Modern Solution for Oil Well Multiphase Flows Water Cut Metering

Aliaksei Sottsau, Ramir Akbashev, Alexandr Peratsiahin, Vadim Garnaev
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Abstract

An innovative technology for determining the water cut in well products (without preliminary separation into liquid and gas fractions) uses the results of electrical impedance measurements and its dependence on the alternating current frequency. Water cut meter's sensor includes measuring and current electrodes, between which there is a well's multiphase flow. Imaginary and real components of the impedance quantitatively describe the component composition of the studied oil and gas-water mixtures. In this process, machine learning methods and developed algorithms for features extraction are used. Depending on the type of emulsion, two independent sensors are used in the oil pipeline, one of which measures in a direct emulsion, the other in an inverse emulsion. Tests of the described water cut meter on flow loops in the Russian Federation and in the Netherlands, as well as studies of well flows in oil production facilities in the Russian Federation and the Kingdom of Saudi Arabia, have shown high measurement accuracy in the full range of water cut, with high gas content, as well as at high salinity and in a wide range of flow rates. To do so, modern methods of data classification based on neural networks and regression modeling implemented using machine learning are employed. It was found that the flow rates of liquid and gas do not affect the results of measuring the water cut due to the high frequency of the impedance measurements - up to 100 thousand measurements per second. Use of in-line multiphase water cut meter makes it possible to apply intelligent methods of processing field information and accumulate statistical data for each well, as a big data element for predicting and modeling in-situ processes. It will also allow to introduce promising production processes aimed at increasing oil production and monitoring the baseline indicators of the well. Novelty of the presented technology: Solution of the problem of high-speed determination of water cut in a multiphase flow without preliminary separation using impedance metering. Creation of mathematical models of multiphase flow and methods for determining the type of flow and the type of emulsion. Machine learning methods and neural networks employment for high-speed analysis of flow changes. Development, successful testing and implementation of an affordable multiphase water cut meter of our own design, which has no analogs in industrial applications.
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油井多相流含水率计量的现代解决方案
利用电阻抗测量结果及其与交流电频率的关系,一项用于测定井产品含水率的创新技术(无需初步分离成液体和气体馏分)。含水率计的传感器包括测量电极和电流电极,两者之间存在多相流。阻抗的虚分量和实分量定量地描述了所研究的油气水混合物的成分组成。在这个过程中,使用了机器学习方法和开发的特征提取算法。根据乳化液的类型,在输油管道中使用两个独立的传感器,其中一个用于测量正乳液,另一个用于测量反乳液。在俄罗斯联邦和荷兰的流动回路上对所述含水率计进行的测试,以及对俄罗斯联邦和沙特阿拉伯王国的石油生产设施的井流进行的研究表明,在含水范围、高含气量、高盐度和大流量范围内,该含水率计的测量精度很高。为此,采用了基于神经网络的现代数据分类方法和使用机器学习实现的回归建模。由于阻抗测量的频率很高,每秒可测量10万次,因此发现液体和气体的流速不影响含水率的测量结果。使用在线多相含水率计,可以应用智能方法处理现场信息,并为每口井积累统计数据,作为预测和建模现场过程的大数据元素。它还将允许引入有前途的生产工艺,旨在提高石油产量并监测油井的基线指标。该技术的新颖性:解决了采用阻抗测量法在没有初步分离的情况下高速测定多相流含水率的问题。建立多相流的数学模型,以及确定多相流类型和乳化液类型的方法。机器学习方法和神经网络用于流量变化的高速分析。开发,成功测试和实施我们自己设计的经济实惠的多相含水率表,在工业应用中没有类似物。
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