Coupled Surface/Subsurface Simulation of an Offshore K2 Field

Dobbs, Walt; Browning, Brad; Killough, John; Kumar, Amit

doi:10.2118/145070-ms

Cited by 3 publications

(1 citation statement)

References 12 publications

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“…Além disto, se o tempo gasto na simulação da rede de superfície é relativamente pequeno se comparado ao tempo gasto na simulação de reservatório, isto ocorre pela simplicidade do caso (poucos poços, uma rede de escoamento simples etc.). Dobbs et. at.…”

Section: Metodologias De Integraçãounclassified

Desenvolvimento e gerenciamento de reservatórios de petróleo com foco na modelagem integrada com sistema de produção

Carlos von Hohendorff Filho

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Este trabalho é dedicado à:Ao Senhor Jesus Cristo, pelo dom maravilhoso da vida, pela capacidade e inteligência concedidas, por dar sentido à minha existência e por, desde o princípio, conduzir os meus passos até este momento.À minha esposa Elaine e meu filho Levi, por sua compreensão, paciência e apoio em todos os momentos.Aos meus pais João Carlos e Eliana, que investiram em mim desde cedo com carinho, tempo, esforço, atenção e dedicação.Meus professores e mentores. Meus queridos amigos. AGRADECIMENTOSAo orientador e professor Dr. Denis José Schiozer pelo incentivo, atenção, paciência e disposição para me atender sempre que solicitado.

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Section: Metodologias De Integraçãounclassified

Desenvolvimento e gerenciamento de reservatórios de petróleo com foco na modelagem integrada com sistema de produção

Carlos von Hohendorff Filho

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Economic Limit Factors

Kaiser¹

2019

Decommissioning Forecasting and Operating Cost Estimation

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Completion and Production Strategies for Liquids-Rich Wells in Ultra-low-permeability Reservoirs

Kumar

Dusterhoft

Siddiqui

2013

SPE Annual Technical Conference and Exhibition

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Producing from liquids-rich, ultra-low-permeability reservoirs requires long, horizontal wells with multiple fractures—a situation that demands a better understanding of well-completion practices in relation to reservoir dynamics to maximize benefit. This paper attempts to augment that understanding through a stochastic reservoir modeling approach. A reservoir simulation model for a typical condensate well in the Eagle Ford liquids-rich area was used in a decision-under-uncertainty framework to identify optimal completion and production strategies. The important factors considered are for fractures (length, conductivity, conductivity endurance, and spacing), reservoir (matrix permeability), fluid (saturation pressure and condensate-gas ratio), and well constraints (bottomhole pressure and rates). The effect of these factors, grouped into decision and uncertainty variables, on well productivity were examined to identify the optimal combination of values for each decision variable, considering the impact of uncertainty variables represented by a statistical metric. Completion techniques and proppant selection that maximize well productivity in conventional or even tight formations by maximizing fracture conductivity are not necessarily optimal for ultra-low-permeability reservoirs. The marginal benefit of higher fracture conductivity diminishes rapidly in such reservoirs, and lower-grade proppants can be used. The optimal completion strategy consists of balancing the effects of decision variables based on a clear objective of maximizing reserves or accelerating production or a specific combination thereof. This is because the variables interact; for example, longer fractures both accelerate production and add reserves (bigger drainage volumes), whereas if drainage volumes interfere, closer fracture spacing can accelerate production without increasing reserves. The rapid falloff in production rates for wells in ultra-low-permeability reservoirs encourages operators to establish high initial rates. In liquids-rich wells, such a strategy can leave a large quantity of unproduced liquids in the fractures that also impedes production rates. At a very low drawdown, however, the well may not even produce. Hence, an optimal production strategy maximizing the liquid yield at the surface should be planned and employed. During the fracture-treatment design process, large uncertainties that affect fracture geometry and properties are often ignored, leading to designs that are suboptimal for well productivity in the field. This study considers decision and uncertainty variables related to both completion and production. Insights developed with respect to the interaction of various factors from the study allow for a fuller understanding and provide practical guidelines for completion and production practices. The dynamic behavior of condensate banks in the presence of hydraulic fractures as it relates to production practices is also examined—this has not been discussed in detail in the literature.

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Coupled Surface/Subsurface Simulation of an Offshore K2 Field

Cited by 3 publications

References 12 publications

Desenvolvimento e gerenciamento de reservatórios de petróleo com foco na modelagem integrada com sistema de produção

Desenvolvimento e gerenciamento de reservatórios de petróleo com foco na modelagem integrada com sistema de produção

Economic Limit Factors

Completion and Production Strategies for Liquids-Rich Wells in Ultra-low-permeability Reservoirs

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