Within the oil and gas industry, the rotating shafts of equipment—such as pumps, motors, compressors, gearboxes and turbines—perform an essential function in both upstream and downstream applications. This rotating equipment ensures process flow and the safety of employees and the surrounding community.
Bearings are critical to the reliability of rotating equipment. If they fail, the equipment has to be repaired or replaced. Because they support the shaft, bearings are prone to wear and damage. Lubrication starvation and contamination are the principal factors that cause premature bearing failure, so systems have been developed to prevent these issues.
Methods for sealing the gap between a rotating shaft and the stationary bore have evolved with advances in lubrication and lubrication delivery systems. Selecting the right seal for a lubrication system will yield the best bearing protection. Lip seals and labyrinth seals, also known as bearing isolators, are the most common solutions.
Lip seals are unidirectional contact type seals. Their geometry is important for maintaining an optimal radial load on the shaft to develop a meniscus of oil on which the lip can ride, which reduces friction and wear on the shaft and lip (see Figure 1). Depending on the direction of the installed seal, it will either prevent egress of lubrication or ingress of contamination (see Figure 2).
Bearing isolators are non-contact seals that provide bidirectional sealing capability. Their construction includes two components that rotate independently of each other. The stator remains with the bore, and the rotor rotates with the shaft. Between the stator and rotor is the labyrinth—a small, contorted pathway that prevents the egress of lubrication and ingress of contaminants at the same time (see Figure 3).
Grease is an easy lubricant to apply and maintain, and it can be used to prevent contamination. Its consistency makes it easy to seal within bearing chambers. Most equipment designed for grease lubrication is equipped with a purge stream. This allows fresh grease to be pumped into the bearing chamber, replacing degraded or contaminated grease. Grease purging is a common practice, but should only be carried out with an understanding of the grease flow’s effect on the seal.
Lip seals are suitable for use with grease lubrication, since only one seal installed facing the external environment is typically needed. This configuration prevents contamination of the grease by water or dirt and allows it to be purged under the lip if the discharge port becomes plugged or otherwise obstructed. Lip seals are rarely installed with the lip oriented toward the grease. Applications in which no grease should ever escape the seal, such as those in the food industry, are exceptions. In these instances, a metal case lip seal or cover plate that helps retain the seal in the bore is recommended. This helps prevent the seal from blowing out from purge pressure of the grease.
Operating temperature is an important consideration when selecting lip seal material. Because grease does not dissipate heat as well as oil, adding another 100 degrees Fahrenheit to the operating temperature is recommended to ensure that the material can withstand the heat.
Bearing isolators are also suitable for use with grease lubrication. They can retain grease within the bearing chamber even during purging. Because of the consistency of grease, the level of lubrication is not a concern. Bearing isolators are customizable. If the equipment does not have a grease discharge port or if the port is obstructed, a special bearing isolator can be designed to purge the grease through the isolator itself (see Figure 4).
Oil bath/splash is the simplest type lubrication system. It requires only minimal maintenance. A side glass or dip stick should be provided with these systems to ensure that the proper level of lubrication is maintained. The level typically should be at the center of the lowest rolling element of the bearing. With each rotation of the shaft, the rolling elements distribute the oil within the bearing.
This poses a problem for lip seals. Depending on the size of the bearing and the speed of the shaft, the lip could be starved of oil and unable to develop a meniscus. This means that the lip would contact the shaft, grooving it and reducing the seal’s life.