Spectro Scientific

Military Sealift Command—Saving Time on Oil AnalysisMilitary sealift command—Saving time on oil analysis

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Courtesy of Spectro Scientific

Military Sealift Command (MSC) has responsibility for up to 120 active and reserve civiliancrewed ships that replenish U.S. Navy ships, provide service support, conduct special missions, strategically preposition combat cargo at sea around the world, and move military equipment and supplies to deployed U.S. forces.

In addition to the command’s active ships, MSC gains operational responsibility once the Department of Transportation’s Maritime Administration activates any of its approximately 50 ships that are maintained in Reduced Operating Status in the Ready Reserve Force. MSC also charters commercial vessels as required to meet government needs, and during a national emergency, can employ dozens of additional commercial vessels enrolled in the Voluntary Intermodal Sealift Agreement. These multiple sources enable MSC to provide a comprehensive, global capability to meet national maritime needs worldwide.

As the Department of Defense (DOD) is increasingly asked to do more with less, MSC’s customers continue to turn to the command for innovative and costeffective solutions for their transportation needs. Everything is on the table as DOD copes with rising manpower, operating, and ownership costs in the face of growing operational demands. While this is a challenge to MSC, it is also a tremendous opportunity to demonstrate the financial and operational benefits of employing civilianmanned ships and commercial maritime bestpractices.

To meet the challenges of tomorrow, MSC continues to examine opportunities for cost reduction, thus freeing up the resources needed to sustain its force structure. It will continue to modernize and to create future logistics capabilities in a resourceconstrained environment.


The USNS Watson is a large, mediumspeed, rollon, rolloff (LMSR) ships that have significantly expanded the nation’s sealift capacity. The Watson is operated by commercial shipping companies under contract to Military Sealift Command. It can carry a variety of military equipment in support of Army and Marine Corps operations. The Watson and other ships of its class were the major transporters of military equipment during Operations Enduring Freedom and Iraqi Freedom and during the military operations in Afghanistan and Iraq that began after the 9/11 terrorist attacks.

The Watson is 950ft long, has a beam of 106ft, a fully loaded displacement of 62,644T, and a service speed of 24k. It has a cargocarrying capacity of more than 380,000ft ², equivalent to almost eight football fields. There are two gas turbine engines, each with an output of 32,000bhp, driving two shafts with 24ft controllable pitch propellers at 95rpm at full power. The ship's diesel generators are capable of producing 12,500kW of electrical power. The ship has many hydraulically powered cranes, cargo doors, and ramps.

The Watson has a considerable amount of machinery including main engines, generators, and cranes that need oil tested on a regular basis to detect potential problems and eliminate the possibility of a catastrophic failure such as serious damage to or even destruction of a diesel engine or hydraulic pump. The ship’s engineering department consists of 11 people which is not a lot for a 950foot ship. These people are responsible for millions of dollars of machinery which could at any moment become critical to our national defense. As in all major Navy ships, oil analysis plays a critical role on the Watson by alerting us to problems that have the potential to damage a vital system and by providing information that enables us to efficiently allocate our scarce resources by planning maintenance based on actual need as opposed to simple intervals of time.

In the past, Watson engineers used test kits for oil analysis. Engineers collected oil samples, brought them back to the control room, and mixed them with the chemicals in the test kit. It was necessary to perform tests in the control room in order to maintain a stable environment for the test chemicals and for the test equipment.

The chemicals used in the testing process are classified as HAZMAT, which poses problems for the shipping of chemicals and disposal of the used reagents. It takes about five minutes to collect a sample; five minutes to bring it back to the control room; and five minutes to perform each of the tests required for generator oil for a total of approximately 35 minutes. Engineers were concerned about the accuracy and repeatability of the tests because they were dependent on using the right amount of both oil and chemicals and reliability of the test kit base equipment and about the need to work with hazardous chemicals.


The USNS Watson was one of two naval ships asked in 2010 to perform a threeweek headtohead comparison of the traditional onetestatatime kits versus portable instruments that operate on the same principles as laboratory instruments. The other ship was a Bob Hopeclass LMSR, similar to the Watson, but utilizing diesel engines for main propulsion instead of gas turbines. To evaluate the performance of the kits versus portable instruments, Watson personnel were asked to perform a specified number of tests in triplicate—once on a test kit, one on a portable instrument, and also by sending a sample to a lab on shore. The instrument used in the test was the Spectro FluidScan Q1000 handheld lubricant condition monitor.

The first thing that was noticed was that portable instruments greatly simplify the process of measuring oil conditions. The instruments are light weight and do not require any chemicals or extra steps so you can carry them to the machinery and perform the analysis onsite. Another benefit is a major reduction of the quantity of oil required for testing and no generation of HAZMAT requiring disposal. The handheld lubricant condition monitor measures the full range of oil condition parameters in about five minutes, the same time that is required to measure a single parameter with a test kit. The result is that it takes 5 minutes to take a sample of oil from a diesel generator, five minutes to measure critical parameters on the oil condition analyzer at the generator, and five minutes to measure the viscosity for a total of 15 minutes, less than half the time required with test kits.

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