TY - GEN
T1 - On ambient temperature of transformer substations in desert climates
AU - Hernandez Fernandez, Javier
AU - Wang, Bo
AU - Massoud, Ahmed
AU - Talib, Salem
AU - Shhaab, Mazher
AU - Mohamed, Afsal
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021/2/16
Y1 - 2021/2/16
N2 - Ambienttemperatures used as inputs for transformer prediction, monitoring, or aging algorithms are normally obtained from the atmospheric data available from local and international meteorological agencies. While easy to obtain and certainly useful, this data source may lead to erroneous readings as the ambient temperature, such as the proposed in the standard IEEE C57.91-2011, should be based on the air temperature in contact with the radiator of the transformer, which might divert considerably from the atmospheric temperature measured by a weather station on the vicinity. Differences can be attributed to several factors such as the distance to the meteorological stations, architectural constraints, reduced ventilation, and/or exposure to direct sunlight. These variations could affect the outcome and accuracy of algorithms used for aging prediction, maintenance, and planning. This matter is of additional importance in regions with extremely high temperatures, as transformers ratings are based on the assumption of an ambient temperature of 30 °C. To investigate this effect, this paper studied the difference between the recorded atmospheric and substation temperatures under extreme hot climates. Measurements were performed at a standard outdoor transformer station in the middle east for a year, including the summer months' harsh meteorological conditions and the milder winter, to capture significant temperature fluctuations. The data presented can provide insights for more accurate equipment aging modeling and maintenance planning.
AB - Ambienttemperatures used as inputs for transformer prediction, monitoring, or aging algorithms are normally obtained from the atmospheric data available from local and international meteorological agencies. While easy to obtain and certainly useful, this data source may lead to erroneous readings as the ambient temperature, such as the proposed in the standard IEEE C57.91-2011, should be based on the air temperature in contact with the radiator of the transformer, which might divert considerably from the atmospheric temperature measured by a weather station on the vicinity. Differences can be attributed to several factors such as the distance to the meteorological stations, architectural constraints, reduced ventilation, and/or exposure to direct sunlight. These variations could affect the outcome and accuracy of algorithms used for aging prediction, maintenance, and planning. This matter is of additional importance in regions with extremely high temperatures, as transformers ratings are based on the assumption of an ambient temperature of 30 °C. To investigate this effect, this paper studied the difference between the recorded atmospheric and substation temperatures under extreme hot climates. Measurements were performed at a standard outdoor transformer station in the middle east for a year, including the summer months' harsh meteorological conditions and the milder winter, to capture significant temperature fluctuations. The data presented can provide insights for more accurate equipment aging modeling and maintenance planning.
KW - RFID wireless sensing
KW - Smart grids
KW - Substation maintenance
KW - Transformer temperature monitoring
UR - http://www.scopus.com/inward/record.url?scp=85103471695&partnerID=8YFLogxK
U2 - 10.1109/ISGT49243.2021.9372154
DO - 10.1109/ISGT49243.2021.9372154
M3 - Conference contribution
AN - SCOPUS:85103471695
T3 - 2021 IEEE Power and Energy Society Innovative Smart Grid Technologies Conference, ISGT 2021
BT - 2021 IEEE Power and Energy Society Innovative Smart Grid Technologies Conference, ISGT 2021
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2021 IEEE Power and Energy Society Innovative Smart Grid Technologies Conference, ISGT 2021
Y2 - 16 February 2021 through 18 February 2021
ER -