基于标记的水平井产量剖面监测在油田开发管理中的地质和现场可行性研究——以Yuzhno-Vyintoiskoye油田为例

M. Dulkarnaev, Y. Kotenev, S. Sultanov, A. V. Chibisov, Daria Yurievna Chudinova, A. Katashov, E. Malyavko, A. Buyanov, Ekaterina Evgenievna Semyonova, O. Gorbokonenko
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摘要

在追求高效油气田开发(包括难以开采的储量)的过程中,关键目标是开发并提供提高采收率的基本原理建议。本文介绍了在Yuzhno-Vyintoiskoye油田的两个油田群中,利用地质和油藏建模以及基于动态标记的水平井生产流量监测,使用工作流流程优化油田开发的结果。豫中- vyntoiskoye矿床的目标储层为一系列楔形新新统砂岩。砂体通常具有复杂的地质构造、横向连续性和复杂的储层分布。储层具有低厚度、低渗透率的特点。该剖面产层为高度非均质地层,表现为储层岩性类型的垂向变异性、岩性替代、储层粘土含量高。Yuzhno-Vyintoiskoye油田的目标储层具有广泛的含水含油带,含水饱和度变化很大。古地理资料表明,该储层形成于浅海环境。砂沉积以退化旋回体为代表,这是沿海浅水的典型特征(Dulkarnaev et al., 2020)。目前,该油藏正处于增产周期。这就是为什么在这项工作中使用了一种综合方法,为新钻井油田的油藏压力维护系统影响提供进一步的理论基础和创建起点,以提高石油采收率,确保高不确定性下的可持续石油生产和储量开发速度。
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Geological and Field Feasibility Study of Field Development Management Using Marker-Based Production Profiling Surveillance in Horizontal Wells: The Case Study of the Yuzhno-Vyintoiskoye Field
In pursuit of efficient oil and gas field development, including hard-to-recover reserves, the key objective is to develop and provide the rationale for oil recovery improvement recommendations. This paper presents the results of the use of the workflow process for optimized field development at two field clusters of the Yuzhno-Vyintoiskoye field using geological and reservoir modelling and dynamic marker-based flow production surveillance in producing horizontal wells. The target reservoir of the Yuzhno-Vyntoiskoye deposit is represented by a series of wedge-shaped Neocomian sandstones. Sand bodies typically have a complex geological structure, lateral continuity and a complex distribution of reservoir rocks. Reservoir beds are characterised by low thickness and permeability. The pay zone of the section is a highly heterogeneous formation, which is manifested through vertical variability of the lithological type of reservoir rocks, lithological substitutions, and the high clay content of reservoirs. The target reservoir of the Yuzhno-Vyintoiskoye field is marked by an extensive water-oil zone with highly variable water saturation. According to paleogeographic data, the reservoir was formed in shallow marine settings. Sand deposits are represented by regressive cyclites that are typical for the progressing coastal shallow water (Dulkarnaev et al., 2020). Currently, the reservoir is in production increase cycle. That is why an integrated approach is used in this work to provide a further rationale and creation of the starting points of the reservoir pressure maintenance system impact at new drilling fields to improve oil recovery and secure sustainable oil production and the reserve development rate under high uncertainty.
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