine series apart. The first is the use of an integrated blade rotor (IBR) design. The first stage rotor is milled from a solid block of titanium alloy. The second feature, the Axiam Inc. method, is the high precision, computerized stacking and balancing of the compressor and turbine rotating components.

As with any advanced engine, to effectively troubleshoot an engine problem, you must know the symptoms. We can compare troubleshooting to a trip to the doctor. If we visit the doctor and tell him, "I don't feel well," the doctor could very well order many tests, costing thousands of dollars. Ineffective troubleshooting can result in excessive labor costs and unnecessary parts replacement costs. Getting detailed descriptions of the write-up is the starting point. If you receive a write-up that says, "The left engine is sluggish" and you have the pilot at hand, you can begin the interrogation. But if the pilot hands you the logbook and walks away ? well, you have been there and so have I. Getting as much detail of the nature of the problem, and the circumstances surrounding it will make troubleshooting easier. Always refer to the maintenance manual and troubleshooting decision trees for assistance.

As a matter of convenience, I will discuss a few basic troubleshooting tips by reference to the engine system.

Engine inlet:

Upon approaching the engine check the inlet cone for oil. Any oil present is an indication of a bad No. 3 seal and the engine is no go and requires overhaul.

The next inspection area is the integrated blade rotor (IBR). As this component is made of titanium alloy, do not touch it with your bare hands or with dirty gloves or rags. This will cause stress risers and could lead to corrosion of the rotor.

Remember to always keep lead away from titanium. Any damage to the IBR should be evaluated IAW the aircraft/Pratt & Whitney maintenance manual before flight is permitted.

Compressor section

Engine surging at cruise or a decrease in engine performance may indicate a malfunction in the bleed valve system. A malfunction of the bleed valve system will result in the compressor bleed valve control automatically going to a pneumatic backup mode. Also note that loss of the dedicated N2 speed signal to the bleed control valve will result in automatic reversion of the bleed off valve to the manual pneumatic backup mode.

If you experience higher than normal fuel flow you may have a degraded high pressure compressor.

If increases in T4.5 (Inter Turbine Temperature) and N2 are encountered, one should inspect the high-pressure compressor for foreign object damage, dirt, or erosion.

A gas generator case drain stuck open will result in high fuel flow, increasing ITT, and increasing N2.

Turbine section

An increase in T4.5 with increased fuel flow and decreasing N2 at a given power setting may indicate damage to the high pressure turbine vane ring airfoils or vanes (FOD, burning, or erosion). Also suspect damage to the high pressure turbine blades (FOD, burning, or erosion). Leaking or damaged sealing rings may also produce similar results.

An increase in N2, increasing T4.5 and increasing fuel flow may indicate damage to the low pressure turbine vanes or blades (again FOD, burning, or erosion).

Fuel system

Note: Fuel control units (FCU) for these engines are not interchangeable.

If you encounter a hung start or slow acceleration on a new aircraft, it may be due to dirt in the fuel or tank. Carefully inspect fuel filters and change if needed.

Minimum fuel flow will start the engine. Go to 42 percent and no more. If the engine does not start, check for a loose P3 line (this assumes the exciter box and igniters are functioning properly).

Rigging of the FCU is critical. An improperly rigged FCU can destroy the back half of the engine. Consult the P&W maintenance manual for proper rigging. This engine is not rigged like a JT15D.

While operating the fuel tank boost pump, if fuel runs out the gang drain, then the carbon seal on the pump is shot.

Oil system

Continuous smoke in the exhaust is an indication that the oil screen is incorrectly installed. Smoke at start or shutdown may indicate a possible oil leak at the oil pump pack.

If you encounter low oil pressure, check the oil level, oil filter, fuel/oil heat exchanger, indicating system, pressure adjustment valve, or damage to the external pressure tubes.

If you encounter high oil pressure, then check the indicating system and pressure adjustment valve.

Oil pressure fluctuation should lead you to examine the oil level and indicating system.

If you find high oil temperature, then check the oil level, oil temperature indicating system, or the fuel /oil heat exchanger.

Excessive oil consumption may be the result of the oil level being kept too high, an internal static leakage problem, oil venting out from the accessory gearbox breather (AGB), oil leaking from the AGB seals or external oil leaks. Also check the exhaust pipe for oil and the fuel/oil heat exchanger for internal leakage.

These are but a few samples of troubleshooting the PW 530A/535A engines.

To minimize problems and malfunction of these sophisticated engines, always follow the manufacturer's recommended maintenance schedules, maintenance practices, and Service Bulletins faithfully. Routine inspections and prompt resolution of write-ups will save many hours of labor and even more dollars of expense. Obtain the Pratt & Whitney maintenance manuals, illustrated parts catalog, and component maintenance manual for your specific engine. If you hit a rough spot and need assistance, remember that Pratt & Whitney has a dedicated Customer Help Desk available 24 hours a day, seven days a week at 1-800-268-8000.

In addition, I recommend you attend the line maintenance course offered by Pratt & Whitney Canada, at its Montreal facility. You will receive the latest information and training on these engines, and the training for customers is free. AMT