Stochastic simulation of a power generation air joint

Stochastic simulation of a power generation air joint

A novel stochastic simulation approach is employed to predict the reliability of an air-supply expansion joint. This component is part of a large electric power generating system. In order to perform this task, multiple modeling tools are integrated, including Computational Fluid Dynamics, Finite El...

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Hauptverfasser: Al-Habahbeh, Osama M., Aidun, D., Marzocca, P.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Finite element methods
Fluid dynamics
Lifetime estimation
Monte Carlo methods
Power system reliability
Thermal stresses
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Beschreibung
Zusammenfassung:A novel stochastic simulation approach is employed to predict the reliability of an air-supply expansion joint. This component is part of a large electric power generating system. In order to perform this task, multiple modeling tools are integrated, including Computational Fluid Dynamics, Finite Element Analysis, Stress-life method, and Latin Hypercube Sampling. As a result of the stochastic nature of the input parameters, the resulted life is in the form of a Probability Density Function, which enables the calculation of the reliability of the component at a given life. The application of this method to the air joint can be used to enhance the design and operation of the component by uncovering under-design or over-design. Furthermore, various alternative designs and operational scenarios can be studies using this stochastic model.
DOI:10.1109/AEECT.2011.6132492