Application of Variable Formation Compressibility for Improved Reservoir Analysis

Yale, David P.; Nabor, G.W.; Russell, John A.; Pham, Hong-Danh; Yousef, Mohammed

doi:10.2118/26647-ms

Cited by 19 publications

(3 citation statements)

References 16 publications

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“…We will note that this model appears to function very well for the cases that Bourgoyne, et al Our remaining discussions of material balance models will simply address other models that have been proposed in recent times, and give a brief perspective on the utility of such models. Yale, et al 6 proposed a modified formulation of a material balance that is analogous in approach to that of Fetkovich, et al 1 In reference 7, Ambastha proposes and validates a "type curve" concept for a p D (dimensionless p/z function) versus G pD (dimensionless G p function) for the case of an abnormally pressured gas reservoir.…”

Section: Specialized Results and Materials Balance Relationsmentioning

confidence: 99%

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A Quadratic Cumulative Production Model for the Material Balance of an Abnormally Pressured Gas Reservoir

Gonzalez¹,

Ilk

Blasingame

2008

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At first glance there may be concern that this approximation is not sufficiently valid for field applications -however, we have shown this relation to be an extraordinarily accurate approximation of the rigorous material balance. This result is suited not only for use as a characteristic model, but also for use as a data analysis mechanism (i.e., this result is used to develop a suite of analysis plots, plotting functions, a type curve, etc.). We note that we also address the case of ω being a linear function of G p , and we note that this result is typically identical (or essentially identical) to the case of ω being assumed to be constant. In this work we provide the following new results:A suite of 6 (six) plotting functions based on the p/z-G p 2 material balance model.A suite of 4 (four) ω-G p performance plots which are used to calibrate analysis.A new type curve in terms of a dimensionless pressure function ( We also use the "Gan" analysis approach (3 (three) specialized plots), where this analysis is based on the observation of 2-straight line trends on a p/z-G p plot for an abnormally pressured reservoir. The Gan analysis is used primarily for orientation, particularly with regard to the 4 new ω-G p performance plots.In order to establish a comprehensive validation of the new method for applications to performance data from abnormally pressured reservoirs, we provide a complete analysis suite for the following cases.4 (four) numerical simulation cases (3 "dry gas" cases, 1 "gas condensate" case).20 (twenty) field cases taken from the petroleum literature, or acquired from industry sources.It is relevant to note that all validation cases have been successfully evaluated using the new methodology and we propose that this new technique will become a standard practice for the analysis of reservoir performance data obtained from abnormally pressured gas reservoirs.

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Section: Specialized Results and Materials Balance Relationsmentioning

confidence: 99%

“…Each of these 6 (six) plotting functions (PF 1 -PF 6 ) is used to provide unique insight into the character of the basis function (Eq. 3.8) -we will present an illustrative example of these functions next.…”

Section: Plotting Functions For Data Analysismentioning

confidence: 99%

A Quadratic Cumulative Production Model for the Material Balance of an Abnormally Pressured Gas Reservoir

Gonzalez¹,

Ilk

Blasingame

2008

All Days

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“…[2] Given that the deformation of most unconsolidated sands has been observed to depend on both state (contact area or porosity) and deformation rate, it is necessary to include these effects when constructing an appropriate constitutive law [Yale et al, 1993;Ostermeier, 1995;Chang et al, 1997;Hagin and Zoback, 2004]. A natural choice for such a law is the rateand-state variable friction law, since it already contains the necessary terms and was empirically derived from laboratory observations in a concise mathematical form [e.g., Dieterich, 1978Dieterich, , 1979 and has a physical basis in thermally activated creep at high-stress asperity contacts [Nakatani, 2001;Rice et al, 2001;Beeler, 2004;Nakatani and Scholz, 2004].…”

Section: Introductionmentioning

confidence: 99%

Application of rate‐and‐state friction laws to creep compaction of unconsolidated sand under hydrostatic loading conditions

2007

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[1] Rate-and-state variable friction laws describe the time-dependent fault-normal compaction that occurs during holds in slide-hold-slide friction tests on unconsolidated materials. This time-dependent deformation is qualitatively similar to that observed during volumetric creep strain tests on unconsolidated sands and shales under hydrostatic loading conditions. To test whether rate-and-state friction laws can be used to model volumetric creep processes in unconsolidated sands, the rate-and-state formulation is expanded to include deformation under hydrostatic stress boundary conditions. Results show that the hydrostatic stress form of the rate-and-state friction law successfully describes the creep strain of unconsolidated sand. More importantly, values obtained for rate-and-state friction parameters by fitting these data are in the same range as those obtained from more traditional tests by fitting the fault-normal compaction of simulated gouge during a hold in a laboratory friction experiment.

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Injection rates and cost estimates for CO2 storage in the west Mediterranean region

et al. 2015

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Application of Variable Formation Compressibility for Improved Reservoir Analysis

Cited by 19 publications

References 16 publications

A Quadratic Cumulative Production Model for the Material Balance of an Abnormally Pressured Gas Reservoir

A Quadratic Cumulative Production Model for the Material Balance of an Abnormally Pressured Gas Reservoir

Application of rate‐and‐state friction laws to creep compaction of unconsolidated sand under hydrostatic loading conditions

Injection rates and cost estimates for CO2 storage in the west Mediterranean region

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