Using the wellbore as a d/p meter to calculate gas rate

Fair, Chris; Flores, Ricardo; Montague, Eamonn; Hakim, Bilal; Nande, Soumitra; Zhumagulova, Venera; Caylor, Analicia; Draper, Paul

doi:10.1071/aj14032

The APPEA Journal

2015

DOI: 10.1071/aj14032

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Using the wellbore as a d/p meter to calculate gas rate

Chris Fair¹,

Ricardo Flores²,

Eamonn Montague³

et al.

Abstract: The common use of high-resolution tree gauges and downhole permanent pressure/temperature gauges has made it possible to use the measured pressure drop in the wellbore to directly and accurately calculate the gas rate. This is accomplished by first combining an equation of state with a dynamic heat transfer model to create a phase-thermal model (PTM). The PTM is then integrated with a direct solution to the mechanical energy balance (MEB) for flow in pipes. The results obtained using this technique can be as a… Show more

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The Effect of Wellbore Temperature Changes and Frictional Losses on Well Test Interpretation Results

Hakim¹,

Fair²,

Montague³

2016

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With the widespread use of downhole pressure gauges (DHPG’s) to measure and record downhole pressures in oil and gas wells, engineers have been able to eliminate/reduce the wellbore effects that can mask true reservoir response. However, not every well is equipped with a downhole gauge; even fewer have the downhole gauge at the mid-completion depth, leaving fluids below the gauge that are subject to frictional pressure drop and changing fluid density/head due to heating/cooling. The reservoir signal (delta pressure vs time) can be slightly masked or completely overwhelmed by the change in pressure head due to changing fluid density as the well bore fluids cool or heat-up. The resultant measured rate of pressure change will therefore, not be representative of the actual reservoir response. In addition, frictional pressure loss as fluids travel up the well bore can appear as pressure loss due to completion skin. This causes wells to have an artifically high skin. Using raw pressure data that has not been accurately corrected for changing fluid head/density and frictional losses below the gauge can lead to inaccurate pressure-transient analysis (PTA) results (Hasan 1998). This paper will discuss the physics of these processes and explain the reasons for these errors in the PTA results, along with the impact of these errors. Finally, a method for properly correcting the measured pressure to mid-completion pressure will be described. To demonstrate these effects, case studies conducted on two gas wells, a gas-condensate well and an oil well will be presented.

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The Effect of Wellbore Temperature Changes and Frictional Losses on Well Test Interpretation Results

Hakim¹,

Fair²,

Montague³

2016

All Days

View full text Add to dashboard Cite

show abstract

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Using the wellbore as a d/p meter to calculate gas rate

Cited by 1 publication

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The Effect of Wellbore Temperature Changes and Frictional Losses on Well Test Interpretation Results

The Effect of Wellbore Temperature Changes and Frictional Losses on Well Test Interpretation Results

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