A horizontal well in Vankor oil field, Russia, was drilled with a multilateral fishbone shape to increase production. This type of drilling, in which branches (ribs) are drilled into a single layer from the main horizontal section, increases the reservoir drainage area over that covered by single-bore horizontal wells. In recent decades, rotary steerable systems (RSS) have been actively used by the Russian oil industry to drill elongated horizontal wells in sweet formation zones. This strategy is possible because of the development and availability of RSS technology in the oil and gas industry and is financially feasible because the production rate of horizontal wells is greater than that vertical wells. The Vankor is one of the largest oil fields in Russia. Since 2009, advanced RSS technologies have been successfully used in this field to develop reservoirs by drilling horizontal holes with length ranges from 300 to 1000m. One of the three major formations in this field is the Cretaceous Nizhnekhet 1 formation, with a thickness of approximately 1 to 2 meters. It is the thinnest reservoir formation in the field, and it exhibits the lowest recovery rate against the two other major reservoirs. The fishbone drilling strategy was adopted by the operator to improve the single-well production rate from the Nizhnekhet 1 formation. Given the geological conditions, the main significant challenge is to place ribs from the horizontal hole in a narrow drilling tunnel 1 m above and 1 m below the trajectory. In December, 2014 the first fishbone well in the Vankor field was drilled. The well plan called for drilling a multilateral well with nine additional branches from the main horizontal borehole. Technologies applied during drilling included control of the trajectory with geologically oriented drilling and openhole sidetracking. A multifunctional team of drilling engineers and geologists from the operator and the service company successfully placed the branches within the 2-m thick reservoir. In early production results, the fishbone well showed two times higher production compared to a single-bore horizontal well. Implementation of lessons learned from this first fishbone well in Vankor field will create new approach to multiplying the productivity of horizontal wells coming through involvement in the development of additional volumes of oil in rocks with low productivity and also, by increasing the area of interaction with the productive part of the reservoir within the same horizontal wells.
To increase the efficiency of field development, more and more wells are drilled with horizontal or high angle section at the end (HAHZ). Despite this, well logging data analysis is based on methodic and models developed using data from vertical and slant wells with relatively low inclination angle. Although it works well for vertical wells, it does not take into account geometric effects associated with high angle of drilling where wells are drilled almost parallel to formation layers. That often leads ambiguities while logging data analysis and formation evaluation in HAHZ wells compared to low angle wells. This fact does not allow using logging data from horizontal wells for geological and hydrodynamic models, which reduces its credibility. The paper describes uncertainties that exist when using conventional processing and interpretation techniques in horizontal wells and their causes. For demonstration purpose, the paper uses an example from real well XX04, which has been drilled horizontally in complex environment in one of the field of Western Siberia region of Russia. Azimuthal measurements application together with advanced modeling software packages enable more reliable estimation of well length exposed to reservoir, spatial position of its boundaries and essential reservoir properties, such as porosity and saturation. As a result, the geological model may be refined locally.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.