%0 Journal Article %1 bernard_akindade_adaramola_2020_4478325 %A Adaramola, Bernard Akindade %A Chirpyen, Daniel Danjuma %D 2020 %J Global Journal of Engineering and Technology Advances %K IR Testing %N 2 %P 030-037. %R 10.30574/gjeta.2020.5.2.0096 %T Experimental investigation of insulation resistance for turbo generator digital protection %U http://gjeta.com/content/experimental-investigation-insulation-resistance-turbo-generator-digital-protection %V 5 %X Insulation of all electrical machinery is practically in the form of organic compounds that contain water as part of their make-up. Excessive temperature tends to dehydrate and oxidize the insulation and make it become brittle and disintegrate under vibration and shock. The insulation lifespan of turbo generators deteriorates slowly at low temperatures and more rapidly at high temperature. Economic factors, such as initial cost, replacement cost, obsolescence, and maintenance, are of prime importance when determining the years of useful service desired for the electrical insulation. Generator digital protection- fault diagnosis test was carried out to find out the cause of insulation breakdown on the turbo generator unit 411G3. The experimental procedure consists of an insulation resistance test, meggering (time-resistance absorption test), and pendulum over-speed test. A thorough investigation was conducted to identify all the stator bars that constituted the Red phase and other connections. Voltage drops on these stator bars were measured and values were used to detect ground faults which were rectified via an intelligent protection scheme.

@article{bernard_akindade_adaramola_2020_4478325, abstract = {Insulation of all electrical machinery is practically in the form of organic compounds that contain water as part of their make-up. Excessive temperature tends to dehydrate and oxidize the insulation and make it become brittle and disintegrate under vibration and shock. The insulation lifespan of turbo generators deteriorates slowly at low temperatures and more rapidly at high temperature. Economic factors, such as initial cost, replacement cost, obsolescence, and maintenance, are of prime importance when determining the years of useful service desired for the electrical insulation. Generator digital protection- fault diagnosis test was carried out to find out the cause of insulation breakdown on the turbo generator unit 411G3. The experimental procedure consists of an insulation resistance test, meggering (time-resistance absorption test), and pendulum over-speed test. A thorough investigation was conducted to identify all the stator bars that constituted the Red phase and other connections. Voltage drops on these stator bars were measured and values were used to detect ground faults which were rectified via an intelligent protection scheme.}, added-at = {2021-01-30T06:05:38.000+0100}, author = {Adaramola, Bernard Akindade and Chirpyen, Daniel Danjuma}, biburl = {https://www.bibsonomy.org/bibtex/2e1a19df7c754e36f3389cac92553ae27/gjetajournal}, doi = {10.30574/gjeta.2020.5.2.0096}, interhash = {d250a3ea03449211a5fcfb3e6e7436ae}, intrahash = {e1a19df7c754e36f3389cac92553ae27}, issn = {2582-5003}, journal = {{Global Journal of Engineering and Technology Advances}}, keywords = {IR Testing}, month = nov, number = 2, pages = {030-037.}, timestamp = {2021-01-30T06:05:38.000+0100}, title = {Experimental investigation of insulation resistance for turbo generator digital protection}, url = {http://gjeta.com/content/experimental-investigation-insulation-resistance-turbo-generator-digital-protection}, volume = 5, year = 2020 }