The development of multilateral wells and long-reach wells has become important to maximizing recovery for many fields. These technologies are often applied in offshore environments, where large reservoir areas are drained from one or more platforms.
In the late 1980s, long-reach wells started to use existing infrastructure better by drilling beyond the design limits of that time. Several major operators were extending their limits, and, in the late 1990s, BP Wytch Farm showed that a horizontal departure exceeding 10 km was feasible. This had a significant effect on the industry because offshore platforms now could be designed for up to 10-km reach, as opposed to the early 1980s when 3-km reach was common. A field could now be developed with one platform instead of three, resulting in enormous savings.
Multilateral-well technology also matured during the past 2 decades. There were many drivers for this development. One of the more important was the desire to increase production in tight reservoirs. Another advantage is directional control. Well stimulation with fracturing has the drawback that the fracture direction is controlled by the in-situ stresses in the rock. Multilateral branches, on the other hand, can be drilled in any direction.
There has been considerable development around these technologies. Those that help clear the challenges, such as those related to wellbore stability, wellbore friction, equipment limitations, and operational aspects, can be considered mature technologies today.
The main benefit from directional drilling is the maximizing of reservoir recovery. From this perspective, multilateral/extended-reach wells may be considered one of the more important means of improved oil recovery.
Although these directional-well concepts have been used for some years, they were initially costly with a high economic risk. There is a continuous technology development at many levels that leads to improvements. These result in more-efficient processes, with increased field recoveries as a consequence. Therefore, multilaterals and extended-reach wells are now common and will be very important for future cost-effective oil and gas production.
This Month's Technical Papers
Recommended Additional Reading
SPE 174035 Technology Qualification and Installation Plan of Efficient and Accurate Multilaterals Drilling Stimulation Technology for Sandstone Oil Application by Kevin Rice, Fishbones, et al.
SPE/IADC 168055 Expanding the Extended-Reach Envelope at Chayvo Field, Sakhlin Island by Vishwas P. Gupta, ExxonMobil, et al.
SPE 168235 CT Extended Reach: Can We Reach Farther? by Ken Newman, KNewman Engineering, et al.
Bernt S. Aadnoy, SPE, Professor of Petroleum Engineering, University of Stavanger
01 May 2016
KLX Energy Services To Merge with Quintana Energy Services
The merged companies will offer large-diameter coiled-tubing, directional drilling, snubbing, wireline services, and pressure pumping services.
Annular Ledge Formation Method Allows Sidetracking in Multilateral Wells
This paper describes the analysis of sidetracks drilled in an open hole by an annular ledge formation method with a downhole motor in multilateral wells.
Multilateral and Complex-Trajectory Wells
Although multilateral and long-reach wells are common, the technological development is not complete. Effective implementation of digital technology requires complementary development of the technology itself.
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26 May 2020
20 May 2020