The Development and Test of a Sensor for Measurement of the Working Level of Gas–Liquid Two-Phase Flow in a Coalbed Methane Wellbore Annulus

Coalbed methane (CBM) is one kind of clean-burning gas and has been valued as a new form of energy that will be used widely in the near future. When producing CBM, the working level within a CBM wellbore annulus needs to be monitored to dynamically adjust the gas drainage and extraction processes. However, the existing method of measuring the working level does not meet the needs of accurate adjustment, so we designed a new sensor for this purpose. The principle of our sensor is a liquid pressure formula, i.e., the sensor monitors the two-phase flow patterns and obtains the mean density of the two-phase flow according to the pattern recognition result in the first step, and then combines the pressure data of the working level to calculate the working level using the liquid pressure formula. The sensor was tested in both the lab and on site, and the tests showed that the sensor’s error was ±8% and that the sensor could function well in practical conditions and remain stable in the long term.

[1]  O. V. Nedzvetskaya,et al.  Acoustics of the Annular Space of Producing and Injection Wells , 2003 .

[2]  Zhang Shali Corrected algorithm for calculating dynamic fluid level with indicator diagram for rob-pumped well , 2011 .

[3]  G. A. Budenkov,et al.  Device for Detecting the Liquid Level in the Annular Space , 2003 .

[4]  Changchun Zou,et al.  Factors affecting coalbed methane (CBM) well productivity in the Shizhuangnan block of southern Qinshui basin, North China: Investigation by geophysical log, experiment and production data , 2017 .

[5]  Li Yon,et al.  Calculation of abroad coalbed methane recoverable resources , 2014 .

[6]  B. B. Djordjevic,et al.  Nonintrusive ultrasonic low-liquid-level sensor , 1990 .

[7]  Dongkun Luo,et al.  Economic evaluation of coalbed methane production in China , 2009 .

[8]  Jin Beibe The Problems that China Faces in Coal-Bed Methane Development and Utilization and Some Suggestions , 2014 .

[9]  Li Zhong,et al.  THE TESTING TECHNOLOGY AND APPLICATION OF PUMPING OIL WELL TRUE LIQUID SURFACE , 2003 .

[10]  Gan Ning The Problem that Should be Paid Attention in Geothermal Gradient Study , 2011 .

[11]  J. K. Godbey,et al.  The Automatic Liquid Level Monitor for Pumping Wells , 1977 .

[12]  Chuan Wu,et al.  Research on the Conductivity-Based Detection Principles of Bubbles in Two-Phase Flows and the Design of a Bubble Sensor for CBM Wells , 2016, Sensors.

[13]  Chuan Wu,et al.  The Development of a Gas–Liquid Two-Phase Flow Sensor Applicable to CBM Wellbore Annulus , 2016, Sensors.

[14]  Hao Xu,et al.  Factors controlling high-yield coalbed methane vertical wells in the Fanzhuang Block, Southern Qinshui Basin , 2014 .

[15]  Hao Xu,et al.  Geological controls and coalbed methane production potential evaluation: A case study in Liulin area, eastern Ordos Basin, China , 2014 .

[16]  Chen Fuwan Pressure-out method to calculate dynamic liquid level in electric submersible pump well and its application , 2011 .