Drilling wells with long departure for extended reach applications is indeed a difficult task. Adding dual lateral sections involves increased risks, thus feasibility studies for wells design and execution purposes are critical. However, the success of this challenging campaign has enabled a new way of cost saving for wells construction. This case study demonstrates the solutions during drilling and completion by using a single surface slot with two strings for deep water and gas injection wells in shallow coastal water field in UAE. Dual laterals with long departure involve risks associated with drilling and completion, especially for long sections at high inclinations. The process involves optimization of the well trajectory to minimize the inclination at whipstock setting depth in order to reduce the drilling footage in the dense formations. Optimizing the Bottom Hole Assembly and drilling parameters to improve the rate of penetration (ROP), always targeting shoe to shoe runs; optimizing the retrievable whipstock type selection together with retrieving procedure; improving the completion design in high inclination at nipple depth to be able to set the packer and test the tubing successfully. Drilling one for two is the most beneficial point that this well construction practice has offered. Exiting from a congested surface location expose to the highest risk of Anti Collision, now reducing to 50% the exposure minimizing HSE risks. Saving surface facility while delivering two reservoir drains for better productivity is the key element for cost reduction. Most importantly, the concept is feasible and proven. Surface location has become increasingly more congested in this field thus much higher collision risk, drilling and completion technical constraints are being pushed beyond their limit to target deeper and further reach reservoirs. Lessons learnt and recommendations have been captured to establish the basis for continuous performance improvement. This paper presents a novel approach to well construction with increasing efficiency, integrity from all involved parties, reducing operational risks while significantly reducing cost, and ultimately increasing productivity and profitability.
This case study presents the challenges faced and learning curve built while achieving longer departures with light / slim casing design instead of conventional / heavier design in shallow coastal water field in UAE. This paper intends to explain the challenges that were encountered and the process of mapping the lessons learnt to ensure improvements along the process. The process involved the casing points analysis evaluating the competent formations options, continues optimization of well trajectory by increasing the inclination across problematic formations while drilling the intermediate section (limited in previous drilling campaign in the area), the evaluation of the impact caused in the consecutive 8 ½" phase (longer section), implementation of best practices to mitigate stability issues and Invisible Lost Time (ILT) methodology application to minimize hole exposure duration. The challenging campaign had the objective of saving cost by reducing one [FQ1] construction [FQ2] phase and continues achieving longer departures successfully which was a milestone during the well construction, thus a learning curve was built focused on continuous improvement of key operations. After completing more than 100 wells, the most beneficial point this change has offered is drilling long departure wells saving one phase in comparison with the conventional design in the area, which is the key element for cost reduction and also allowed to reduce crew exposure to heavier casing handling improving HSE risks. Currently, a maximum departure/vertical section of 10,700 feet has been achieved with light/slim casing design. Overall duration saving is 16 days compared with the best heavy casing design duration and 20 days with average heavy casing design duration with 35% saving duration. Drilling light casing design instead of conventional heavy casing design enable average of USD 2 million saving per well. The consolidated experience built throughout planning and execution since the first well, enabled an important performance improvement based on the learning curve built along the years. Nowadays, many fields require drilling wells with long vertical section / departures to reach further targets, away from the feasible surface locations. Additionally, cost reduction is another concern due to Oil Market fluctuation by applying new strategies and optimizing the performance without jeopardizing but improving the HSE at the same time. This paper presents a novel approach to well construction by showing the lesson learn that allowed well duration reduction, drilling more wells per year and consequently bringing early production, increasing efficiency and significantly reducing cost, therefore increasing productivity and profitability, at the time of contributing to HSE improvement.
No abstract
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.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.