An effective preventive maintenance program should always include regularly scheduled analysis of heat transfer fluids.
There are two steps to the thermal-fluid analysis process. The first is observational, the second is analytical.
Paratherm’s trained technicians can open up the jar and observe a thermal fluid sample, using three of the five senses (generally, we don’t taste it, or listen to it) and a few simple empirical techniques, to record viscosity, consistency, water contamination, metal contamination, and possible acidity, particle formation, and presence of sludge.
These objective observations can tell us much about the fluid. Often, suspicions of contamination arise during this step, and can be confirmed by the subsequent lab tests. Appearance and odor can indicate contamination, as well as possible cracking due to overheating, and increased acidity due to oxidation.
If we observe metal contamination, we can diagnose metallic wear in the system; most often due to pump problems, but also sometimes originating elsewhere. (story continues below…)
Click the screen to watch the one-minute video: The Easy Way
to Check if Your Heat Transfer Fluids Will Keep Working
(…continued from above)
If we observe water contamination, we can interview the system engineer to determine possible exchanger breaches, or other system problems that can introduce moisture to the circuit.
When the preliminary observations are complete, the sample is sent to the laboratory to be tested for TAN (Total Acid Number,) kinematic viscosity, and distillation range.
On the laboratory end, changes in the distillation curve can indicate overheating problems, as can viscosity changes. We compare the new-fluid values for these parameters with those of the sample from the working system. Interviewing the system operators can then help us pinpoint whether there are fluid velocity problems, flow restrictions, expansion tank configurations, or other system characteristics that may be causing overheating.
In a similar manner, when the total acid number of the fluid has exceeded the envelope we consider optimum, we can work with the customer to help determine how their system is malfunctioning, or underfunctioning, to cause air to contact the hot fluid and oxidize it.
Paratherm Technical will analyze any brand of heat transfer fluid, reporting Acid Number, Kinematic Viscosity, and Distillation Range, with results interpretation and system suggestions. Contact us now and we’ll send your kit right away.
(In many cases, fluid analysis simply provides confirmation that the system, and the fluid, are well maintained, and running well.)
These sorts of problems often involve the expansion tank, and may include how it is piped, what size it is, its location, its level, or its temperature– or a combination of these factors. But there are other circumstances that can cause oxidation in a given system, and discussion of fluid analysis results with the operator can often reveal these trouble spots.
Early discovery of such fluid problems, which really are symptoms of system problems, has helped us preserve systems and fluid, maintaining them longer than when analysis is not performed. But even more important, we have prevented problems such as; loss of production; long downtimes for repairs; poor end-product quality; fire risk due to degraded fluid; premature pump replacement due to cavitation, poor adjustment, or seal and bearing wear; design flaws that cause shortened fluid and system life; expansion tank damage due to acidic sludge buildup, and many more.