The Experts below are selected from a list of 840 Experts worldwide ranked by ideXlab platform
M Khasanov - One of the best experts on this subject based on the ideXlab platform.
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Flowing Bottomhole Pressure Calculation for a Pumped Well under Multiphase Flow
arXiv: Instrumentation and Detectors, 2005Co-Authors: S Bikbulatov, A Zagurenko, M KhasanovAbstract:The ability to monitore bottomhole flowing Pressure in Pumping oil wells provides important information regarding both reservoir and artificial lift performance. Converting surface Pressure measurements to bottomhole is currently accomplished by locating the fluid level in the annulus using a sonic device and then applying a correlation to estimate the density of the gas-cut liquid column above the perforations. This work proposes a flowing bottomhole Pressure calculation procedure from fluid level measurements. The model is developed from experimental work and from theoretical arguments. The calculation procedure developed allows to calculate BHP without shutting the well, which is common for fluid level casinghead Pressure measurements. Also this method allows to take into account real geometry of the The comparison of the calculated and measured Pump Intake Pressure shows good accuracy of a technique. It allows to draw a conclusion for an opportunity to use this method in practice.
Zagurenko A. - One of the best experts on this subject based on the ideXlab platform.
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Flowing Bottomhole Pressure Calculation for a Pumped Well under Multiphase Flow
2005Co-Authors: Bikbulatov S., Khasanov M., Zagurenko A.Abstract:The ability to monitore bottomhole flowing Pressure in Pumping oil wells provides important information regarding both reservoir and artificial lift performance. Converting surface Pressure measurements to bottomhole is currently accomplished by locating the fluid level in the annulus using a sonic device and then applying a correlation to estimate the density of the gas-cut liquid column above the perforations. This work proposes a flowing bottomhole Pressure calculation procedure from fluid level measurements. The model is developed from experimental work and from theoretical arguments. The calculation procedure developed allows to calculate BHP without shutting the well, which is common for fluid level casinghead Pressure measurements. Also this method allows to take into account real geometry of the The comparison of the calculated and measured Pump Intake Pressure shows good accuracy of a technique. It allows to draw a conclusion for an opportunity to use this method in practice.Comment: 6 pages, 3 figure
A L Podio - One of the best experts on this subject based on the ideXlab platform.
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Pump Intake Pressure determined from fluid levels dynamometers and valve test measurements
Journal of Canadian Petroleum Technology, 2009Co-Authors: Ly O Rowla, James N Mccoy, A L PodioAbstract:Three Pump-Intake-Pressure (PIP) calculation methods available for wells artificially lifted with sucker rods are discussed in detail in this paper. The values of PIP obtained from acoustic fluid-level measurements in wells with moderate Pump submergence can yield PIP estimates that agree with those of Pump fluid-load analysis. If PIPs determined using these methods do not agree, then the operator must review the data quality and may reduce the deviation by adjusting certain parameters affecting the calculations. Field data for a significant group of wells are used to compare the PIP results of the three methods. The results show that the PIP computed using the maximum and minimum Pump dynamometer loads usually calculates a PIP that is too low, while the PIPs computed using the valve test loads are usually too high. Recommendations are presented for quality control of the computed values.
S Bikbulatov - One of the best experts on this subject based on the ideXlab platform.
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Flowing Bottomhole Pressure Calculation for a Pumped Well under Multiphase Flow
arXiv: Instrumentation and Detectors, 2005Co-Authors: S Bikbulatov, A Zagurenko, M KhasanovAbstract:The ability to monitore bottomhole flowing Pressure in Pumping oil wells provides important information regarding both reservoir and artificial lift performance. Converting surface Pressure measurements to bottomhole is currently accomplished by locating the fluid level in the annulus using a sonic device and then applying a correlation to estimate the density of the gas-cut liquid column above the perforations. This work proposes a flowing bottomhole Pressure calculation procedure from fluid level measurements. The model is developed from experimental work and from theoretical arguments. The calculation procedure developed allows to calculate BHP without shutting the well, which is common for fluid level casinghead Pressure measurements. Also this method allows to take into account real geometry of the The comparison of the calculated and measured Pump Intake Pressure shows good accuracy of a technique. It allows to draw a conclusion for an opportunity to use this method in practice.
Bikbulatov S. - One of the best experts on this subject based on the ideXlab platform.
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Flowing Bottomhole Pressure Calculation for a Pumped Well under Multiphase Flow
2005Co-Authors: Bikbulatov S., Khasanov M., Zagurenko A.Abstract:The ability to monitore bottomhole flowing Pressure in Pumping oil wells provides important information regarding both reservoir and artificial lift performance. Converting surface Pressure measurements to bottomhole is currently accomplished by locating the fluid level in the annulus using a sonic device and then applying a correlation to estimate the density of the gas-cut liquid column above the perforations. This work proposes a flowing bottomhole Pressure calculation procedure from fluid level measurements. The model is developed from experimental work and from theoretical arguments. The calculation procedure developed allows to calculate BHP without shutting the well, which is common for fluid level casinghead Pressure measurements. Also this method allows to take into account real geometry of the The comparison of the calculated and measured Pump Intake Pressure shows good accuracy of a technique. It allows to draw a conclusion for an opportunity to use this method in practice.Comment: 6 pages, 3 figure
