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¡¶Öйú°²È«Éú²ú¿Æѧ¼¼Êõ¡·[ISSN:1673-193X/CN:11-5335/TB]

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9

ÆÚÊý:

2013Äê2ÆÚ

Ò³Âë:

89

À¸Ä¿:

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2013-02-28

ÎÄÕÂÐÅÏ¢/Info

Title:

Application of SBFT method in failure analysis of deepwater well integrity

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ÎäʤÄÐ; ·®½¨´º; ÕÅÀ´±ó

£¨ÖйúʯÓÍ´óѧ»úеÓë´¢Ô˹¤³ÌѧԺ£¬±±¾©102249£©

Author(s):

WU Shengª²nan;  FAN Jianª²chun;  ZHANG Laiª²bin

(College of Mechanical and Transportation Engineering, China University of Petroleum, Beijing 102249, China)

¹Ø¼ü´Ê:

SBFT·½·¨; ¾®ÍêÕûÐÔʧЧ; SBEÄ£ÐÍ; Ê¹ÊÊ÷·ÖÎö; Ê§Ð§Òò×Ó

Keywords:

SBFT method;  well integrity failure;  SBE model;  fault tree analysis;  failure factors

·ÖÀàºÅ:

X937

DOI:

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A

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Abstract:

Deepwater well operations face much more challenging conditions and uncertainties than onshore and shallow water operations. The accidents such as kick, blowout and leakage are likely to occur under the harsh environment conditions and the unintentional flow from the formation. The key to reducie the occurrence possibility of such incidents is failure analysis of deepwater well integrity. In this paper, an integrated risk analysis methodology, SBFT, on basis of safety barrier theory and Fault Tree Analysis (FTA) was proposed to analyze failure mechanisms of deepwater well integrity. A case study on pulling BOP and landing subsea production tree was presented to show how this method can be applied to this field. Safety barrier (SBE) model and a fault tree model were established. The failure probability of well integrity was consistent with the actual statistics. The paths of the failure and the optimal controlling schemes were analyzed by using the least cutª²set and the least pathª²set. The calculation and analysis of 3 importance magnitudes by fault tree for basic events show that the weakest link in this process was tubing hanger, the main failure factors are COª­2 erosion corrosion and sealing components damaged. It provides theoretical support for accident investigation and risks rectification of deepwater wells to the greatest exten

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¸üÐÂÈÕÆÚ/Last Update: 2013-02-28