A. A. Mulkamanov scite author profile

A. A. Mulkamanov

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Integrating Asset Modelling for Strategic Gas Field Development Planning and Short-Term Optimization

Mulkamanov¹,

Dorofeev²,

Vorobyev³

et al. 2015

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Severneftegazprom OJSC is the operator of the strategic Yuzhno-Russkoye field, ensuring the gas supply to the Nord Stream pipeline. Fulfillment of contractual obligations and achievement of economically sound hydrocarbon recovery with consideration of operating limitations due to seasonal production fluctuations and natural reservoir depletion, require an efficient field management strategy. Solving these problems is impossible without a unified field model to account for the interaction of all production system elements, from the reservoir to the process facility system. Taking into account the complexity of production planning, with respect to multi-level limitations, the license holder (mineral developer) decided to test the integrated modeling technology, which is becoming a standard of the oil and gas industry. The document describes the work carried out to create an integrated model of gas Cenomanian deposits of the Yuzhno-Russkoye oil-gas-condensate field. The resultant integrated model (IM) combines a hydrodynamical reservoir model (HDM), well models, a gas gathering system (GGS) and a compressor station (BCS – booster compressor station). Such unified field model, in contrast to stand-alone model calculations, allows calculating pressure losses and phasing transitions accurately during the fluid flow from the reservoir into the main gas pipeline. To minimize the risk when making decisions based on prediction calculations, much attention is paid to improving the quality of historical production data matching, both on a full-scale IM and its individual components. On the basis of IM, long-term predictions are made for 20 years, reproducing the plan of changes in the BCS parameters, taking into account seasonal gas demand and production rates distribution across the specified regions; an analysis is carried out to study the sensitivity of the target seasonal production rates and cumulative recovery to limitations, such as BCS stage commissioning dates, maximum allowable drawdown pressure, water-gas ratio. Based on the calculation results for various scenarios, percentages of deviation from the specified production rates were analyzed. The integrated model allowed adjusting the target seasonal production rates. Most loaded manifolds in the gathering network with gas velocities above 15 m/s were identified. Manifolds where a risk of liquid hold up may exist during production decline stage have also been identified. As part of the work, a workflow was tested for well and GGS technical regimes optimization, taking into account these limitations, both at the field level (uneven development of reserves), and the level of wells and manifolds (reservoir drawdown, minimum and maximum gas velocities). The results achieved will allow the experts of Severneftegazprom OJSC to use the IM of the field as a tool for making decisions to minimum risks and accomplish long-term tactical and short-term operational objectives.

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Uncertainty Analysis and Integrated Modeling Application During Field Development (Russian)

Dmitruk¹,

Mironov²,

Mulkamanov³

et al. 2019

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Uncertainty Analysis and Integrated Modeling Application During Field Development

Dmitruk¹,

Mironov²,

Mulkamanov³

et al. 2019

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Severneftegazprom OJSC is the operator of the Yuzhno-Russkoye field. In accordance with the field development strategy, in 2018 the commercial development of the Turonian formation began, envisaging the drilling of more than 100 wells to a formation with abnormally high pressure and low permeability and their tie-in to the existing gas gathering network. The task that faces the company is to assess the attainability of the planned targets on the basis of the existing field development concept and surface facilities configuration. A separate focus is on the geological uncertainties analysis of the Turonian formation and their impact on the gas production profile. For the uncertainty analysis, a sector hydrodynamic model was built and history matched, which included the first launch clusters with the U-shaped wells and the multistage hydraulically fractured wells (MSHF). The assessment was made for the impact of geological uncertainties, the alternative well locations, as well as the number of hydraulic fracture stages and fracture parameters on the cumulative gas production. To study the interference of new wells with the existing network, an integrated model was created, which combined the full-scale Black Oil hydrodynamic models of the Cenoman and Turonian reservoirs with the unified compositional gathering network with more than 250 wells.

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A. A. Mulkamanov

Integrating Asset Modelling for Strategic Gas Field Development Planning and Short-Term Optimization

Uncertainty Analysis and Integrated Modeling Application During Field Development (Russian)

Uncertainty Analysis and Integrated Modeling Application During Field Development

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