重庆理工大学学报(自然科学) ›› 2023, Vol. 37 ›› Issue (12): 147-154.

• “精密工程测量技术与仪器”专栏 • 上一篇    下一篇

新型快速红外光源光纤检测系统及其用于油田采出液持水率检测研究

刘玉国, 毛晓楠, 张瑞霞, 岳广韬, 魏伟, 闫丽丽   

  1. 胜利油田石油工程技术研究院
  • 出版日期:2024-02-04 发布日期:2024-02-04
  • 作者简介:刘玉国,男,高级工程师,主要从事水平井找水、压裂完井、侧钻井完井、修井、CO2驱注采技术等研究,E-mail: liuyuguo.slyt@sinopec.com

Study of novel fast infrared light source fiber optic detection system and its application for water holdup detection of oilfield produced liquid

  • Online:2024-02-04 Published:2024-02-04

摘要: 获得较为精准的原油持水率数据,对于注水策略调整、原油开采能力评估、油井开发寿命预测等均具有重要意义。现有检测方法均存在较大检测误差与缺陷,亟须新的方法与设备提升检测效率。原油采出液各组分对不同波长光信号的吸收存在差异,且近红外(NIR)光源具有较强的穿透性,因此基于1 500 nm光源,设计一套可快速检测油田采出液持水率的装置,可在高持水率情况下使用。依据Lambert-Beer定律对持水率与吸光度数据进行线性处理,可实现对高含水量原油持水率的精确测量。该快速检测系统可有效测量原油模型的持水率,对实际原油采出液的持水率测量范围为70%~100%。在持水率大于70%时,测试误差为1.5%。此外,对流速、温度、矿化度、含沙量等井下实际因素对持水率的影响进行了研究,归纳出相关修正因子。

关键词: 光纤, 近红外, 持水率, 油田

Abstract: Presently, most oilfields in China have reached their middle and late years, and there is a high percentage of water in the crude oil in these oilfields. Accurate measurement of water content in crude oil is challenging, but of great significance to the adjustment of water injection strategy, the evaluation of crude oil production capacity, and the prediction of oil well lifespans. Current detection methods, however, all have significant detection errors and defects, which urgently call for new methods and equipment to improve detection efficiency. The components of crude oil produced liquid absorb light signals of different wavelengths differently, and near-infrared (NIR) light source achieves high penetrability. Employing a 1 500 nm light source, this paper designs a device that can quickly detect the water holdup rate of oilfield produced liquid and thus can be used in high water holdup conditions. The system signal is linearly processed based on Lambert Beer’s law for water retention and absorbance data, achieving accurate measurement of water holdup detection of high water content crude oil. This rapid detection system effectively measures the water holdup of the crude oil, with a measurement range of 70% to 100% for the water holdup of the crude oil produced liquid. When the water holdup is over 70%, the testing error stands at 1.5%. In addition, the impact of actual underground factors such as flow rate, temperature, salinity, and sediment concentration on water holdup is studied, and relevant correction factors are summarized. This study provides a solid theoretical and practical foundation for the underground operation of a novel fast infrared light source fiber optic detection system.

中图分类号: 

  • TE327