A wind turbine is a complex system used to convert the kinetic energy of the wind into electrical energy. During the turbine design phase, a risk assessment is mandatory to reduce the machine downtime and the Operation & Maintenance cost and to ensure service continuity. This paper proposes a procedure based on Failure Modes, Effects, and Criticality Analysis to take into account every possible criticality that could lead to a turbine shutdown. Currently, a standard procedure to be applied for evaluation of the risk priority number threshold is still not available. Trying to fill this need, this paper proposes a new approach for the Risk Priority Number (RPN) prioritization based on a statistical analysis and compares the proposed method wi...
This paper presents an approach to identify risks for different failures that could affect wind turb...
This paper presents an approach to identify risks for different failures that could affect wind turb...
This paper proposes a closed-form method to evaluate wind turbine system reliability and associated...
Failure mode and effects analysis (FMEA) has been extensively used by wind turbine assembly manufact...
Failure mode effects and criticality analysis (FMECA) is an important probabilistic reliability mode...
Offshore Wind Farm consists of an array of Wind Turbines electrical, communication, command and cont...
Failure Modes Effect Analysis (FMEA), or more specifically, Failure Modes Effect and Criticality Ana...
Failure Mode and Effect Analysis (FMEA) has already been used as a qualitative measure for identifyi...
Failure mode, effects and criticality analysis (FMECA) is a well-known reliability analysis tool for...
Clean energy has become a growing concern, and many organizations pay attention to environmental pro...
Blades are one of the most important components, in terms of capital and operational costs, of wind ...
By 2014, almost 2500 offshore wind turbines were installed in Europe representing 8GW of capacity co...
In various engineering actions, potential hazards are reduced, calculated, or controlled using a var...
Condition-based maintenance is applied in various industries to monitor and control critical assets ...
Condition-based maintenance is applied in various industries to monitor and control critical assets ...
This paper presents an approach to identify risks for different failures that could affect wind turb...
This paper presents an approach to identify risks for different failures that could affect wind turb...
This paper proposes a closed-form method to evaluate wind turbine system reliability and associated...
Failure mode and effects analysis (FMEA) has been extensively used by wind turbine assembly manufact...
Failure mode effects and criticality analysis (FMECA) is an important probabilistic reliability mode...
Offshore Wind Farm consists of an array of Wind Turbines electrical, communication, command and cont...
Failure Modes Effect Analysis (FMEA), or more specifically, Failure Modes Effect and Criticality Ana...
Failure Mode and Effect Analysis (FMEA) has already been used as a qualitative measure for identifyi...
Failure mode, effects and criticality analysis (FMECA) is a well-known reliability analysis tool for...
Clean energy has become a growing concern, and many organizations pay attention to environmental pro...
Blades are one of the most important components, in terms of capital and operational costs, of wind ...
By 2014, almost 2500 offshore wind turbines were installed in Europe representing 8GW of capacity co...
In various engineering actions, potential hazards are reduced, calculated, or controlled using a var...
Condition-based maintenance is applied in various industries to monitor and control critical assets ...
Condition-based maintenance is applied in various industries to monitor and control critical assets ...
This paper presents an approach to identify risks for different failures that could affect wind turb...
This paper presents an approach to identify risks for different failures that could affect wind turb...
This paper proposes a closed-form method to evaluate wind turbine system reliability and associated...