Figure 4. Closed oil mist pump/system. |
This oil recovery helps justify superior and more expensive synthetic oil. It is recommended to use ISO Grade 32 or 68 synthetics lubes at locations that experience ambient temperatures below 40oF. Certain mineral oil base stocks promote the formation of wax platelets at low temperatures, which might plug the small bore passages in some reclassifier fittings. Figure 4 shows a single unit recovery system.
Technical Advantages of Dry Sump Oil Mist
Oil mist ranks near the top of the list of most reliable lubrication methods. The dry sump oil mist technique offers the following advantages:
- Bearing wear particles are not recycled back through the bearing, but are washed off instead.
- The need for periodic oil changes is eliminated.
- There are no oil rings whose wear debris might jeopardize bearing life.
- Typically, oil mist will cause bearings to operate up to 20oF cooler.
- Long-term oil breakdown, oil sludge formation and oil contamination are no longer factors affecting bearing life.
- The ingress of atmospheric moisture into pump or motor bearings due to daily solar heating and nightly cooling (which causes air in the bearing housing to expand and contract) is prevented by the pressurized oil mist.
- The proper amount of the correct, clean oil is applied continuously, so the internal metal surfaces are always coated with oil, which prevents corrosion.
- L10 bearing life is extended by factors of 3 to 6 (Source: Texas A&M University Research).
In addition, the service and maintenance requirements of modern oil mist systems are extremely low, which further lowers life cycle costs.
About the Author: Allan R. Budris, P.E., is an independent consulting engineer who specializes in training, failure analysis, troubleshooting, reliability, efficiency audits, and litigation support on pumps and pumping systems. He can be contacted via email at [email protected].
References:
1. Bloch, Heinz P. & Allan R. Budris. Pump User’s Handbook, Life Extension, Fourth edition, Fairmont Press Inc., 2014.
News Briefs
WASHINGTON, DC, diversion sewer project earns national recognition
CDM Smith of Fairfax, Va., has earned a National Recognition Award for exemplary engineering achievement in the American Council of Engineering Companies’ (ACEC) 49th annual Engineering Excellence Awards for the Tingey Street Diversion Sewer in Washington, D.C.
As part of DC Water’s strategy to reduce combined sewer overflows to the Potomac and Anacostia Rivers and Rock Creek, the 72-inch diameter tunnel captures and stores wet weather flows for treatment at the Blue Plains Advanced Wastewater Treatment Plant. To minimize impacts to a new mixed-use redevelopment project and two subway line crossings, the tunnel was installed on an expedited schedule using a laser-guided micro-tunnel boring machine. Two diversion structures were built to direct flow away from the Anacostia River and into the tunnel. A 36-inch pipe from one of the structures was installed using pilot tube tunneling methods to minimize disturbance to a nearby roadway. Instrumentation installed in two underlying subway tunnels provided real-time monitoring of structural conditions.
ACEC recognized 151 projects throughout the nation and the world as preeminent engineering achievements, and all were eligible for top national honors. Judging for this year’s awards - known industry-wide as the “Academy Awards of the engineering industry” - took place in February, conducted by a panel of more than 30 engineers, architects, government officials, media members, and academia. Award criteria included uniqueness and originality, technical innovation, social and economic value, complexity, and success in achieving goals.
Winners of the top national awards will be revealed at the annual Engineering Excellence Awards Dinner and Gala, a black-tie event to be held Tuesday, April 19, 2016, at the Marriott Wardman Park Hotel in Washington, D.C.
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