--> Advanced Compositional Gradient Analysis, Cañas, Jesus A.; Pop, Julian1 Dubost, Francois; Pomerantz, Drew; Mullins, Oliver, #90100 (2009)

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Advanced Compositional Gradient Analysis

Cañas, Jesus A.1
 Pop, Julian1
 Dubost, Francois1
 Pomerantz, Drew1
 Mullins, Oliver1

1Schlumberger, Rio de Janeiro, Brazil.

Steep gradients are common in gas condensate and volatile oil reservoirs, but they are also present in heavy oils reservoirs. There are numerous publications (Creek, 1985, Lars Høier, 2000, Montel, 2002, Firoozabadi, 1999, Ghorayeb, 2003,Fujisawa, 2004, Elshahawi, 2005, and Kabir, 2006) that have dealt with complex fluid columns showing compositional gradients for columns in thermodynamic equilibrium or under steady state conditions. Montel et al. (2002) discuss processes that arise from recent charging of these reservoirs, which are not in equilibrium but still undergoing for instance a flux of the
light components that diffuse.

Formation testers supply a wealth of information to observe and predict the state of fluids in petroleum reservoirs,through detailed pressure and fluid analysis measurements. With the correct understanding of fluid characteristics in the reservoir, reserve calculations and adequate development plans can be prepared. Additionally, flow barriers may then be revealed, as across such barriers, fluid may appear different. In order to test for the existence of such barriers, pressure or fluid differences, in their context must be assessed. Formation tester data must therefore be treated by means of a systematic analysis, so that different sources of information lead to an integrated, preferably, consistent conclusion. Downhole fluid analysis, geochemical analysis in conjunction with pressure gradient analysis is simultaneously analyzed to reflect and make deductions concerning the correct state of fluids in complex fluid columns.

In this paper, a novel methodology is presented to account for non-linearity in pressure gradients due to varying fluid density. State-of-the-art analytical chemistry methods support this analysis. We examine three field cases in which compositional gradients were observed with both downhole fluid analysis measurements and pressure gradients. An equation of state model is used to describe the fluid column according to a simple fluid equilibrium model. A non-linear pressure gradient regression fit is also examined. The choice and appropriateness of the pressure gradient model that accounts for the observed fluid density changes observed. The result of the modelled fluid and pressure analisis are compared to actual
downhole measurements of the pressure profile and insitu fluid logs.

AAPG Search and Discover Article #90100©2009 AAPG International Conference and Exhibition 15-18 November 2009, Rio de Janeiro, Brazil