Transformer oil – Vaisala MMT162 User Manual

Chapter 2 __________________________________________________________ Product Overview

VAISALA _______________________________________________________________________ 13

It is essential to monitor the water content and to keep it on a suitable

level, meaning below saturation.

When measuring the water content of oil, it is best to measure the water

activity before an oil reservoir and from a pressure line flow. This way

the performance of dehumidifiers can be kept under control to ensure that

no free water reaches the bearings.

Transformer Oil

The determination of moisture in oil is an essential part of a

comprehensive transformer maintenance program. Aging and

deterioration increase the capacity of oil to absorb water. The primary

interest in transformers is to measure the water not in oil but in the

cellulosic insulation around the transformer windings. Heating and

cooling have a considerable effect on moisture levels in oil. While

temperature rises, the paper insulation of transformers tends to loose

moisture which is absorbed by the oil surrounding it. Saturation level is

thus a true indicator of moisture present. The MMT162 method provides

for a reliable detection of the aging of oil and possible leakages.

Oil immersed transformers rely on the oil for cooling, protection from

corrosion and as an important component of their insulation. Excessive

moisture content in oil causes accelerated ageing of the insulation

materials and reduces their dielectric strength. In extreme cases this can

result in arcing and short circuits within the windings. Accurate moisture

measurements can also warn about leaks in the oil system, as water is

absorbed from the surrounding air.

Heating and cooling of a transformer affect moisture levels in oil. This is

due to the fact that the water solubility of oil is temperature dependent. In

general, water solubility increases as temperature rises; see Figure 2 on

page 14 below. Changes in temperature also have an effect on water

desorption of the paper insulation around the transformer windings.

Desorption of water from the insulation increases as temperature rises

and the surrounded oil absorbs desorbed water. Moisture level in oil is

thus a true indicator of moisture present in the paper insulation.
In addition, it must be noted that capacity of oil to absorb water depends

both on the chemical structure of the oil and the additives.