Chemical Reactor Safety System Reliability Under Common Cause Failure

Owing to expensive cost and restricted structure, limited sensors are allowed to install in modern systems to monitor the working state, which can improve their availability. Therefore, an effective sensor placement method is presented based on a VIKOR algorithm considering common cause failure (CCF) under epistemic uncertainty in this paper. Specifically, a dynamic fault tree (DFT) is developed to build a fault model to simulate dynamic fault behaviors and some reliability indices are calculated using a dynamic evidence network (DEN). Furthermore, a VIKOR method is proposed to choose the possible sensor locations based on these indices. Besides, a sensor model is introduced by using a priority AND gate (PAND) to describe the failure sequence between a sensor and a component. All placement schemes can be enumerated when the number of sensors is given, and the largest system reliability is the best alternative among the placement schemes. Finally, a case study shows that CCF has some influence on sensor placement and cannot be neglected in the reliabilitybased sensor placement.

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Estimating common-cause failure parameters within power system reliability analysis

Safety, Reliability and Risk Analysis ◽

10.1201/b15938-430 ◽

2013 ◽

pp. 2841-2846 ◽

Cited By ~ 2

Author(s):

Z Rejc ◽

M Cepin ◽

A Sitdikova

Keyword(s):

Power System ◽

Reliability Analysis ◽

System Reliability ◽

Power System Reliability ◽

Common Cause ◽

Common Cause Failure ◽

System Reliability Analysis

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Design and Development of HTR-PM Reactor Protection System

Volume 5: Fuel Cycle, Radioactive Waste Management and Decommissioning; Reactor Physics and Transport Theory; Nuclear Education, Public Acceptance and Related Issues; Instrumentation and Controls; Fusion Engineering ◽

10.1115/icone21-16706 ◽

2013 ◽

Author(s):

Duo Li ◽

Huasheng Xiong ◽

Chao Guo

Keyword(s):

High Temperature ◽

Power Plant ◽

System Reliability ◽

Nuclear Power ◽

Protection System ◽

Common Cause ◽

Common Cause Failure ◽

Plant Reactor ◽

Reactor Protection System ◽

High Temperature Gas

High Temperature gas-cooled Reactor-Pebble bed Module (HTR-PM) Reactor Protection System (RPS) is a dedicated system to be designed and developed according to HTR-PM Nuclear Power Plant reactor protection specifications. HTR-PM RPS has the framework of four redundant channels and has two independent and diverse subsystem x and subsystem y to perform different protection functions, which would decrease the potential common cause failure caused by software and increase the system reliability.

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Reliability and Sensitivity Analysis Method for a Multistate System with Common Cause Failure

Complexity ◽

10.1155/2019/6535726 ◽

2019 ◽

Vol 2019 ◽

pp. 1-8 ◽

Cited By ~ 6

Author(s):

Jinlei Qin ◽

Zheng Li

Keyword(s):

Sensitivity Analysis ◽

System Reliability ◽

Analysis Method ◽

Common Cause ◽

Common Cause Failure ◽

Resource Limitations ◽

Multistate System ◽

Failure State ◽

Sensitivity Analysis Method ◽

Reliability Assessments

With the increasing complexity of industrial products and systems, some intermediate states, other than the traditional two states, are often encountered during reliability assessments. A system with more than two states is called a multistate system (MSS) which has already become a general phenomenon in the components and/or systems. Moreover, common cause failure (CCF) often plays a very important role in the assessment of system reliability. A method is proposed to assess the reliability and sensitivity of an MSS with CCF. Some components are not only in a failure state that can cause failure itself, but also in a state that can cause the failure of other components with a certain probability. The components that are affected by one type of CCF make up some sets which can overlap on some components. Using the technology of a universal generating function (UGF), the CCF of a component can be incorporated in the expression of its UGF. Consequently, indices of reliability can be calculated based on the UGF expression of an MSS. Sensitivity analysis can help engineers to judge which type of CCF should be eliminated first under various resource limitations. Examples illustrate and validate this method.

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