Author :
Hamoud, G. ; Toneguzzo, J. ; Yung, C. ; Wong, A.
Abstract :
Safety to workers and to the public has been one of the most important concerns for electric utilities in the past and continues to be so in the deregulated electricity market. Two years ago, Hydro One launched a new initiative to make the company injury free and therefore, major efforts were taken to accomplish such a target. In achieving high safety performance for station equipment, electric utilities are using approved planning, design and operation guidelines and standards in order to minimize or eliminate hazardous events that may endanger safety to personnel. These guidelines and standards govern a variety of issues including approved equipment and facilities, training, equipment monitoring, regulatory compliance, etc. The assessment of the station asset-related safety risk was considered in the past but mainly in a qualitative context. A structured probabilistic approach to safety risk has not yet been adopted. Hydro One like other electric utilities established some safety measures such as the accident severity rate and lost time injury frequency rate based on experience and knowledge of field experts. These measures, however, can not be used to predict the safety risk in the future. In addition, due to aging of power equipment and facilities, the performance and conditions of these assets may deteriorate and that may raise some concern regarding changes to the safety risk profile. Also, running the assets harder in a competitive market requires that closer attention be directed to the safety aspects of equipment. Therefore, there is a need for developing a safety risk assessment methodology that can account for some of these factors and concerns. Hydro One has assessed a number of methodologies to assist in quantifying safety risks associated with the catastrophic failures of transmission station equipment. This paper describes the assessment and its findings. This includes the study assessment methodology, data required, results obtained for some selected- - station assets and study recommendations
Keywords :
electrical accidents; electrical safety; power markets; probability; risk analysis; transmission networks; Hydro One; accident severity rate; asset safety risk assessment; catastrophic failures; electric utilities; electricity market deregulation; personnel safety; probabilistic approach; station asset-related safety risk; transmission station equipment; Electrical safety; Electricity supply industry; Electricity supply industry deregulation; Frequency measurement; Guidelines; Injuries; Monitoring; Personnel; Power industry; Safety devices; Transmission station; acceptance risk criteria; catastrophic events; failure rates; personnel exposure; risk assessment; risk of safety incidents; station equipment;
