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Relative Permeability of CBM Reservoirs: Controls on Curve Shape

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Relative Permeability of CBM Reservoirs: Controls on Curve Shape 2016-10-25T11:54:24+00:00

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Relative Permeability of CBM Reservoirs: Controls on Curve Shape

Clarkson, C.R., Rahmanian, M., Kantzas, A., and Morad, K.

DOI: 10.2118/137404-MS
CSUG/SPE 137404, presented at the Canadian Unconventional Resources & International Petroleum Conference held in Calgary, Alberta, Canada, October 19-21, 2010.

ABSTRACT

Relative permeability to gas and water for 2-phase flow coalbed methane (CBM) reservoirs has long been known to exhibit a strong control on (gas and water) production profile characteristics. Despite its important control on both primary and enhanced recovery of CBM for coal seams that have not been fully dewatered, relative permeability in coal has received little attention in the literature in the past decade. There are few published laboratory-derived curves; these studies and their resulting data represent a small subset of the commercial CBM reservoirs and do not allow for a systematic investigation of the physical controls on relative
permeability curve shape. Other methods for estimation of relative permeability curves include derivation from simulation history-matching, and production data analysis. Both of these methods will yield pseudo relative permeability curves whose shapes could be affected by several dynamic CBM reservoir and operating characteristics.

The purpose of the current work is to perform a systematic investigation of the controls on CBM relative permeability curve shape, including non-static fracture permeability and porosity, multi-layer effects and transient flow. To derive the relative permeability curves, effective permeability to gas and water are obtained from flow equations using a modified version of the approach described by Clarkson et al. (2007). Simulated cases are analyzed so that derived and input curves may be compared allowing for investigation of CBM reservoir properties on curve-shape. One set of relative permeability curves that were input into the simulator were derived from pore-scale modeling. Field cases from two basins are also examined and controls on derived relative permeability curve shape inferred. The results of this work should be useful for future CBM development and greenhouse gas sequestration studies, and it is hoped that it will spark additional research of this critical CBM flow property.

A full version of this paper is available on OnePetro Online.

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