Effective Approach for CT Interventions on Inaccessible Offshore Platforms in the North Sea

Cochran, Jamie; Petrone, Daniele; Clubb, Alexander; Greig, Scott

doi:10.2118/113895-ms

Cited by 3 publications

(1 citation statement)

References 4 publications

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“…A way to tackle this problem is to lift the empty working reel to the platform and then transfer the pipe from a supply vessel. Basically, once the empty reel is placed on the platform, the pipe is pulled using a wire from the vessel to the platform and an injector head is used to receive the pipe on the platform and spool it onto the reel; this operation requires specialized equipment and involves risk and extensive logistic planning (Cochran et al 2008 …”

Section: Spooling Pipe Directly From Supply Vesselmentioning

confidence: 99%

Innovative Emergency Coiled-Tubing Disconnect System for Tender Barge Operations

2010

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In the last few years, Indonesia has experienced a significant increase in offshore activities requiring support from tender barges. This type of operation has helped overcome most of the offshore well-intervention challenges, in terms of crane capabilities, space, load, etc. However, operating in high waves and strong currents has introduced other technical and safety challenges, especially when performing coiled-tubing (CT) operations.In this kind of operation, the coiled-tubing reel and pumping spread are kept on the tender barge, while the injector head and well-control stack are set on the platform. The possibilities of losing the barge anchors or a catastrophic situation at the platform generated the need to develop a system to quickly disconnect the equipment on the barge from the platform by safely cutting the coiled tubing at the reel while minimizing the personnel exposure time to at-risk conditions, as well as avoiding the loss of treatment or hydraulic fluid to the environment. The new system was designed to be hydraulically capable of (1) releasing the injector and blowout-preventer (BOP) hoses while containing the hydraulic fluid, (2) holding the string reel end in place, and (3) cutting the string at the reel. This paper will document the system components' design processes, field testing, and field implementation.

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Section: Spooling Pipe Directly From Supply Vesselmentioning

confidence: 99%

Innovative Emergency Coiled-Tubing Disconnect System for Tender Barge Operations

2010

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Safer, Faster, and More-Reliable Operations With Next-Generation Offshore Coiled Tubing Unit

Burgos

Mallalieu

Yusoff³

et al. 2009

All Days

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Most coiled tubing (CT) interventions are performed in a rigless environment. In fact, this is one of the important drivers for the widespread acceptance and continued growth of the technique for well servicing, especially in the offshore domain where the logistical costs are higher and operational challenges are more complex. Unlike land-based CT operations where integration is straightforward, the issues of equipment packaging for offshore integration is daunting. Overcoming limitations of crane-load lift capacity and deck space constraints are just part of the problem. Offshore CT units (CTU) are typically packaged as separate modules with components that require integration before any well intervention activity can begin. Rig up and operational efficiency are important design considerations for offshore CTU packages, but overall safety and regulatory compliance are of paramount concern. A new CTU configuration designed to meet the stringent demands of offshore CT operations was recently introduced. The design focused on key integration and HSE issues relating to the rig-up process. Results from more than 500 jobs performed during a 2-year period, in far eastern offshore environments indicated significant improvements in overall operational efficiency. In addition, the new designs met predefined HSE performance objectives, particularly during equipment rig-up phase. Introduction Since 2001, there has been a tremendous growth in the size of CTU service fleets. Based on an ICoTA survey, the total number of working CT units has grown from roughly 840 units in February 2001 to slightly more than 1,050 CTUs available worldwide in 2004. In March 2008, estimates for the global fleet size were reported at 1,500 units. During this period of growth, the scope of work for CT services also has continued to expand. This expansion brought some notable developments. First, the number of interventions increased in environments where standard CTU equipment packages were not intended to service, particularly in some offshore installations. The number of service quality incidents also increased, which resulted in several service delays. The failures are related to some degree to equipment packaging, but more so to the increased complexity in the performing these operations and to inexperienced younger service crews. Because most CTUs are provided by 3 or 4 large equipment manufacturers, the designs are very similar. Until recently, there was little need to radically evolve equipment designs. However, the well servicing environment is calling more and more for fit-for-purpose units, particularly offshore. From an equipment standpoint, addressing the challenges of offshore CT interventions currently is being approached in several effective ways and this has been the subject of previous discussions by Cochran (2008) and Andreassen (2004). The majority of these new equipment packages are customized insofar as specifications and features are concerned. However, the primary driver for customization is operational efficiency and overall safety.

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High-Profile Rigless Well Interventions with Coiled Tubing Tower

Gaidanov

Burov

Zhumagaliyev

et al. 2016

Day 1 Mon, November 07, 2016

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Many wellbore recompletion and recommissioning operations requires a post-drilling well interventions without a drilling rig because a rig is either unavailable or uneconomical. Rigless operations are very relevant for the well interventions performed in one of the most challenging offshore development projects in the northern Caspian basin. These complex jobs are heavily impacted by extreme climate conditions, confined offshore installations, and strict safety regulations. To overcome these challenges and to minimize operational risks, a rigless well intervention approach was selected with a specially designed multipurpose coiled cubing (CT) support tower that can perform a wide range of service operations with a unified well rigup. All the services can be kept under a single operational umbrella with a smaller crew, and a common base pattern erected around the well can be transferred to the next service line without major modifications. Several innovative ideas were implemented to fulfill the offshore and operational requirements: A special base section of the tower with telescopic legs fits on the narrow working pad around the well and keeps permanent structures and service manifolds around the wellhead area intact.A specially designed CT tower skid system with a three-axes moving jacking frame on top includes a rotary table to allow the injector head to revolve into the required position. This paper describes the success story of complex rigless well interventions using a newly designed multipurpose CT tower. The provided solution is proved to be more cost effective for the same applications as a drilling rig, and effectively reduced the necessary crew size and equipment footprint. This solution is designed for effective and safe operation in diverse environments, and can be customized to accommodate new solutions that would be and technologies developed in the future.

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Effective Approach for CT Interventions on Inaccessible Offshore Platforms in the North Sea

Cited by 3 publications

References 4 publications

Innovative Emergency Coiled-Tubing Disconnect System for Tender Barge Operations

Innovative Emergency Coiled-Tubing Disconnect System for Tender Barge Operations

Safer, Faster, and More-Reliable Operations With Next-Generation Offshore Coiled Tubing Unit

High-Profile Rigless Well Interventions with Coiled Tubing Tower

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