Condition monitoring of biodegradable oil filled transformer

Mudiyanselage, Kahawaththa; Bandara, Kapila

doi:10.14264/uql.2016.276

Cited by 3 publications

(9 citation statements)

References 159 publications

(388 reference statements)

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“…A linear multiple regression model defined by (7) was used to model the calculated data for B. This model defines the moisture, temperature, and ageing dependency of B.…”

Section: Modelling the Through-thickness Stress-strain Behaviour Of Pmentioning

confidence: 99%

Measurements on pressboard to understand the effect of solid insulation condition on monitoring of power transformer winding clamping pressure

Naranpanawe

Ekanayake

Saha

2019

IET sci. meas. technol.

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Pressboard is the main building material of a power transformer winding structure. Through-thickness compression behaviour of pressboard has a direct influence on the transformer winding clamping pressure. Being a cellulose based polymeric material with a porous structure, the through-thickness compression behaviour of pressboard is highly non-linear. Also, the mechanical properties of pressboard are moisture, temperature, and ageing status dependent. However, information on the exact behaviour of the through-thickness compressibility of pressboard under typical operating conditions of a power transformer has not been well documented in the literature. This has posed difficulties in developing reliable techniques to detect loose clamping conditions in power transformer windings. This study presents the results of laboratory measurements on the effect of moisture, temperature and ageing on the through-thickness compression behaviour of oil-impregnated pressboard. From the measured results, it was found that the compressibility of pressboard could increase with increasing temperature, ageing and moisture ingress. It was also found that moisture and ageing tend to exaggerate the thermal softening of pressboard. Subsequent finite element analysis confirmed that transformer clamping pressure has significantly altered with the pressboard condition.

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“…A linear multiple regression model defined by (7) was used to model the calculated data for B. This model defines the moisture, temperature, and ageing dependency of B.…”

Section: Modelling the Through-thickness Stress-strain Behaviour Of Pmentioning

confidence: 99%

Measurements on pressboard to understand the effect of solid insulation condition on monitoring of power transformer winding clamping pressure

Naranpanawe

Ekanayake

Saha

2019

IET sci. meas. technol.

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“…Hotspot in transformers is one of the major concern and the temperature can rise up to 200°C [2] In addition, it affects the loading capacity of transformers [3]. In order to reduce the size, weight and meet the growing population demand, there is a need for the development of a class of insulation system which can provide enhanced dielectric and heat transfer properties.…”

Section: Introductionmentioning

confidence: 99%

Investigation on heat transfer characteristics of nano titania added transformer oil with hotspot temperature

et al. 2020

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The heat transfer characteristics of nanofluid produced by mixing nano titania with transformer oil, facilitated by addition of surfactants are analyzed. A 2D model is used to analyze the heat transfer and fluid flow characteristics of nano fluid for understanding the formation of hot spots in the chamber filled with nanofluid. Governing equations for conservation of mass, momentum and energy for capturing the above characteristics are described. The temperature along the vertical mid line from the hot spot are measured experimentally and compared with simulation results. Temperature distribution obtained for nanofluid and transformer oil under both steady and transient state has revealed high rate of heat dissipation in nanofluid. Streamlines have shown the presence of press board affects flow in the bulk of the cavity. Nusselt number estimated across the edges of the hot spot has shown higher convective heat transfer in nanofluid.

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“…The orientation of cellulose fibres is parallel to the surface of the paper sheets. As a result, pressboard structure has pores of different sizes in between the paper layers [55,67]. When compressed along the through-thickness direction, the pores structure of pressboard collapses causing material densification [55,70].…”

Section: Chemical and Physical Structurementioning

confidence: 99%

“…As a result, pressboard structure has pores of different sizes in between the paper layers [55,67]. When compressed along the through-thickness direction, the pores structure of pressboard collapses causing material densification [55,70]. Therefore, densification due to compaction of pores is a factor that decides the through-thickness compressive stress-strain behaviour of pressboard.…”

Section: Chemical and Physical Structurementioning

confidence: 99%

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Understanding the moisture temperature and ageing dependency of power transformer winding clamping pressure

Naranpanawe¹

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Progressive loss of winding clamping pressure is a failure mode that reduces the short circuit withstand capability of power transformers. Short circuit faults exert strong electromagnetic forces on the transformer winding structure, which could deform and displace its conductors. Failure to maintain the structural integrity of the winding structure during short circuit faults often leads to a catastrophic transformer failure, which could cause a disastrous network failure.

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Condition monitoring of biodegradable oil filled transformer

Cited by 3 publications

References 159 publications

Measurements on pressboard to understand the effect of solid insulation condition on monitoring of power transformer winding clamping pressure

Measurements on pressboard to understand the effect of solid insulation condition on monitoring of power transformer winding clamping pressure

Investigation on heat transfer characteristics of nano titania added transformer oil with hotspot temperature

Understanding the moisture temperature and ageing dependency of power transformer winding clamping pressure

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