Case History: Innovative Milling Operation of Stuck Wellhead Tubing Master Valve using Coiled Tubing at South Ghawar Field, Saudi Arabia

Al-Buhassan, Shaker A.; Zefzafy, Ibrahim; Al-Shehri, Ayedh; Almukhaitah, Abdulaziz A.; Thawaiqib, Abdulaziz

doi:10.2118/164415-ms

All Days 2013

DOI: 10.2118/164415-ms

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Case History: Innovative Milling Operation of Stuck Wellhead Tubing Master Valve using Coiled Tubing at South Ghawar Field, Saudi Arabia

Shaker A. Al-Buhassan

Ibrahim Zefzafy

Ayedh Al-Shehri

et al.

Abstract: Milling a stuck partially opened wellhead tubing master valve (TMV) becomes inevitable to access the wellbore if all repairing attempts had failed. Typically, the milling can be accomplished by utilizing a milling machine, mounted on a wellhead, equipped with motors and special mills. In this case history, CT was selected to fully satisfy standard well control requirements. Different sizes of mills were utilized to provide access through the double disc gate valve to facilitate setting downhole barriers to rep… Show more

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Cited by 2 publications

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The World's First Gate Valve Milling on E-Line Returns Well to Production Faster and Safer

Al-Mulhim

Al-Shawly

El-Zefzafy

et al. 2016

Day 1 Mon, August 22, 2016

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Stuck wellhead gate valve at surface offers and demand an extreme well integrity operation. Subsequently; well intervention operation needs more attention and might become more complex using conventional milling techniques. Conventional milling techniques have also fail to meet required well control or found to be lengthy and costly operation. The world's first novel gate valve milling operation using e-line has been performed safely and successfully in Saudi Arabia. Saudi Aramco; land based oil producer well; located in Southern Area of the Ghawar field; was shut-in due to malfunction of Tubing Master Valve (TMV) on closed position for Signal Stack-Up X-Tree. 3,000 BOPD and well accessibility were locked with expected 1,600 psig as shut-in wellhead pressure underneath the stuck valve gate is the case. The objective of this paper is to provide a safer and faster operation solution for milling gate valve that would adhere to the operator's well integrity safely and well control polices. This paper will describe detailed job design, operational steps of this novel milling operation, and other technical considerations that resulted in the successful execution of challenging operation.

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The World's First Gate Valve Milling on E-Line Returns Well to Production Faster and Safer

Al-Mulhim

Al-Shawly

El-Zefzafy

et al. 2016

Day 1 Mon, August 22, 2016

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Electric-Line Milling Operation on Tree Master Valve of a High Surface Pressure Well Enables Well Control

Al-Ajmi¹,

Al-Ajlan²,

Al-Hajri³

et al. 2017

Day 2 Wed, March 22, 2017

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This paper presents the success story of an innovative milling operation on a stuck-closed tubing master valve performed with electric line technologies. This field application has resulted in restoration of well accessibility, enabled well control, and saved costs related to rig intervention. The paper also documents lessons learned and recommends proper operational procedures related to future similar rigless operations, specifically with regards to well control and barrier philosophy. A stuck-closed surface valve in a live well is treated with extra caution as it presents a serious and challenging well control issue. Such a situation often calls for immediate intervention to restore well accessibility and reestablish well integrity barriers. The stringent well control requirements of the oilfield operator make the operational design and corresponding job execution even more challenging. In this case, Well-A is a land based vertical oil well on which the master gate valve was stuck and non-functional in the closed position. The pressure bellow the valve was last measured to be 1200 psi, a relatively high shut-in wellhead pressure compared to other offset producers in the same field. The wellhead was equipped with two carbon steel master gate valves, in addition, to the swap valve. The lowermost gate valve is the stuck valve, hence, preventing access to the well. Several attempts to repair and grease the valve body and stems were unsuccessful. Accordingly, the oilfield operator has decided to mill the gate valve, secure the well, and then replace the entire tree. The uncertainty in the well pressure below the master valve posed a significant operational risk. This is due to the impact of well fluid pressure force on the electric line rig-up after the gate valve is milled. Therefore, job planning, design, and execution were guided by a risk based and comprehensive contingency plan that accounted for all probable well control scenarios. The rig-up consisted of coiled tubing flanged risers, annular blowout preventer, Shear/Seal ram, and wireline blowout preventer in order to ensure the presence of adequate well control barriers throughout the operation. Adhering to a ‘safety first’ attitude, the operation was concluded successfully and met its said objectives. The successful massive undertaking of such critical well intervention operation has marked a new milestone in rigless well interventions.

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Case History: Innovative Milling Operation of Stuck Wellhead Tubing Master Valve using Coiled Tubing at South Ghawar Field, Saudi Arabia

Cited by 2 publications

References 3 publications

The World's First Gate Valve Milling on E-Line Returns Well to Production Faster and Safer

The World's First Gate Valve Milling on E-Line Returns Well to Production Faster and Safer

Electric-Line Milling Operation on Tree Master Valve of a High Surface Pressure Well Enables Well Control

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