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What is Oil Analysis?

What is Oil Analysis?

In this article I’ll be running through the basic benefits of carrying out a regular oil sampling and analysis programme. looking at who needs it, who should be carrying out the work, what types of machines is it suitable for, why even small units will be suitable and the reasons why. 

Who needs oil analysis?

I suppose the first question that gets asked is “Who needs an Oil Sampling and Analysis Programme?” and a common thought is “Surely this is only applicable to those places where huge machines are involved.” 

So firstly, any company using machinery which contains components which are lubricated is a suitable candidate.  In this instance size isn’t really that important, providing a sample which is capable of being analysed can be obtained, in reality 60ml for most oil tests and a few grams for greases. 

rail oil analysis

Who should carry out the Sample collection? 

The actual sampling needs to be carried out by someone who has been trained in the correct procedures which should be observed and complied with.  This is necessary in order to prevent damaging the unit from which the sample is being taken or creating a non-representative sample during the collection phase of the process by failing to take the necessary precautions to prevent the ingress of external contamination. 

What sort of machines should we have Oil Analysis carried out on? 

In reality there is no reason to think that Oil Analysis is only suitable for a ‘specific’ range of industries or to those who only have assets which contain large volumes of oil. 

There’s also the train of thought that “It’s only a small gearbox, so we just change the oil each year” thereby negating the need to carry out Oil analysis. We’ll be looking at Why this isn’t always the best thing in the next section 

So, any machine containing rotating components which are lubricated with Oil or grease and which have the ability to physically access this lubricant, can be successfully sampled on a routine basis. Sealed for Life units being the usual exception.  

Oil samples generally only require 60ml to be collected for analysis, there are some exceptions. 

Why do you need oil analysis?

The arguments for not carrying out regular sampling and Oil Analysis usually contain reference to the “High Cost” whereas in fact the comprehensive test suites for most types of fluids can be obtained for less than £20. 

Even a one-off analysis will provide a snapshot of what is occurring within the unit from which the sample has been taken.  Identifying the chemical composition of the lubricant along with the levels of wear metals and the amount of contamination present in the sample is great; but to see and trend changes in these attributes regular samples must be collected. 

Why sample the small volume unit mentioned earlier when it’s a cheap option to just keep changing the oil on a calendar or running time basis?  The answer is simple, if you just dispose of the used lubricant, then the chance to determine the levels of wear to the bearings, gearshousings, or other internal components which may have occurred since the last change will be lost forever.  Thus, when a failure occurs on a machine which has always been maintained that way, it will come as a surprise to the company; because they will feel that they have carried out all the necessary maintenance actions needed to keep it running. Whereas in fact  the available wear history that could have been determined has simply been discarded. 

The costs involved in an unplanned production outage far outweigh the small cost of that one additional sample which could have identified the progression of a fault from an early stage which if trended would have shown increasing levels of wear metals that could have been used to identify the likely source/type of the problem component and allowing for timely intervention to be planned. 

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For more information about our  oil analysis service click here,  complete our contact form or email us at info@pcmseng.co.uk

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What is Turbine Oil Analysis?

What is Turbine Oil Analysis?

For an asset as valuable as a Gas or Steam Turbine, you’ll be thinking that all regular maintenance activities are carried out on time and correctly; but whilst vibration levels along with temperatures and pressures are monitored routinely to look for any signs of performance degradation or untoward changes that could affect the continued operation, wouldn’t it be beneficial to know just how well the Lubrication system is performing? In this article, I will be explaining all you need to know about what Turbine Oil Analysis is.

Why Should You Undertake Turbine Oil Analysis?

what is turbine oil analysisChanging the oil in your turbine is expensive, monitoring the performance and additive levels are not. This data will give you a trend that allows you to schedule and budget for the costly oil change.  

What parameters for the lubrication system are checked, other than ensuring the reservoir content is sufficient and oil pressure and temperature are within the expected limitsThe presence of Chip detectors and filter DPI gauges provide an indication that there is a build-up of debris. 

Would it be beneficial to know how the oil is performing in relation to the design standard?  You could say that temperature and pressure values are sufficient to satisfy this requirement.  However, those aspects do not show the chemical changes which are occurring in the circulation system content. 

How much longer will your oil continue to provide the key functions of cooling, lubricating, and protecting.  The expense involved in changing out the oil for these assets is not something that can be taken lightly, so carrying out a premature change to be on the ‘safe side’ brings that forward, but at significant cost. Also if you have no analysis how do you know if your change is premature or too late? 

When Should You Complete Turbine Oil Analysis? 

At regular intervals, samples should be sent away for analysis to assess several key aspects of the lubricant’s chemistry, examine the physical properties of the oil and identify any contamination. Monthly analysis should be carried out to keep trends relevant for the basic analysis suites. The full turbine suite to include the oxidative ability and remaining antioxidants should be carried out at a minimum every 6 months 

What Tests Are Completed As Part of Turbine Oil Analysis? 

A full turbine oil analysis suite should consist of the following:

TestTest MethodDescription
Rotating Pressure Vessel Oxidation Test (RPVOT) D2272-14aThis test evaluates the oxidative stability of the lubricant. The lubricants ability to resist oxidation and degradation under high temperatures, water contamination, oxygen, pressure, and a copper coil catalyst.
Remaining Useful Life Evaluation Routine (Ruler)D6971-09 + D6810This test monitors the % of remaining amine and phenol additives (which are primary antioxidants) compared to the new reference oil. These additives basically neutralise by-products of oxidation to stop the cycle of oxidation.
MPC Varnish PotentialD7843-18This test filters out the insoluble matter of turbine oil. The insoluble matter is then heated up and the colour is recorded using a spectrophotometer. This value is proportional to the lubricants potential to form harmful varnish and sludges.
Visual Inspectionn/aThe visual appearance of the oil and any particulates is noted to support the analytical results of the other tests.
Ferrous Wear Content (FW) D8184A total measure of ferrous particles in the sample irrelevant of size.
Elemental analysisD7303-12Measures several elements to identify wear issues, contaminant levels and chemical composition of the lubricant
Viscosity at 40°CD7279-14AA quality check to ensure the lubricant is still in the specification and therefore retaining its ability to lubricate.
ISO Particle countISO4406The particulates within the sample are analysed and counted to identify any particulate contamination issues.
Total Acid Number (TAN)D66411A + D974-14E02The total acid number allows the acidity of the lubricant to be analysed which gives us a trend and allows us to predict when oxidation is occurring.
PPM Water AnalysisD6304-07The CKF is used to determine the water content of the lubricant. This is compared to the reference oil to account for known additive interferences.
Fourier Transform Infrared (FTIR)E2412This allows the used lubricant result to be overlayed with the spectrum from the reference oil which will show changes to the chemical composition of the lubricant over time. Indicates oxidation, nitration, sulphation and contaminants.
BacteriaD6974-09R13E2Allows us to determine if any microbial growth is likely to occur in the oil tank due to steam, condensate or water contamination.

What Does A Turbine Oil Analysis Report Look Like?

A typical turbine oil analysis report is shown below. You can download our example turbine oil analysis report by clicking here.

What is Turbine Oil Analysis?

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For more information about our turbine oil analysis service click here,  complete our contact form or email us at info@pcmseng.co.uk

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