Case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country
It is important to evaluate the validity and safety of the substation earthing system since over time the physical and electrical properties or requirements of the substation earthing can change in many ways. A research study focused on safety assessment of substation earthing systems due to variati...
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my.uniten.dspace-303822024-04-18T10:12:23Z Case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country Abdullah N. Marican A.M.A. Osman M. Rahman N.A.A. 26422769600 7801326647 7201930315 36603269500 Computer simulation Electric fault currents Electric properties Lightning Rain Rating Soils Desk-top simulation Earthing system Research studies Safety assessments Seasonal variation Simulation process Soil resistivity Step voltages Substation grounding Substation grounding systems Tropical countries Tropical rainfall Electric grounding It is important to evaluate the validity and safety of the substation earthing system since over time the physical and electrical properties or requirements of the substation earthing can change in many ways. A research study focused on safety assessment of substation earthing systems due to variations of soil resistivities values which dependent on tropical rainfall variations was carried out on a 132kV substation. Actual earthing resistances and soil resistivities values were measured at a regular interval for a period of 18-months as input to the simulation process. The study used CDEGS� software for modeling and assessment of substations earthing system safety. From the initial desktop simulation calculation based on the above models, it was found that the substation have its touch and step voltages exceeded the allowable limits as per IEEE 80-2000 Standard (IEEE Guide for Safety in AC Substation Grounding) for some period throughout the duration of the study. � 2011 IEEE. Final 2023-12-29T07:47:14Z 2023-12-29T07:47:14Z 2011 Conference Paper 10.1109/APL.2011.6111092 2-s2.0-84856116005 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84856116005&doi=10.1109%2fAPL.2011.6111092&partnerID=40&md5=b9eb76bb5395e6d05d0d128b14de1dea https://irepository.uniten.edu.my/handle/123456789/30382 6111092 150 154 Scopus |
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Computer simulation Electric fault currents Electric properties Lightning Rain Rating Soils Desk-top simulation Earthing system Research studies Safety assessments Seasonal variation Simulation process Soil resistivity Step voltages Substation grounding Substation grounding systems Tropical countries Tropical rainfall Electric grounding |
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Computer simulation Electric fault currents Electric properties Lightning Rain Rating Soils Desk-top simulation Earthing system Research studies Safety assessments Seasonal variation Simulation process Soil resistivity Step voltages Substation grounding Substation grounding systems Tropical countries Tropical rainfall Electric grounding Abdullah N. Marican A.M.A. Osman M. Rahman N.A.A. Case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country |
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It is important to evaluate the validity and safety of the substation earthing system since over time the physical and electrical properties or requirements of the substation earthing can change in many ways. A research study focused on safety assessment of substation earthing systems due to variations of soil resistivities values which dependent on tropical rainfall variations was carried out on a 132kV substation. Actual earthing resistances and soil resistivities values were measured at a regular interval for a period of 18-months as input to the simulation process. The study used CDEGS� software for modeling and assessment of substations earthing system safety. From the initial desktop simulation calculation based on the above models, it was found that the substation have its touch and step voltages exceeded the allowable limits as per IEEE 80-2000 Standard (IEEE Guide for Safety in AC Substation Grounding) for some period throughout the duration of the study. � 2011 IEEE. |
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26422769600 |
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26422769600 Abdullah N. Marican A.M.A. Osman M. Rahman N.A.A. |
| format |
Conference Paper |
| author |
Abdullah N. Marican A.M.A. Osman M. Rahman N.A.A. |
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Abdullah N. |
| title |
Case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country |
| title_short |
Case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country |
| title_full |
Case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country |
| title_fullStr |
Case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country |
| title_full_unstemmed |
Case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country |
| title_sort |
case study on impact of seasonal variations of soil resistivities on substation grounding systems safety in tropical country |
| publishDate |
2023 |
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1806424478489509888 |
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