Controls of grain-size distribution on geomechanical properties of reservoir rock-A case study: Cretaceous Khafji Member, Zuluf Field, offshore ... article from: Marine and Petroleum Geology]

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Description:
The Khafji Member of the Cretaceous Wasia Formation in Zuluf Field, offshore Saudi Arabia is an important siliciclastic hydrocarbon reservoir. The reservoir consists of a lower Main Sand and an upper Stringer Sand. The present study investigated the relationships between the geomechanical attributes (Young's modulus and Poisson's ratio) of the reservoir and its grain size distribution. In addition, an attempt was also made to relate the reservoir quality with the depositional environments deduced from factor analysis of the grain size distribution data. The Young's modulus for the Khafji reservoir range from a low of 8.43x10^5psi at 1000psi confining pressure (1.13x10^6psi at 2900psi confining pressure) to a high of 1.27x10^6psi at 1000psi (1.91x10^6psi at 2900psi). The study shows that there is no significant relationship between grain size parameters (mean, median, skewness, and kurtosis) and geomechanical properties. However, a good correlation was observed between geomechanical parameters and sands deposited in different environments. The clean sand showing moderate to good sorting and interpreted as beach sand showed low Young's modulus (average 1.07x10^6psi) and Poisson's ratio (average 0.16), while the parameters were higher (average of 1.57x10^6psi Young's modulus and 0.204 Poisson's ratio) for the fine-grained sediments representing possible lagoonal or offshore environment.