System diagnostics using qualitative analysis and component functional classification
First Claim
1. A method for diagnosing failures in the operation of a thermal-hydraulic system including detection of a malfunction of one or more components in said thermal-hydraulic system, said method comprising the steps of:
- assigning to one or more of the components of the thermal-hydraulic system a thermal-hydraulic control volume which characterizes the total mass, momentum and energy inventories of said one or more components during normal and off-normal operations;
assigning to each thermal-hydraulic control volume its associated mass, momentum and energy conservation equations;
assigning to one or more components a functional classification as a source or sink of mass, momentum or energy;
monitoring operation of the components associated with the thermal-hydraulic control volumes for detecting an imbalance in the total mass, momentum or energy inventories in any of the thermal-hydraulic control volumes; and
comparing a detected imbalance in mass, momentum or energy of the thermal-hydraulic control volumes with the conservation equations and the functional classification for each of the components and identifying a given component as faulty when a detected imbalance in mass, momentum or energy of the thermal-hydraulic control volume matches the classification of the component as a source or sink of mass, momentum or energy.
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Abstract
A method for detecting and identifying faulty component candidates during off-normal operations of nuclear power plants involves the qualitative analysis of macroscopic imbalances in the conservation equations of mass, energy and momentum in thermal-hydraulic control volumes associated with one or more plant components and the functional classification of components. The qualitative analysis of mass and energy is performed through the associated equations of state, while imbalances in momentum are obtained by tracking mass flow rates which are incorporated into a first knowledge base. The plant components are functionally classified, according to their type, as sources or sinks of mass, energy and momentum, depending upon which of the three balance equations is most strongly affected by a faulty component which is incorporated into a second knowledge base. Information describing the connections among the components of the system forms a third knowledge base. The method is particularly adapted for use in a diagnostic expert system to detect and identify faulty component candidates in the presence of component failures and is not limited to use in a nuclear power plant, but may be used with virtually any type of thermal-hydraulic operating system.
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Citations
15 Claims
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1. A method for diagnosing failures in the operation of a thermal-hydraulic system including detection of a malfunction of one or more components in said thermal-hydraulic system, said method comprising the steps of:
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assigning to one or more of the components of the thermal-hydraulic system a thermal-hydraulic control volume which characterizes the total mass, momentum and energy inventories of said one or more components during normal and off-normal operations; assigning to each thermal-hydraulic control volume its associated mass, momentum and energy conservation equations; assigning to one or more components a functional classification as a source or sink of mass, momentum or energy; monitoring operation of the components associated with the thermal-hydraulic control volumes for detecting an imbalance in the total mass, momentum or energy inventories in any of the thermal-hydraulic control volumes; and comparing a detected imbalance in mass, momentum or energy of the thermal-hydraulic control volumes with the conservation equations and the functional classification for each of the components and identifying a given component as faulty when a detected imbalance in mass, momentum or energy of the thermal-hydraulic control volume matches the classification of the component as a source or sink of mass, momentum or energy. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method for diagnosing the operation of a thermal-hydraulic system including detection of a malfunction of one or more components in said system, said method comprising the steps of:
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assigning to one or more of the components of the thermal-hydraulic system a thermal-hydraulic control volume which characterizes the total mass, momentum and energy inventories of said one or more components during normal and off-normal operations; assigning to each thermal-hydraulic control volume its associated mass, momentum and energy conservation equations; determining whether each component is a source or sink of mass, momentum or energy and characterizing imbalances of the total mass, momentum and energy inventories of the thermal-hydraulic control volume through conservation equations, equations of state and tracking mass flow rate, wherein the step of determining whether each component is a source or sink of its associated mass, momentum or energy inventories includes grouping the components by type of component and functionally classifying each component type in priority as a source of sink of mass, energy or momentum in accordance with how strongly each of the conservation equations is affected by a malfunction of the component; monitoring operation of the components associated with the thermal-hydraulic control volumes for detecting an imbalance in the total mass, momentum or energy inventories in any of the thermal-hydraulic control volumes; identifying the physical location of said given component in the thermal-hydraulic system for reducing the number of possibly malfunctioning components; and comparing a detected imbalance in mass, momentum or energy of the thermal-hydraulic control volumes with the conservation equations and the functional classification for each of the components and identifying a given component as faulty when a detected imbalance in mass, momentum or energy of the thermal-hydraulic control volumes matches the classification of the component as a source or sink of mass, momentum or energy wherein the step of comparing a detected imbalance in mass, momentum or energy of the thermal-hydraulic control volumes with the conservation equations and the component classification includes providing a set of possible faulty components, their imbalance type (mass, momentum or energy) and direction (source or sink) and matching this information with the classification of component types.
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Specification