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Use of "Shikoko” Clay for Synthetic Sand Moulding
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Adsorption Isotherms for Naphthalene on Clay and Silt Soil Fractions: A Comparison of Linear and Nonlinear Methods
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Challenges of Deepwater Developments
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Theoretical Dimensionless Breakthrough Time of a Horizontal Well in a Vertically-Stacked Two-Layered Reservoir System with Varying Architecture Part I: Letter ‘B’ Architecture, Edge Water Drive Mechanism
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Theoretical Dimensionless Breakthrough Time of a Horizontal Well in a Vertically-Stacked Two-Layered Reservoir System with Varying Architecture Part II: Letter ‘B’ Architecture, Bottom Water Drive Mechanism
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Rheological Characterisation of Heavy Oil and Impact on its Production Enhancement
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A Novel Approach to Subsea Multiphase Solid Transport
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Theoretical Dimensionless Breakthrough Time of a Horizontal Well in a Vertically-Stacked Two-Layered Reservoir System with Varying Architecture Part I: Letter ‘B’ Architecture, Edge Water Drive Mechanism
Abstract:
In this paper, which is Part I of a series, theoretical breakthrough times of different models of a crossflow two-layered reservoir having an architecture similar to letter ‘B’ and experiencing an edge water drive, with or without a top gas, are derived. The theoretical breakthrough times are based on dimensionless pressure distributions of each identified model.
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Periodical:
Advanced Materials Research (Volume 367)
Pages:
375-383
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Online since:
October 2011
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© 2012 Trans Tech Publications Ltd. All Rights Reserved
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