Multi-stage ‘plug-and-perf’ operations in the Bakken formation are conventionally performed using pump down wireline operations. However, when a restricted casing ID, coupled with road restrictions, strict budget and time constraints, and a long horizontal section prevented the use of conventional methods, an operator in North Dakota turned to e-line, tractor-based conveyance to get this $9M asset on line. The operator needed to plug and perforate 26 zones from max depth at 21,740 ft up to the upper perforations at 11,830 ft to get the well on line swiftly. However, a 3.5 in. patch at 11,689 ft–11,709 ft meant the ID of the 4 1/2 in., 11.6# casing string was restricted, and thus the 4 1/2 in. plug could not be pumped in safely. Pumping the plug could cause it to set prematurely or get pumped off causing an expensive fishing job. Rig workover was deemed too time consuming due to the number of runs necessary and as a 2 in. coiled tubing (CT) string would only be able to reach about 17,000 ft, this option would have left 10 zones unperforated. To further complicate matters, spring thaw road weight restrictions were in place and the project was already over budget and behind schedule. By turning to e-line tractor conveyance the 26 runs to ‘plug-and-perf’ were completed in just 14 days with no lost time. In addition, the patch was successfully negotiated, the plug set properly and the entire section was perforated. The swift and nimble nature of the e-line technology made it easy to overcome the logistical challenges and helped the operator with their timing and budget issues. This paper will show why using e-line tractor conveyance was the right solution for this intervention where 146,608 ft were tractored with no lost time.
Although it is common to think of health, safety, and environment (HSE) as one focus area, in many countries where internal political stability is of concern, this area also includes security (i.e. HSSE). It is also discernible in such places that a considerable portion of non-productive time (NPT) is associated with waiting for the delivery of explosives to perform routine operations, such as casing perforating or pipe severing, or even setting bridge plugs or packers. The occurrence of NPT can result from many factors, but it primarily arises from the sensitive issue of moving explosives and the security measures it demands. In some cases, this lost time is conservatively estimated to be more than $12 million annually for a land-based operation. It is easily plausible to incur triple these costs for offshore operations, noting that these cost estimates do not account for the revenue losses attributable to a delay in production of hydrocarbons. Considering the magnitude of the problem, a concerted effort was put forth to determine viable alternatives to the use of explosives. This paper presents a comprehensive range of non-explosive solutions, including field-proven technologies that address a majority of the operations encountered in the field. The solutions come in various forms, such as the use of slickline, electric line, or coiled tubing services with specialty tools, all depending on the well situation. These technologies provide results and performances comparable to explosive-based methods and, in some cases (such as perforating before a hydraulic fracturing treatment), outperform the traditional solutions. There are also instances, such as in a highly deviated or horizontal wellbore, damaged casing or tubing, or tight restrictions, in which shaped charges will not work effectively but, with the versatility of perforating with coiled tubing using high pressure pumping and abrasive material, can surgically place perforations or sever pipe, as needed, at the preferred location. The prospects of significantly reducing the NPT and improving performance are substantial. The case histories presented will validate the success of the technologies and their application in the industry. Introduction The processes of acquiring, moving, storing, and handling explosive-based equipment can be very difficult and time consuming. In many countries in which regional security is a concern, the movement of explosives is a controlled activity and the process can be long. Consequently, when an unplanned event occurs, such as stuck pipe, in which pipe severing with explosives is the solution, the drilling rig may wait for several days to perform this job. These types of occurrences are quite common, especially in highly active drilling areas (with a rig count of more than 95 active rigs), and the NPT costs easily exceed $12 million annually. Proven Technologies to Accomplish Tasks Normally Performed with Explosive Devices. Typical operations that require explosives include the following:Downhole pipe cutting for pipe recovery after an incident, such as stuck pipe or any other type of pipe removal operationTubing punching for fluid circulationPerforating casing for production injection or hydraulic fracturingSetting packers and bridge plugs Over the years, several alternative methods have been developed that often provide better performance and results than conventional explosive methods. Depending on the application, the deployment methods for these techniques can include coiled tubing, slickline, wireline, and jointed pipe.
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