Modified SAGD In Multiple Zones At Mukhaizna

Malik, Sanjeev; Zhang, Eamon; Asimi, Mohammed Al; Gould, Thomas L.

doi:10.2118/129248-ms

Cited by 12 publications

References 5 publications

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Potential in heavy oil biodegradation via enrichment of spore forming bacterial consortia

Al-Bahry

Al-Wahaibi

Al-Hinai

et al. 2016

J Petrol Explor Prod Technol

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It is quite challenging to recover heavy crude oil due to its high viscosity and long chain hydrocarbon contents. In this study the isolation of thermophilic bacterial consortia from crude oil contaminated soil samples and their ability to degrade heavy crude oil were investigated. Thermophilic spore forming bacteria were inoculated with heavy oil in minimal salt media. Maximum growth was observed on 21st day of incubation at 40°C. Samples were analyzed for biosurfactant production, where a substantial decrease in surface tension and interfacial tension was not observed. A well-assay was used to check the potential of bacterial consortia for oil-clearing zones on oil agar plate with bacterial cultures and their cell-free filtrates. 16S rRNA sequencing of 27 isolates from oil contaminated soil showed that isolates belonged to three classes: Alphaproteobacteria, gamma-proteobacteria and Bacilli. Scanning electron microscopy showed that the oil utilizing bacteria were rod-shaped with rough surface and fimbria. Gas chromatography analysis of treated oil after 21 days showed that bacterial consortia efficiently degraded heavy crude oil to light hydrocarbons ranging from C11-C27, from initial C37? carbon chain of untreated controls. These bacterial consortia showed potential in heavy crude oil biodegradation by breaking it down to smaller hydrocarbon composition.

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Potential in heavy oil biodegradation via enrichment of spore forming bacterial consortia

Al-Bahry

Al-Wahaibi

Al-Hinai

et al. 2016

J Petrol Explor Prod Technol

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Novel Methodology for Full-Field Production Forecasting in a Large Steamflood Project in Sultanate of Oman

Wang¹,

Zhang²,

Fitchen³

2010

All Days

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Full-field production forecasting is a key requirement for facilities design and economic analysis during development of a Field Development Plan (FDP). However, forecasting using relatively fine-grid thermal simulation models with over one million grid blocks can require days or weeks to complete a run. Within the timeframe of a typical FDP project, teams must often evaluate multiple geologic and reservoir engineering scenarios, development concepts, and uncertainty ranges in highsensitivity variables in terms of their impact on production streams, costs, and overall project economics. During this evaluation process, fast and flexible forecasting methods are favored over slower but perhaps more accurate methods.Mukhaizna field is a giant heavy oil field in South Sultanate of Oman and is presently under steamflood. Following a period of cold production development involving the drilling of 75 horizontal producers and resulting in very low recovery, a steamflood FDP was developed over a period of six months. Based on this FDP, drilling of hundreds of horizontal producers and thousands of vertical injectors is planned for the next 20 years. Mukhaizna is the first large-scale commercial steamflood to use horizontal producers and vertical injectors.Full field production forecasting for Mukhaizna was performed using a novel, fit-for-purpose workflow. Pattern-scale, finegrid geologic models representing areas of distinctive flow unit and permeability architecture were built and simulated to develop pattern production type curves. Full-field production forecasts were obtained by scaling up production streams from type-curve simulation using a scale-up tool prototyped in Excel. Inputs to the scale-up tool included pattern STOOIP, drilling sequence/schedule, production targets, and facilities constraints. Once type curve simulation was completed, any field development scenario could be forecasted within a few hours. This paper 1) describes how the type-curve models were defined, generated, and simulated; 2) how the detailed scale-up methodology was developed and applied in the Mukhaizna FDP.

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EOR Potential in the Middle East: Current and Future Trends

Almutairi

Kokal

2011

SPE EUROPEC/EAGE Annual Conference and Exhibition

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The majority of enhanced oil recovery (EOR) projects are being executed in the the U.S., Canada, Venezuela, Indonesia and China. The volume of oil produced by EOR methods increased considerably from 1.2 MMBD in 1990 to 2.5 MMBD in 2006 (Sandrea and Sandrea 2007). Current total world oil production from EOR is approaching 3 MMBD representing about 3.5% of the daily global oil production (Sandrea and Sandrea 2007). Thermal and CO2 methods are the major contributors to EOR production, followed by hydrocarbon gas injection and chemical EOR. Other more esoteric methods, e.g., microbial, have only been field tested, without any significant quantities being produced on a commercial scale. In recent years, the number of EOR projects has increased with escalating oil prices. The number of EOR projects in the Middle East (ME) has also increased over the past decade. In some countries like Oman, there has been no choice but to implement EOR projects aggressively due to dwindling "easy oil." Other countries in the region have also started to think EOR, and are including them in their strategic short-, medium- and long-term development plans. Furthermore, there are many projects on the drawing board and appropriate screening studies and EOR pilots are being pursued region-wide. This paper reviews the current ME EOR projects from full-field development to field trials, including those on the drawing board. The option of advanced secondary recovery (ASR) — also known as improved oil recovery (IOR) — technologies before full-field deployment of EOR is also discussed. A case is made that they are a better first option before deployment of capital-intensive EOR projects. The ME’s general drive towards "ultimate" oil recovery — instead of immediate oil recovery — is highlighted in the context of EOR. Some of the enablers for EOR in the ME are also discussed in the paper. It highlights the opportunities and challenges of EOR specific to the region.

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Modified SAGD In Multiple Zones At Mukhaizna

Cited by 12 publications

References 5 publications

Potential in heavy oil biodegradation via enrichment of spore forming bacterial consortia

Potential in heavy oil biodegradation via enrichment of spore forming bacterial consortia

Novel Methodology for Full-Field Production Forecasting in a Large Steamflood Project in Sultanate of Oman

EOR Potential in the Middle East: Current and Future Trends

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