Qualitative fault tree analysis of blowout preventer control system for real time availability monitoring

Mete Mutlu; Zev Arnold; Matthew A. Franchek; Jose Meraz

Qualitative fault tree analysis of blowout preventer control system for real time availability monitoring

Mete Mutlu, Zev Arnold, Matthew A. Franchek, Jose Meraz

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper deals with the dynamic availability of a subsea blowout preventer (BOP) with respect to regional and industrial requirements. The study aims to reduce the non-productive time on drilling rigs due to complex propagation of failures within the BOP and BOP control system. In this development, fault tree analysis updated with near real time failure database is implemented into operational decision-making process. First, the system is defined with specifications, boundaries and assumptions. Failure modes of each component are stated. The requirements on the BOP control system are determined with respect to API Standard 53. Fault trees are constructed to address each requirement, and cut sets are produced. For dynamic analysis, a database on BOP state and failure component is created using reports from drilling contractor and operator. Upon detection of a failure, the cut sets are updated. With this application, impact of newly discovered failure in combination with the existing set of failures over BOP availability and compliance is determined in a standardized manner allowing consistent and efficient judgment.

Original language	English (US)
Title of host publication	Proceedings of the Annual Offshore Technology Conference
Subtitle of host publication	Offshore Technology Conference, OTC 2017
Publisher	Offshore Technology Conference
Pages	1187-1197
Number of pages	11
Volume	2
ISBN (Electronic)	9781510842083
State	Published - 2017
Event	Offshore Technology Conference, OTC 2017 - Houston, United States Duration: May 1 2017 → May 4 2017

Other

Other	Offshore Technology Conference, OTC 2017
Country/Territory	United States
City	Houston
Period	5/1/17 → 5/4/17

ASJC Scopus subject areas

Safety, Risk, Reliability and Quality
Energy Engineering and Power Technology
Ocean Engineering
Mechanical Engineering

Cite this

Qualitative fault tree analysis of blowout preventer control system for real time availability monitoring. / Mutlu, Mete; Arnold, Zev; Franchek, Matthew A. et al.
Proceedings of the Annual Offshore Technology Conference: Offshore Technology Conference, OTC 2017. Vol. 2 Offshore Technology Conference, 2017. p. 1187-1197.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Mutlu, M, Arnold, Z, Franchek, MA & Meraz, J 2017, Qualitative fault tree analysis of blowout preventer control system for real time availability monitoring. in Proceedings of the Annual Offshore Technology Conference: Offshore Technology Conference, OTC 2017. vol. 2, Offshore Technology Conference, pp. 1187-1197, Offshore Technology Conference, OTC 2017, Houston, United States, 5/1/17.

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AB - This paper deals with the dynamic availability of a subsea blowout preventer (BOP) with respect to regional and industrial requirements. The study aims to reduce the non-productive time on drilling rigs due to complex propagation of failures within the BOP and BOP control system. In this development, fault tree analysis updated with near real time failure database is implemented into operational decision-making process. First, the system is defined with specifications, boundaries and assumptions. Failure modes of each component are stated. The requirements on the BOP control system are determined with respect to API Standard 53. Fault trees are constructed to address each requirement, and cut sets are produced. For dynamic analysis, a database on BOP state and failure component is created using reports from drilling contractor and operator. Upon detection of a failure, the cut sets are updated. With this application, impact of newly discovered failure in combination with the existing set of failures over BOP availability and compliance is determined in a standardized manner allowing consistent and efficient judgment.

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Qualitative fault tree analysis of blowout preventer control system for real time availability monitoring

Abstract

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ASJC Scopus subject areas

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