Abdul Salam Mohamad scite author profile

Abdul Salam Mohamad

2Publications

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Affiliations

Abu Dhabi National Oil (United Arab Emirates)

Publications

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Robust Design of Rotary Steerable System RSS and Revised Drilling Procedure Deliver Superior Performance in a UAE Onshore Field.

Mutawa

Quintero

Mohamad

et al. 2017

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Rotary Steerable System (RSS) has been used for quite some time in the industry and in UAE onshore fields. But as the wells become increasingly more complex operators are forced to look into upgraded technologies to expand the envelope beyond the known limits, often implying more complex and costly bottom hole assembly (BHA). At the same time the current oil price situation make it extremely difficult for operators to justify any increment of Authority for Expenditure (AFE) or to take the risk of experimenting new solutions that could potentially increase non-productive-time (NPT), even if for just limited period until the learning curve is established. This case study demonstrates that adopting both fit for purpose technology and invisible lost time (ILT) reduction strategy can yield tremendous performance improvement delivering wells ahead of AFE. A preliminary field analysis carried as first thing to understand the field drilling challenges and performance limiters highlighted that both on bottom (rate of penetration, ROP) and off bottom time (connection time, wiper trips, circulation time, tripping time, etc.) presented areas for improvement. Throughout the life cycle phases of field development more complex reservoirs have been targeted for example thinner layers, multi-structural drain sections, extended laterals, etc. The demand of an RSS being able to drill smoother wellbore minimizing tortuosity and enabling longer sections and trouble-free tripping had gradually changed from being a "nice to have" feature to be a necessity not only to eliminate time waste but also to prevent costly stuck pipe events. The new high performance RSS (HP-RSS) and its enhanced software for trajectory control enabled a faster on bottom ROP by minimizing the need of directional driller intervention to correct the trajectory hence maximizing on bottom time. The enhanced directional control translated into smoother wellbores resulting in reduced friction factors and torque and drag which eliminated the need of wiper trips and decreased tripping and connection times. In parallel with this also drilling and connection procedure were revised, utilizing torque and drag real time monitoring to optimize connection time. The expanded envelope of HP-RSS also enabled further improvement of hydraulics for effective hole cleaning while drilling minimizing the hole conditioning time on connection. The advantage of having superior quality wellbore extended also to post drilling phases, for example it enabled a faster and trouble-free running of complex smart completion reducing HSE risks and further impacting AFE. In summary, the HP-RSS enabled superior performance saving $287.5K for an invidual well. The total amount of saving projected over a year in this field is estimated to be around $ 2.9M. Efficiency and reliability are keys to lower costs and increase profitability in oil and gas operations. This paper introduces a novel approach that aim to expand technical confidence to drilling and reservoir management to target more challenging drains sections with higher productivity.

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Success Story of Utilizing Real Time Drilling Data to Remotely Support Drilling Operations and Identifying the Areas of Drilling Performance Improvement

Mohamad

Dhanhani

Joshi

et al. 2019

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Upstream Oil & Gas industry has been continuously focusing on reducing the operating cost, while targeting higher operational efficiencies. To that extent we are seeing a continuous move towards remote operations with efficient utilization of available data to identify operational issues and provide benchmarks for improving drilling performance. The industry is putting significant efforts into using instrumentation and software to optimize operations in all domains for exploration and production (E&P) to move towards the Digital Oil field of the future. With a similar vision, ADNOC Onshore have implemented Real Time Data Management project in partnership with Schlumberger for enabling remote real-time drilling operations and performance reporting across its entire active rig fleet. The objective is to provide a single platform to users for: Technological solution enabling real-time data transmission from all rigs to ADNOC Onshore Headquarters and enabling real-time visualizations of the drilling data.Engineering solution to transform real-time data into information to easily identify the areas of operational improvement allowing to implement specific measures to reduce ILT and NPT which can help in reducing costs and risk. This project has also provided an automated Drill Well on Paper (DWOP) process where high frequency real-time data is utilized along with low frequency Daily Drilling report data to provide better insights for well planning and generate ideas for improving performance and reducing costs.

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