基于位置感知和位移复用的示功图传感系统设计
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TE937 TH89

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国家自然科学基金(41672323)、山东省科技发展计划(2014GGX101027)项目资助


Design of the indicator diagram sensing system based on position sensing and displacement multiplexing
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    摘要:

    针对现有油井示功图传感系统不能适应低冲次油井、位移精度低等问题,设计了基于位置感知和位移复用的高精度示功图传感系统。通过对大量真实示功图数据进行分析,得出了在不改变油井冲程的情况下位移轨迹一致的结论,提出了利用位置感知和位移复用实现高精度示功图采集的方案,详细介绍了该传感系统的硬件组成和关键软件算法。通过对该传感系统在油田现场采集的真实数据进行分析,结果表明,该传感系统工作稳定可靠,能够适应的最低冲次达到02次/min,冲程及位移误差小于1%。与其他类型示功图传感系统相比具有明显的优势,完全满足油田生产对示功图采集系统适用范围和精度的要求。

    Abstract:

    The current indicator diagram sensing system of rod pumping well is not suitable for the pumping well at a low pumping speed, and the displacement accuracy is low. To overcome the shortcomings of the existing measuring equipment, an automatic indicator diagram sensing system with high precision displacement is designed. By analyzing a large amount of the data from the indicator diagram, it can be concluded that the motion trajectoriesof the polish rod are similar when the strokes are identical. An automatic acquisition method of high precision indicator diagram is proposed by using position sensing and displacement multiplexing, and the hardware composition and the key software of the sensing system are introduced in detail.Through analysis of the real data collected by the sensing system in the oil field, the results show that the sensing system is stable and reliable, and the lowest stroke can reach 02 times per minute.Moreover, the error of the stroke and the displacement is less than 1%. Compared with other types of indicator diagram sensing system, it has obvious advantages, and it completely satisfies the requirements of the indicator diagram acquisition system with widerange pumping speed and high precision for the oil field.

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田海峰,余先川.基于位置感知和位移复用的示功图传感系统设计[J].仪器仪表学报,2019,40(3):172-180

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  • 在线发布日期: 2022-01-14
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