Extreme weather is known to cause failure bunching in the electrical transmission system. However, protection systems can also contribute to the worsening of the system state through spontaneous, missing or unwanted operation of the protection system. The latter two types of failures only occur when an initial failure has happened, and thus is more likely to happen when the probability of failure of transmission lines is high, such as in an extreme weather scenario. This causes an exacerbation of failure bunching effects, increasing the risk of blackouts, or High Impact Low Probability (HILP) events. This paper describes a method to model transmission line failure rates, considering both protection system reliability and extreme weather exp...
The transmission lines are exposed to the atmosphere nature and will be affected by adverse weather ...
Abstract Estimation for weather-related failure probability of overhead transmission lines is essent...
The declining reliability of the US electric power system is raising major concerns among both polit...
Extreme weather is known to cause failure bunching in the electrical transmission system. However, p...
Distribution system reliability assessment is essential to ensure reliable power supply to customers...
The weather environment has a significant impact on the reliability of a power system due to its eff...
This thesis illustrates the development and analysis of a group of transmission system models which ...
This thesis illustrates the development of a reliability model for two redundant transmission lines...
Power transmission systems are becoming increasingly complex as the demand for electric energy incre...
Abstract: The components in the overhead electrical network are continuously exposed to the physical...
Electrical power transmission networks of many developed countries are undergoing deep transformatio...
This thesis analyses and models the vulnerability of the electricity power supply under extreme weat...
Power transmission lines are the “highways” of electricity, consisting of conductors supported on st...
The supportive structures of power grids are vital but susceptible to weather-related events, such a...
The transmission lines are exposed to the atmosphere nature and will be affected by adverse weather ...
Abstract Estimation for weather-related failure probability of overhead transmission lines is essent...
The declining reliability of the US electric power system is raising major concerns among both polit...
Extreme weather is known to cause failure bunching in the electrical transmission system. However, p...
Distribution system reliability assessment is essential to ensure reliable power supply to customers...
The weather environment has a significant impact on the reliability of a power system due to its eff...
This thesis illustrates the development and analysis of a group of transmission system models which ...
This thesis illustrates the development of a reliability model for two redundant transmission lines...
Power transmission systems are becoming increasingly complex as the demand for electric energy incre...
Abstract: The components in the overhead electrical network are continuously exposed to the physical...
Electrical power transmission networks of many developed countries are undergoing deep transformatio...
This thesis analyses and models the vulnerability of the electricity power supply under extreme weat...
Power transmission lines are the “highways” of electricity, consisting of conductors supported on st...
The supportive structures of power grids are vital but susceptible to weather-related events, such a...
The transmission lines are exposed to the atmosphere nature and will be affected by adverse weather ...
Abstract Estimation for weather-related failure probability of overhead transmission lines is essent...
The declining reliability of the US electric power system is raising major concerns among both polit...