Managed Pressure Drilling (MPD) Technology Applied to a High Potential Oil/Gas Producing Well Enabled Operator to Drill to Planned Target Depth in an Area of South Texas Where Conventional Drilling Has Been Unsuccessful – a Case History

Development of a Commercial Wireline Retrievable Coring System

SPE Reservoir Evaluation & Engineering ◽

10.2118/52993-pa ◽

1998 ◽

Vol 1 (06) ◽

pp. 489-495 ◽

Cited By ~ 1

Author(s):

Tommy Warren ◽

Jim Powers ◽

David Bode ◽

Eric Carre ◽

Lee Smith

Keyword(s):

Economic Evaluation ◽

Coalbed Methane ◽

Technical Conference ◽

The Core ◽

Core Recovery ◽

Drilling Equipment ◽

Original Manuscript ◽

The Impact ◽

Conventional Drilling ◽

Target Depth

This paper (SPE 52993) was revised for publication from paper SPE 36536, first presented at the 1996 SPE Annual Technical Conference and Exhibition, Denver, 6-9 October. Original manuscript received for review 11 October 1996. Revised manuscript received 22 September 1998. Paper peer approved 23 September 1998. Summary A Wireline retrievable coring system for use with conventional drilling equipment is described. The coring system was developed and tested for application in evaluating coalbed methane prospects where a large quantity of core is required, and it is essential that the core is processed soon after it is cut. A drill plug allows for alternation between coring and drilling without tripping the drillstring. The system is particularly advantageous for coring long intervals, multiple zones relatively close together, or when the exact target depth is unknown. The system has been used to core more than 4940 m (15,057 ft) in Poland, Germany, and France, with a combined core recovery of 94%. In addition, the impact of varying rig costs on total savings is factored into the overall economic evaluation of the system. P. 489

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Comparative Study of Managed Pressure Drilling Application in Deepwater Gas Wells - Case Study from Offshore Eastern Mediterranean of Egypt

10.2118/202192-ms ◽

2021 ◽

Author(s):

Mahmoud Ahmed El-Husseiny ◽

Samir Mohamed Khaled ◽

Taher El-Sebaay El-Fakharany ◽

Yehia Mohamed Al-Nadi

Keyword(s):

Comparative Study ◽

Detection System ◽

Eastern Mediterranean ◽

Gas Wells ◽

Gas Field ◽

Well Control ◽

Rate Of Penetration ◽

Drilling Performance ◽

Managed Pressure Drilling ◽

Conventional Drilling

Abstract Although devised in 2003, managed pressure drilling (MPD) has gained widespread popularity in recent years to precisely control the annular pressure profile throughout the wellbore. Due to the relatively high cost and complexity of implementing MPD, some operators still face a challenge deciding whether or not to MPD the well. In the offshore Mediterranean of Egypt, severe to catastrophic mud losses are encountered while conventionally drilling deepwater wells through cavernous fractured carbonate gas reservoirs with a narrow pore pressure-fracture gradient (PP-FG) window, leading to the risk of not reaching the planned target depth (TD). Furthermore, treating such losses was associated with long non-productive time (NPT), massive volume consumption of cement, and lost-circulation materials (LCM), in addition to well control situations encountered several times due to loss of hydrostatic head during severe losses. Accordingly, the operator decided to abandon the conventional drilling method and implement MPD technology to drill these problematic formations. In this paper, the application of MPD is to be examined versus the conventional drilling in terms of well control events, NPT, rate of penetration (ROP), mud losses per drilled meter, LCM volume pumped, and drilling operations optimization. According to the comparative study, MPD application showed a drastic improvement in all drilling performance aspects over the conventional drilling where the mud losses per drilled meter reduced from 19.6 m3/m to 3.7m3/m (123.2 bbl/m to 23.4 bbl/m). In addition to that, a 35% reduction of NPT and also a 35% reduction of LCM pumped, and 67.2 % reduction by volume of cement pumped to cure the mud losses. Moreover, the average mechanical rate of penetration increased by 37.4%. MPD was also credited with eliminating the need for an additional contingent 7" liner which was conventionally used to isolate the thief zone. The MPD ability to precisely control bottom hole pressure during drilling with the integration of MPD early kick detection system enables the rapid response in case of mud loss or kick, eliminating kick-loss cycles, well control events, and drilling flat time to change mud density. This paper provides an advanced and in-depth study for deep-water drilling problems of a natural gas field in the East Mediterranean and presents a comprehensive analysis of the MPD application with a drilling performance assessment (average ROP, mud losses, LCM and cement volumes, well control events) emphasizing how MPD can offer a practical solution for future drilling of challenging deepwater gas wells.

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Drilling Statically Underbalanced Gas Well with Managed-Pressure Drilling to Target Depth Safely and Efficiently

10.2118/165884-ms ◽

2013 ◽

Cited By ~ 1

Author(s):

Agustinus Krisboa ◽

Yoshua P. Iskandar ◽

Fikri Irawan ◽

Ardia Karnugroho ◽

Julmar Shaun Toralde

Keyword(s):

Gas Well ◽

Managed Pressure Drilling ◽

Target Depth

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Drilling Through Layers of Unstable Shale Formations and Depleted Sand Sequences, the Managed Pressure Drilling/Wellbore Strengthening Approach to Successfully Drill Offshore Development Wells: A Case History

10.2118/179713-ms ◽

2016 ◽

Author(s):

I. Henry ◽

J. Hernandez ◽

H. Craig ◽

A. Ngan ◽

M. Arnone ◽

...

Keyword(s):

Case History ◽

Shale Formations ◽

Managed Pressure Drilling ◽

Wellbore Strengthening ◽

Offshore Development

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Low Cost Plug and Abandonment with Hybrid Hydraulic Pulling Unit

10.2118/208473-ms ◽

2021 ◽

Author(s):

Tengku Khairul Izwan Tengku Ahmad ◽

Abdul Hanif Abdullah

Keyword(s):

Case History ◽

Low Cost ◽

South East Asia ◽

Unique Combination ◽

Drilling Rig ◽

Pull Out ◽

East Asia Region ◽

Conventional Drilling ◽

Future Reference

Abstract Plug and Abandonment (P&A) operations with conventional Hydraulic Workover Unit (WHU) have an enormous benefit and impact on low-cost P&A campaign in Malaysia compare with using conventional drilling rig. Subsequently, this Hybrid Hydraulic Pulling Unit (HHPU) was the first successful deployed and safely delivered for P&A campaign together with conductor removal in offshore West Malaysia. This paper presents case study that showcase the capability of HHPU for low-cost permanent P&A campaign by eliminate requirement for additional bringing rigging-up and rigging-down of casing jack unit for conductor removal operation. The unit manage to cut and pull-out the existing completion strings, setting cement plugs, cut and pull-out multiple strings of casing along with retrieving the 24″ conductors delivering the most advantageous outcome for P&A campaign safely, efficiently and cost effectively. It was invented from 340K HWU with improvise features that capable of pull-out existing completion string and removal of the conductor with size up to 36″. This paper demonstrates a unique combination of techniques and equipment of a successfully low-cost P&A operation with excellent client satisfaction with no incident and accident were recorded. The end results may contradict traditional P&A methods, but the case history can be used for future reference or potential replication in South East Asia region.

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