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  • AIME
    Reservoir Engineering – General - Producing Wells on Casing Flow-An Analysis of Flowing Pressure Gradients

    By P. B. Baxendell

    The performance of a water-drive reservoir having a gas cap depends primarily on the movement of the gar-oil and oil-water contacts. The movement of the contacts during production depends in turn on f

  • AIME
    Reservoir Engineering – General - Profitability of Capital Expenditures for Development Drilling and Producing Property Appraisal

    By J. J. Arps

    n approach to the study of the electrical properlies of drilling muds, their cakes and their filtrates was made by treating the drilling fluid as a porous medium. Lluring this study it was found that

  • AIME
    Reservoir Engineering – General - Special Applications of Drill-Stem Test Pressure Data

    By John P. Dolan, Charles A. Einarsen, GiIman A. Hill

    his paper discusses how the following formation characteristics can be determined mathematically from drill-stem test pressure charts: true formation pressures, effective permeability of the entire se

    Jan 1, 1958

  • AIME
    Reservoir Engineering – General - The Interpretation of Interference Tests in Naturally Fractured Reservoirs with Uniform Fracture Distribution

    By H. Kazemi, G. W. Thomas, M. S. Seth

    The double-porosity model of Warren and Root7 for examining pressure drawdown and buildup phenomena in naturally fractured reservoirs has been extended to intetpret interference test results. Both ana

    Jan 1, 1970

  • AIME
    Reservoir Engineering – General - The Predicted Performance of a Gas-Condensate System, Washington Field, Louisiana

    By James E. Berryman

    A method is presented for calculating the pressure depletion performance of a gas-condensate reservoir from the original reservoir fluid composition using the laboratory determined pressure-production

    Jan 1, 1958

  • 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 – 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 - 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 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 - 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 - Effect of Applied Pressure on the Conductivity, Porosity and Permeability of Sandstones

    By D. O. Wyble

    Five water-driver fields, for which pressure predictions had been made within a few years after discovery, were re-studied when four to five years of additional pressure and production data became ava

  • AIME
    Reservoir Engineering – Laboratory Research - Equilibrium Revaporization of Retrograde Condensate By Dry Gas Injection

    By L. Yarborough, L. R. Smith

    This paper presents results of a laboratory study of retrograde condensate recovery by revaporization into dry injection gas. Flow tests were performed in 10.6-ft long sand packs at 100F and 1,500 psi

    Jan 1, 1969

  • AIME
    Reservoir Engineering – Laboratory Research - Fluid Dynamics During an Underground Combustion Process

    By J. H. Henderson, L. A. Wilson, R. L. Gergins, R. J. Wygal, D. W. Reed

    This paper presents a method of predicting the production history of an underground combustion recovery process. A rigorous solution of the thermodynamics and hydrodynamics involved is beyond the scop

  • AIME
    Reservoir Engineering – Laboratory Research - Heat and Mass Transport in Steam-Drive Processes

    By C. W. Volek, G. Mandl

    Steam-injection tests in the field have shoum that heat transport into the oil/water region, ahead of the steam zone, may have a significant effect on the production process. Earlier theoretical work

    Jan 1, 1970

  • AIME
    Reservoir Engineering – Laboratory Research - Laboratory Study of a Combination of Forward Combustion and Waterflooding – The COFCAW Process

    By D. R. Parrish, F. F. Craig

    In some respects, forward combustion (alias: fie-flooding, underground combustion, in-situ combustion, dry combustion) is an efficient oil recovery method. For example, its displacement efficiency (as

    Jan 1, 1970

  • AIME
    Reservoir Engineering – Laboratory Research - Numerical, Three-Phase Simulation of the Linear Steamflood Process

    By N. D. Shutler

    This paper describes a numerical mathematical model of the steamflood process that depends on fewer restrictive assumptions than models previously reported. The solution, however, is obtained economic

    Jan 1, 1970

  • AIME
    Reservoir Engineering – Laboratory Research - Oxidation of Crude Oil in Porous Media

    By H. J. Ramey, I. S. Bousaid

    Experimental results on the oxidation reaction kinetics in the forward combustion oil recovery process are presented. A total of 48 runs were made wherein a stationary thin layer of coked, unconsoli-d

    Jan 1, 1969

  • AIME
    Reservoir Engineering – Laboratory Research - Performance Review of Shoats Creek Unit Vaporizing Gas-Drive Project

    By J. B. Dorsey, T. W. Brinkley

    Performance of a high-pressure, vaporizing gas-drive project in a volatile oil reservoir is discussed. The project has been in operation for over 8 years. Present recovery from the over-all displaced

    Jan 1, 1969

  • AIME
    Reservoir Engineering – Laboratory Research - Pore Volume Compressibilities of Sandstone Reservoir Rocks

    By I. Fatt

    The chromalographic effect refers to the separation of constituents in a moving fluid phase which occurs when the phase is passed over a stationary phase, either solid or liquid, or large areal extent