Typical applications, Method used for measuring moisture in oil, Lubrication oil – Vaisala MMT162 User Manual

User's Guide ______________________________________________________________________

12 __________________________________________________________________ M210934EN-C

Typical Applications

Method Used for Measuring Moisture in

Oil

The MMT162 transmitter measures water in oil in terms of water activity

(aw) which can be determined as follows: water activity indicates the

amount of water on the scale of 0 - 1 aw. In this scale, 0 aw is an

indication of completely water free oil and 1 aw an indication of oil fully

saturated with water. Water is present in free form.

The most important feature which distinguishes the measurement of

water activity (aw) from the traditional measurement of absolute water

content (in ppm) is that the saturation point remains stable regardless of

the oil type or the aging of oil, additives used etc. As water activity

exceeds 0.9 aw in any system, there is a risk for segregation (especially if

the temperature decreases).

The water activity is used for alarming at the point of >0.9 aw that the

risk for free water in the system is obvious. The most important

advantages of this system are the fact that water activity is immune to the

aging of oil and to additives, and that the MMT162 transmitter can be

used for continuous on-line measurements. In addition, the MMT162 can

be calibrated against salt solutions and no reference oils are needed.

NOTE

To avoid self-heating of the probe and consequential measurement

errors, make sure there is some flow in the application process.

Lubrication Oil

In many industrial plants, like paper mills, hydro power plants and off-

shore wind turbines, there is a certain amount of free moisture constantly

present. This means that there is a high risk of the free moisture

becoming into contact with the machine bearings. The most common

reasons for the entrance of water are inadequate sealing of the housing or

moisture absorption from ambient air. Accidental leakages from oil

coolers and other equipment can also cause damage.

Free water in lubrication oil prevents oil from forming a uniform layer on

the metal surfaces and thus deteriorating its lubrication properties. This

can cause, for example, spot heating, cavitation, corrosion and micro

pitting. Free water also ruins additives like AW (antiwear) and EP

(extreme pressure). Note that bearings should never be exposed to oils

that have high water content; this is also important during standstill

because the risk for corrosion increases as the oil temperature decreases.