MRO Magazine

Feature

The Dangers of Air and Bubbles

Air and bubbles, or fluid aeration and cavitation, can cause numerous problems in a hydraulic and lubrication oil system. Lubrication practitioners should be attentive to abnormal noise, poor componen...


Air and bubbles, or fluid aeration and cavitation, can cause numerous problems in a hydraulic and lubrication oil system. Lubrication practitioners should be attentive to abnormal noise, poor component response due to spongy behaviour of aerated fluids, and high fluid temperature as signs of poor lubricant health.

Aeration occurs when air contaminates hydraulic fluid. Symptoms include foaming of the fluid, erratic actuator movements, and a banging or knocking noise when it compresses and decompresses as it circulates through the system.

Because air usually enters the hydraulic system through the pump’s inlet, ensure that the pump inlet lines are in good condition and all the clamps and fittings are tight. Flexible intake hoses can age and become porous, so it is essential to replace them regularly.

Aeration accelerates degradation of the hydraulic fluid, which in turn can cause overheating and burning of the seals. Regularly check the condition of the pump shaft seal and if it is leaking, replace it.

Cavitation occurs when the pressure acting in a fluid is below the saturation pressure of a dissolved gas in the fluid. This causes the absolute pressure in that part of the circuit to fall below the vapour pressure of the hydraulic fluid, which results in the formation of vapour cavities within the fluid. When these cavities encounter a region of higher pressure, they will collapse. Depending on the load pressure of the hydraulic pump, this can cause broad, high-frequency vibrations, noise, material damage and degradation of the oil, leading to mechanical failure of the system components.

Cavitation commonly occurs at the hydraulic pump, where a clogged inlet strainer or restricted intake line can cause the fluid to vaporize. Check the inlet strainer filter on a regular basis to see that it is not clogged, and if it is, clean it.

Operating a hydraulic system above temperatures of 82C (180F) should be avoided, because it can damage seals and accelerate degradation of the hydraulic fluid. Hydraulic systems dissipate heat through the fluid reservoir; therefore, the reservoir fluid level should be monitored and maintained at the correct level. To prevent damage caused by high temperatures, a fluid temperature alarm should be installed and all high-temperature indications investigated and rectified immediately.

By carefully monitoring hydraulic lubricant health and safeguarding against the possible causes of aeration and cavitation, costly equipment repairs can be avoided and lubricant life can be significantly extended.

Dave Garner is with Dow Corning Molykote. For more information, visit www.dowcorning.com.

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