Tony Rocha-Valadez scite author profile

Tony Rocha-Valadez

3Publications

26Citation Statements Received

0Citation Statements Given

How they've been cited

109

How they cite others

Affiliations

Texas A&M University, Mary Kay (United States), ExxonMobil (United States)

Publications

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Assessing Wellbore Integrity in Sustained-Casing-Pressure Annulus

Rocha-Valadez

Hasan

Mannan

et al. 2014

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Summary Sustained casing pressure (SCP), exhibited by many wells, is defined as any measurable casing pressure that rebuilds after being bled down, attributable to cause(s) other than artificially applied pressures or temperature fluctuations in the well. Gas leakage, leading to SCP, may occur through the poor cement bond between the casing and the formation, packer, and/or the casing itself. All safety regulators require SCP elimination. However, test-data analysis is mostly qualitative and limited to arbitrary criteria, thereby lacking consensus. This paper attempts to provide a theoretical frame and a model for quantitative analysis of SCP-test data. Specifically, we adapted a model for SCP that is rooted in the transport processes of the system. The model accounts for mud compressibility and assumes gas is leaking into the annulus and migrating up the annular liquid column. Some robust assumptions about the transport processes allow for expressing the governing equation as a first-order, linear differential equation that is solved with appropriate boundary conditions. The resulting algebraic expression for the casing-pressure rise (Annulus A) with time is easy to apply. A comparison of the performance of the model with field data suggests that gas influx causes a casing-pressure (Annulus A) increase in wells.

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Inherently safer sustained casing pressure testing for well integrity evaluation

Rocha-Valadez

Mentzer

Hasan

et al. 2014

Journal of Loss Prevention in the Process Industries

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Assessing integrity of the gas-lift valves by analyzing annular-pressure-transient response

Rocha-Valadez

Hasan

Mannan

et al. 2015

Journal of Petroleum Science and Engineering

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