Successful Delivery of the First Extended Reach Well Using an Integrated Multidisciplinary Approach; A Case Study in a Mature Field, Onshore Abu Dhabi UAE

Shahat, Ayman El; El-Meguid, Mohamed Osama Abd; Gerardo, Luís; Saleh, Abdalla; Almazrouei, Saeed Mohamed; Sumaida, Ali Sulaiman Bin; Mutawa, Ahmed Abdulla Al; Ibeziako, Chuma; Siddiqui, Faisal; Menhali, Shamsa Al; Yousfi, Fawad Zain; Deshmukh, Rohit V.; Kumar, Sanjiv; Dutta, Ashim; Reddy, Rathnakar; Baslaib, Mohamed; Mikhaylov, Alexander; Atallah, Lama; Nasrallah, Mena; Fares, Wael; Hamdan, Tariq Hasan; Husien, Mohammad

doi:10.2118/211492-ms

Cited by 2 publications

(1 citation statement)

References 2 publications

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“…These case studies highlight the importance of integrated approaches, interdisciplinary collaboration, and addressing operational challenges. Shahat et al (2022) present a case study on the successful delivery of the first extended reach well in a mature field in Abu Dhabi, UAE, using an integrated multidisciplinary approach. This approach involved collaboration between drilling, cementing, drilling fluids, and geoscience teams.…”

Section: Case Studies: Lessons Learned and Best Practicesmentioning

confidence: 99%

Recycling and Upcycling in the Electro-Mechanical Domain: A Review of Current Practices

Emmanuel Adikwu Ukpoju,

Ayodeji Abatan,

Oladipo Adekoya

et al. 2023

Eng. sci. technol. j.

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This study provides a comprehensive review of current practices, challenges, and future prospects in recycling and upcycling within the electro-mechanical domain, with a particular focus on the role of recyclable electronic components in sustainable system design. The primary objectives were to assess the effectiveness of existing recycling techniques, explore innovative upcycling approaches, and evaluate the integration of recyclable components in system design. The methodology employed a systematic literature review, drawing data from peer-reviewed journals, industry reports, and government publications. Key databases such as IEEE Xplore, ScienceDirect, and Google Scholar were utilized, with a focus on literature published between 2018 and 2023. The findings revealed that while current recycling techniques are effective, they face technical and economic barriers that hinder widespread adoption. Upcycling approaches show promise in enhancing the value and utility of electro-mechanical systems. The integration of recyclable electronic components is pivotal for sustainability, though it requires more efficient recycling processes and innovative design strategies. Emerging technologies, such as IoT and AI, offer potential solutions but are underexplored in practical applications. The study concludes that sustainable practices in the electro-mechanical domain significantly impact environmental conservation and resource management. However, supportive policy and regulatory frameworks are crucial for enhancing these practices. Future research should focus on developing more efficient recycling techniques, exploring the economic viability of sustainable practices, and integrating emerging technologies. Addressing these areas is essential for advancing sustainability in the electro-mechanical domain. Keywords: Recycling, Electromechanical systems, Upcycling, Sustainable Design.

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Section: Case Studies: Lessons Learned and Best Practicesmentioning

confidence: 99%

Recycling and Upcycling in the Electro-Mechanical Domain: A Review of Current Practices

Emmanuel Adikwu Ukpoju,

Ayodeji Abatan,

Oladipo Adekoya

et al. 2023

Eng. sci. technol. j.

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Comprehensive Screening of Available Technologies to Improve Productivity of Complex Undeveloped Carbonate Reservoir for Optimizing Field Development Plan Abu Dhabi UAE

Sanchez,

Moreno,

Dantla

et al. 2023

Day 2 Tue, October 03, 2023

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"M" is an undeveloped thin and tight carbonate reservoir consisting of four porous bodies isolated by the presence of intra-dense layers. The prominent layer is four feet of thickness. Applying conventional acid stimulation in "M" has been ineffective to increase wells productivity and sustainability. Therefore, the objective is to evaluate different technologies to optimize wells design and improve productivity, overcoming the reservoir challenges with cost efficiency for full-field implementation. It took the outcome of integrated reservoir analysis for helping in the selection of the best technology based on the results and lessons learnt, that had been applied in different development reservoirs, chasing analogy and comparing similarities in rock-fluid properties such as: composition, architecture, porosity, permeability, water saturation, and PVT, from core, logs, and production test analysis. Thus, induced hydrofracking, fishbone, abrasive jetting and limited entry liner were screened for feasibility. Once the technology qualified, the economic analysis and detailed design was established for planning purpose to be implemented in the first horizontal producer in "M" reservoir. A horizontal well was drilled in a sheet-like carbonate reservoir (pancake stratigraphy) with the advantage of having geosteering technology. It vanquished the structural complexities and the well remained in contact with the reservoir 3500 ft out of 4000 ft in four ft of thickness, nevertheless, two anomalies such as detected shear zones while drilling tried to put the well outside the target. The multidisciplinary team and real time analysis made the well always to come back on target without compromising time efficiency. The well was completed as producer with electrical semisubmersible pump as artificial lift method. According to the feasibility and screening of the technologies, abrasive jetting resulted in the most effective technique, for production enhancement as cost-effective alternative to induce hydrofracking and other applications in "M" reservoir as a trial. Abrasive Jetting is conducted with 28% HCL, and the distance between stages is designed ~ 20 - 30 ft. to create the channels for maximum production. The expected average wormhole and skin reduction are 1.3 ft and 2.3 respectively. The production testing will be executed to evaluate the well performance, pre and post abrasive jetting job. Based on the successful application of abrasive jetting technology in the first horizontal producer well in "M" reservoir, the technology will be deployed in the marginal reservoir for full field development plan.

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Successful Delivery of the First Extended Reach Well Using an Integrated Multidisciplinary Approach; A Case Study in a Mature Field, Onshore Abu Dhabi UAE

Cited by 2 publications

References 2 publications

Recycling and Upcycling in the Electro-Mechanical Domain: A Review of Current Practices

Recycling and Upcycling in the Electro-Mechanical Domain: A Review of Current Practices

Comprehensive Screening of Available Technologies to Improve Productivity of Complex Undeveloped Carbonate Reservoir for Optimizing Field Development Plan Abu Dhabi UAE

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