Abstract
Mineral oil, cellulose paper and pressboard are the main insulation materials in a power Transformer. During service, increase of moisture, as the by -products ageing and increases the risk of insulation failure. This paper presents the possibility to use loss tangent (or power factor) and capacitance (tanδ and C) measurements as an estimate of the 'wetness' of aged transformer insulation. Firstly, oil, paper and pressboard samples were aged under laboratory conditions and their tan S and dielectric constant (er) values were measured. Applying the tanδ and er obtained onto a transformer insulation model, the tanδ and C of transformer were calculated and the effects of insulation geometry, moisture content (MC) of pressboard, oil conductivity (σ oil) and insulation temperature under test were established. It was found that tanδ and C values of a transformer strongly dep ended on its insulation geometry and the temperature. If the temperature is fixed, the change of tanδ value of a transformer can be a direct measure of moisture in pressboard for 'wet' and 'extremely wet' conditions. For a 'dry ' transformer, the σoil oil value is needed as an additional known parameter in order to estimate accurately the moisture in pressboard.
Highlights
Po w er tran sfo rm ers are co nsid ered as o ne o f the m o st v ital and c o stly ap p aratu s in power sy stem n etw o rk s
Fo r a 'd ry ' tran sfo rm e r, th e aoii o il v alu e is needed as an ad d itio n al knownp aram e te r in o rd e r to e stim ate ac c u rate ly the m o istu re in p ressb o ard
T h e u su al 'd e sig n life' ofapow er tran sfo rm er is exp ected to b e 25-40 y ears
Summary
Po w er tran sfo rm ers are co nsid ered as o ne o f the m o st v ital and c o stly ap p aratu s in power sy stem n etw o rk s.
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