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  • AIME
    Reservoir Engineering – General - Variations in Permeability and Porosity of Synthetic Oil Reservoir Rock-Methods of Control

    By L. J. Health

    Synthetic rock with predictable porosity and permeability has been Prepared from mixtures of sand, cement and water. Three series of mixes were investigated primarily for the relation between porosity

    Jan 1, 1966

  • AIME
    Reservoir Engineering – General - Wettability as Related to Capillary Action in Porous Media

    By J. C. Melrose

    The contact angle is one of the boundary conditions for the differential equation specilying the configuration of fluid-fluid interfaces. Hence, applying knowledge concerning the wettability of a soli

    Jan 1, 1966

  • AIME
    Reservoir Engineering – Laboratory Research - A Laboratory Investigation of the Effect of Rate on Recovery of Oil by Water Flooding

    By T. G. Richardson, F. M. Perkins

    In the recent paper of Richardson and Perkins entitled "A Laboratory Investigation of the Effect of Rate on Recovery of Oil by Water Flooding,"' the authors found very little appzrent effect on o

    Jan 1, 1958

  • AIME
    Reservoir Engineering – Laboratory Research - A Laboratory Investigation of the Water-Driven Carb...

    By G. M. Webster, G. E. Dawsongrove

    The use of percussion-type side-wall cores as an aid in detection and evaluation of hydrocarbon shows and in examination of rock properties has become increasingly popular in recent years. Sidewall co

  • AIME
    Reservoir Engineering – Laboratory Research - A Laboratory Study of Gravity Drainage in Fractured Systems Under Miscible Conditions

    By N. Mungan, J. L. Thompson

    Laboratory displacement tests were performed to study oil recovery elficiency by gravity drainage in fractured systems under miscible conditions. The porous media used were cylindrical Berea and Blue

    Jan 1, 1970

  • AIME
    Reservoir Engineering – Laboratory Research - A Laboratory Study of Laminar and Turbulent Flow in Heterogeneous Porosity Limestones

    By Charles R. Stewart, William W. Owens

    Reservoir performance predictions based on laboratory core test data assume that fluid flow is laminar for the laboratory test. A study has been made to determine the validity of this assumption for l

  • AIME
    Reservoir Engineering – Laboratory Research - A Laboratory Study of Oil Recovery by Solution Gas Drive

    By L. L. Handy

    The most common method of identifying hydrocarbon-bearing strata in a well that penetrates many different formations involves measurement and interpretation of the electrical properties of the formati

  • AIME
    Reservoir Engineering – Laboratory Research - A Mathematical and Experimental Examination of Transverse Dispersion Coefficients

    By R. C. Hassinger, D. V. von Rosenberg

    Transverse dispersion has received considerably less treatment in the literature than has longitudinal dispersion. Different methods for determining transverse dispersion coefficients have been used i

    Jan 1, 1969

  • AIME
    Reservoir Engineering – Laboratory Research - A New Experimental Model for Studying Transient Phe...

    By L. H. Robinson

    Triaxial compression tests have been performed to determine the strength characteristics of limestone, sand-stone and shale rocks subjected to controlled stress conditions. This control tuns exercised

  • AIME
    Reservoir Engineering – Laboratory Research - A Practical Utilization of the Theory of Bingham Plastic Flow in Stationary Pipes and Annuli

    By J. C. Melrose, W. R. Foster, J. G. Savins, E. R. Parish

    Many differences can be imagined between gas-oil flow in which the gas is supplied at the face of the core and gas-oil flow in which the flowing gas was originally dissolved in the oil. If capillary p

  • AIME
    Reservoir Engineering – Laboratory Research - A Theoretical Description of Water-Drive Processes Involving Viscous Fingering

    By P. van Meurs, C. van der Poel

    From observations of the linear displacement of oil by water from a porous medium as visualized in transparent models, new insight into the mechanism of vircous fingering, as occurring in the case of

  • AIME
    Reservoir Engineering – Laboratory Research - An Evaluation of a Gas Drive Method for Determining Relative Permeability Relationships

    By D. R. Parrish, W. E. Lamoreaux, W. W. Owens

    Several methods are now being used by the industry for determining the gas-oil flow characteristics of reservoir rock samples. Most of the laboratory experirnerltal rlzethods can be classified either

    Jan 1, 1957

  • AIME
    Reservoir Engineering – Laboratory Research - An Evaluation of Diffusion Effects in Miscible Disp...

    By J. G. Richardson, J. W. Graham

    The purpose of this paper is to present the results of theoretical and experimental studies of water imbibition. The imbibition processes are involved in recovery of oil from stratified and fractured-

  • AIME
    Reservoir Engineering – Laboratory Research - An Evaluation of the Procedures Used in the Determination of the Grain Densities of Petroleum Reservoir Mineral

    By C. S. Brooks

    Several of the commonly used methods for deter-mination of effective grain densities of minerals have been evaluated for accuracy and precision, and their applicability to various types of petroleum r

    Jan 1, 1958

  • AIME
    Reservoir Engineering – Laboratory Research - An Experimental Study of Heat Flow in Steam Flooding

    By P. E. Baker

    An experimental study of heat flow in steam flooding was carried out with steam displacing water in a plane-radial fluid-flow model. Temperature distributions in the model reservoir, overburden, and s

    Jan 1, 1970

  • AIME
    Reservoir Engineering – Laboratory Research - An Experimental Test of Cutting and Rejoining Model for Representing Porous Bodies

    By N. L. Hancox

    Previous researchers have used the cutting and rejoining model to represent a porous body when attempting to place Archie's law on a theoretical basis and calculate rock permeabilities (F = Ø-m,

    Jan 1, 1969

  • AIME
    Reservoir Engineering – Laboratory Research - Application of Laboratory Data in Calculating the P...

    By E. F. Johnson, V. O. Naumann, D. P. Bossler

    A method is presented for calculating individual gas and oil or water and oil relative permeabilities from data obtained during a gas drive or a waterflood experiment performed on a linear porous body

  • AIME
    Reservoir Engineering – Laboratory Research - Calculation of Relative Permeability from Displacem...

    By R. E. Gilchrist, R. F. Nielsen

    When a gas is displaced by mother in a porous medium, and there is a relative immobile liquid present. there is a transition zone in which the gas composition varies from essentially that of the origi

  • AIME
    Reservoir Engineering – Laboratory Research - Controlled Evaluation of a Surfactant in Secondary Recovery

    By R. I. Lahring, C. G. Inks

    A surfactant waterflood, using a block copolymer of ethylene and propylene oxide (PLURONIC L64*), wa., started in 1956 in Kansas to determine the commercial feasibility of such a process. The producti

    Jan 1, 1969

  • AIME
    Reservoir Engineering – Laboratory Research - Determination of Wettability by Dye Absorption

    By O. C. Holbrook, George G. Bernard

    A new theoretical treatment has been obtained for the behavior of pattern waterflood injection wells when closed in. Two cases are treated: Case I where oil and water are assumed to have the same prop