以电潜泵为人工举升系统的大型油井网络生产优化

Anisha Roy, Senthilkumar Datchanamoorthy, Nagappa Sharad, Sangeeta Nundy
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引用次数: 0

摘要

油田生产工程师的主要任务之一是最大限度地提高由多口井组成的油田的产油量,同时要考虑到与组件的操作限制、组件的可靠性、井间的相互作用、环境问题和运营成本有关的诸多限制。这是一个涉及多个物理模型相互作用的多目标多约束问题。此外,优化参数和约束的总数随着字段的大小线性增长。对于拥有数百口井的油田来说,这使得问题的计算量很大,因此直接使用标准优化算法将是低效的。本文描述了一种计算上易于处理和可扩展的方法来解决这个问题。
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Production Optimization of a Large Network of Oil Wells with Electrical Submersible Pumps as the Artificial Lift System
One of the primary tasks of a production engineer at an oil field is to maximize oil production from a field comprising multiple wells, while respecting a multitude of constraints related to operational limitations of components, component reliability, interaction between wells, environmental concerns, and operational costs. This is a multi-objective multi-constraint problem involving multiple physics models that interact with each other. Further, the total number of optimization parameters and constraints grows linearly with the size of the field. This makes the problem computationally intensive for oil fields with hundreds of wells and thus the direct use of a standard optimization algorithm will be inefficient. This paper describes a computationally tractable and scalable approach to solve this problem.
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