Active WF ( Pattern) Management Through Modern Online Production Data Base Systems Using Classical Techniques : A Case Study On Heavy Oil Fields In South Oman

Gupta, Vivek; Faisal, S.; Belushi, Abdul Aziz

doi:10.2523/iptc-13569-ms

All Days 2009

DOI: 10.2523/iptc-13569-ms

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Active WF ( Pattern) Management Through Modern Online Production Data Base Systems Using Classical Techniques : A Case Study On Heavy Oil Fields In South Oman

Vivek Gupta¹,

S. Faisal²,

Abdul Aziz Belushi³

Abstract: Water flooding has been used successfully in heavy and viscous oil fields since last fifty years. Though characterized by low recoveries and high cost due to adverse mobility ratio, waterflood is still an attractive option before embarking on expensive EOR solutions. One of the key elements to success of waterfloods in heavy oil is well and reservoir management. This paper illustrates the use of daily production data to set up systems that indicate the health of waterflood through use of clas… Show more

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Water Injection Patterns Optimization Approach on High-Viscous Oil in Russkoye Field

Zakirov¹,

Shayhutdinov²,

Svarovskaya³

et al. 2012

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Russkoye field, discovered in 1968, is a giant high-viscous oil field located above the Polar Circle in Russia. The commercial development of the field has been a tremendous challenge due to several factors such as a very complex heterogeneous shallow reservoir with a large gas cap, an active bottom aquifer, unconsolidated sands, low temperature, and permafrost zone. At this stage, the development of the field is still on the pilot testing stage in order to understand and evaluate different possible development strategies that assure the maximum recoverable reserves for this kind of field. As part of the development strategy, eight water injection pattern schemes including horizontal and vertical wells, and different well spacings were simulated to find the optimal waterflooding patterns, and to evaluate different well trajectories, and different injection bottomhole pressures, for the next pilot area. The water injection pattern schemes evaluated were horizontal wells line drive, 7-spot, 7-spot inverted, 9-spot, 9-spot inverted, 5 spot, combined line drive with horizontal producers and two deviated injectors, and combined line drive with horizontal producers and three deviated injectors. The complete analysis was carried out on the basis of the technical results and the economical evaluation. Several parameters were studied to compare performance and efficiency of different water injection patterns, such as voidage replacement ratio, cumulative oil, water and gas, production profiles, sweep efficiency, injected pore volume, and reservoir pressure behavior. The optimization of the four well spacings between 100 m and 400 m and the injection bottomhole pressure range was performed using an analytical approximation. The economical evaluation for each water injection pattern analyzed was executed by means of the economical standard analysis: net present value, internal rate of return, profitability index, lifting cost, and payback period.

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Water Injection Patterns Optimization Approach on High-Viscous Oil in Russkoye Field

Zakirov¹,

Shayhutdinov²,

Svarovskaya³

et al. 2012

All Days

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Multi-Criteria Analysis and Optimization of Waterflood Systems in Brownfields

Voznyuk

Rykov²,

Kotov

2014

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This paper describes a methodology for waterflooding pattern optimization based on multi-criteria analysis of the interaction between producers and injectors. This method takes advantage on the use of streamlines which are generated from the post-processing of finite difference simulation results to define the flow paths between injectors and producers and characterize flow allocation between interacting wells. This information is then combined with well production/injection data (oil / water rates, pressures etc.) to calculate parameters like compensation ratio and injection efficiency for each well. Having all this information, a set of cross-plots is used to rank the producers and injectors by their sweep / drainage efficiency. The results of such analysis allows the planning of workovers, optimization and allocation of the volumes of injected water and ultimately enables a comparative assessment of the efficiency of each individual workover event in terms of incremental oil production, water-cut reduction and decrease in non-effective water injection. One of the advantages of this method is the use of already available results from finite difference simulation. This fact dramatically increases the time available for the waterflood optimization process and significantly widen the range of scenarios where streamlines technologies can be applied. Moreover, this approach does not require significant or time-consuming computational efforts, which make it a very convenient decision-making tool for field operations planning.

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Active WF ( Pattern) Management Through Modern Online Production Data Base Systems Using Classical Techniques : A Case Study On Heavy Oil Fields In South Oman

Cited by 2 publications

References 0 publications

Water Injection Patterns Optimization Approach on High-Viscous Oil in Russkoye Field

Water Injection Patterns Optimization Approach on High-Viscous Oil in Russkoye Field

Multi-Criteria Analysis and Optimization of Waterflood Systems in Brownfields

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