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The simulated arc discharge is generated using high voltage power source in two round shape steel electrodes having 5 mm gap. This distance (between the sensor and arc discharge source) is set at 5 cm. The infrared thermometer (laser gun) was used to capture the insulation oil temperature by sending a laser light toward the insulation oil and that light will be reflected beck and received by the device and then the temperature of the oil will be captured and measured. This study will help to predict the insulation oil age of high voltage transformers, which reduce the maintenance cost of high voltage transformer.…mehr

Produktbeschreibung
The simulated arc discharge is generated using high voltage power source in two round shape steel electrodes having 5 mm gap. This distance (between the sensor and arc discharge source) is set at 5 cm. The infrared thermometer (laser gun) was used to capture the insulation oil temperature by sending a laser light toward the insulation oil and that light will be reflected beck and received by the device and then the temperature of the oil will be captured and measured. This study will help to predict the insulation oil age of high voltage transformers, which reduce the maintenance cost of high voltage transformer.
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Autorenporträt
Eng. Rasool Gatea has joined as an academic staff in Kufa University since 2008. He has received his Bachelor degree in Electrical Engineering from Kufa University, Iraq and he has received his master degree in Electrical Power from Universiti Teknologi Malaysia. He is interested on partial discharge in high voltage equipment.