引用本文:张振远,张兴凯,王文雄,古永红,廖锐全. 油水两相螺旋流状态下射频法测量原油含水率的方法[J]. 石油与天然气化工, 2021, 50(1): 101-107, 118.
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油水两相螺旋流状态下射频法测量原油含水率的方法
张振远1,2,张兴凯1,2,王文雄3,4,古永红3,4,廖锐全1,2
1.长江大学石油工程学院;2.长江大学-中石油多相管流重点实验室 ;3.长庆油田分公司油气工艺研究院;4.低渗透油气田勘探开发国家工程实验室
摘要:
目前,国内大多数油田进入采油后期,原油含水率显著提高,对含水率的测量提出了新的挑战。针对原油含水率的实时测量问题,提出了一种油水两相螺旋流状态下射频法测量含水率的新方法。首先将油水两相来流通过旋流器调整成螺旋流状态,然后测量螺旋流状态下管内同心布置的天线发射的射频信号,最后通过建立含水率与射频信号之间的关系模型及两相流速度滑移模型对测量结果进行修正,得到含水率的测量结果。该方法能够消除油水两相流型分布不均匀对测量结果的影响,扩宽了含水率的测量范围。通过室内实验的方法对测量模型进行了静态标定、动态验证和优化调整。实验结果表明,在入口油水两相混合流速为0.60~1.20 m/s,体积含水率高于43.81%时,利用该方法测量含水率误差在6.29%以内。 
关键词:  原油含水率  射频法  螺旋流
DOI:10.3969/j.issn.1007-3426.2021.01.017
分类号:
基金项目:湖北省教育厅科研计划项目“基于多相流管内相分隔技术的油气水三相测量方法研究”(Q20191310);国家“十三五”重大专项“致密油储层压后排采优化与压裂数据库软件研制”(2016ZX05046004-003)
Water content measurement by radio frequency method under the condition of oil-water two-phase spiral flow
Zhang Zhenyuan1,2, Zhang Xingkai1,2, Wang Wenxiong3,4, Gu Yonghong3,4, Liao Ruiquan1,2
1. School of Petroleum Engineering,Yangze University, Wuhan, Hubei, China;2. Yangtze University-PetroChina Key Laboratory of Multiphase Pipe Flow, Wuhan, Hubei, China;3. Oil and Gas Technology Research Institute of PetroChina Changqing Oilfield Company, Changqing, Shaanxi, China;4. National Engineering Laboratory for Exploration and Development of Low Permeability Oil and Gas Fields, Changqing, Shaanxi, China
Abstract:
At present, most oilfields in China have entered the late stage of oil recovery, and the water content of crude oil has increased significantly, which has brought new challenges to the measurement of water content. For the problem of real-time measurement of water content of crude oil, this paper proposes a new method of water content measurement by radio frequency method under oil-water two-phase spiral flow. First, the oil-water two-phase flow is adjusted to a spiral flow state by a cyclone, then the radio frequency signal emitted by the antenna arranged concentrically in the tube under the spiral flow state is measured, and finally the water content ratio is achieved by establishing a relationship model between the water content and the RF signal measuring. This method can eliminate the influence of the oil-water two-phase flow pattern on the measurement results and widen the measurement range of the water content. The measurement model was statically calibrated, dynamically verified, and optimized through laboratory experiments. The experimental results show that when the inlet oil-water two-phase mixing flow rate is 0.60-1.20 m/s and the volumetric water content is higher than 43.81%, the error of the oil-water two-phase measurement using this method is within 6.29%.
Key words:  water content  radio frequency method  swirling