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  • AIME
    Natural Gas - The Calculation of Pressure Drop in the Flow of Natural Gas Through Pipe

    By Fred H. Poettmann

    An equation has been derived for use in calculating the sandface pressure of flowing gas wells in which the variation of the compressibility factor of the gas with pressure is taken into consideration

    Jan 1, 1951

  • AIME
    Natural Gas - Transient Flow in Gas Transmission Lines

    By R. H. Olds, B. H. Sage

    The transient flow of gases in long pipe lines is a problem of industrial interest. The present discussion deals with the application of the conservation of momentum and material to the transient flow

    Jan 1, 1951

  • AIME
    Natural Gas - Transient Flow in Gas Transmission Lines

    By R. H. Olds, B. H. Sage

    The transient flow of gases in long pipe lines is a problem of industrial interest. The present discussion deals with the application of the conservation of momentum and material to the transient flow

    Jan 1, 1951

  • CIM
    Natural Gas -Energy for the Mining Industry

    By Edmund C. Bovey

    "AS I begin my remarks this morning, please let me say how honoured and gratified I was to receive your invitation to address you here during your deliberations in historic Quebec City. The high estee

    Jan 1, 1966

  • SME
    Natural Gas And The Competitive Fuel Market

    By Francis J. Quinn

    The Natural Gas Act, of 1938, which put interstate pipelines under the jurisdiction of the Federal Power Commission, did not place a protective competitive shield around such companies - nor does any

    Jan 1, 1961

  • AIME
    Natural Gas as Fuel at Anaconda

    By Louis V. Bender

    THIS paper gives a short review of the installation for and the use of gas, as a. fuel, at the Anaconda Reduction Works of the Anaconda Copper Mining Co. Before putting in gas tile fuels used were pul

    Jan 1, 1932

  • AIME
    Natural Gas Firing at El Paso Smelting Works

    By E. R. MARBLE

    THE introduction of a new fuel, such as natural gas, necessitates careful study where it has not been used previously. At the El Paso smelter natural gas required the installation of apparatus with wh

    Jan 1, 1930

  • AIME
    Natural Gas for the Northeastern Seaboard

    By Lyon F. Terry

    IN contemplating the prospects of natural gas being transported from the fields where it is produced to such distant points as Philadelphia, New Jersey, New York City, and New England, let us review t

    Jan 1, 1947

  • AIME
    Natural Gas Hydrates

    By Don B. Carson, Donald L. Katz

    NATURAL gases under pressure form crystal-line hydrates with water. Experimental data are reported on four-phase equilibrium for the methane-propane-water, methane-pentane-water, and methane-hexane-wa

    Jan 1, 1941

  • CIM
    Natural Gas in Canada and Its Uses

    By R. T. Elworthy

    Canada ranks second in the list of world consumers of natural gas. In 1923 our production was nearly fifteen million thousand cubic feet valued at $5,800,000. Our output, however, appears very small c

    Jan 1, 1925

  • AIME
    Natural Gas Technology - A Computer Simulation of Gas Flow in Long Pipelines

    By J. E. Powers, T. D. Taylor, N. E. Wood

    A computer program has been developed to simulate a gas transmission 1ine operating under transient conditions. The program was developed by application of the basic mass and momentum balance equation

  • AIME
    Natural Gas Technology - A Correlation of Dewpoint Pressure With Fluid Composition and Temperature

    By L. K. Nemeth, H. T. Kennedy

    The investigation presented in this paper was performd to develop a relationship between the dewpoint pressure of a hydrocarbon reservoir fluid and its composition, temperature and characteristics of

  • AIME
    Natural Gas Technology - A Laboratory Investigation of Oil Displacement from Porous Media by a Liquefield Petroleum Gas

    By J. H. Henderson, H. J. Ledbetter, N. B. Gove, J. D. Griffith

    INTRODUCTION The results of a series of laboratory flood tests using liquid Iso-butane to displace refined oils from test cores are pre- ented and interpreted on an empirical bask. The study

    Jan 1, 1953

  • AIME
    Natural Gas Technology - A Method for Computing Pressure Behavior and Volume of Gas-Storage Reservoirs

    By E. D. Glass, R. C. Hessing

    The volume of gas in storage reservoirs may be compuled from estimates of hydrocarbon pore volume and gas density. However, both are dificult 10 estimate accurrately. Further, no adequate method has b

  • AIME
    Natural Gas Technology - A Method of Calculating the Distribution of Temperature in Flowing Gas Wells

    By Frank Marotta, Louis B. Lesem, Frank Greytok, John J. McKetta

    Although one of the primary variables in the calculation of the flowing bottom-hole pressure in gas wells from surface measurements is the temperature at any point and its distribution in the flow-str

    Jan 1, 1958

  • AIME
    Natural Gas Technology - A Method of Predicting the Availability of Natural Gas Based on Average Reservoir Performance

    By Lee Hillard Meltzer, Ralph E. Davis

    INTRODUCTION During the past few years emphasis has been placed upon methods of estimating the future expectancy of gas production from natural gas fields. Before technical methods were applied, th

    Jan 1, 1953

  • AIME
    Natural Gas Technology - A Simplified Analysis of Unsteady Radial Gas Flow

    By J. S. Aronofsky, R. Jenkins

    A simple means of predicting the flowing well pressure history in a natural gas reservoir has been developed. The differential equation for unsteady radial flow of gases through porous media was solve

    Jan 1, 1955

  • AIME
    Natural Gas Technology - A Treatment of the Gas Percolation Problem in Simulation of Three-Dimensional, Three-Phase Flow in Reservoirs

    By K. H. Coats

    This paper describes an approximate technique for handling the problem of percolation of evolved gas upwards through the oil column in computer simulation of natural depletion. This technique has been

    Jan 1, 1969

  • AIME
    Natural Gas Technology - An Approximate Method for Non-Darcy Radial Gas Flow

    By G. Rowan, M. W. Clegg

    Approximate analytical solutions for non-Darcy radial gas flow are derived for bounded and infinite reservoirs producing at either constant rate or constant pressure. These analytical solutions are co

    Jan 1, 1965

  • AIME
    Natural Gas Technology - An Attempt to Predict the Time Dependence of Well Deliverability in Gas Condensate Fields

    By J. Husson, R. Iffly, M. Gondouin

    A systematic variation of well deliverability, as reflected from isochronal back-pressure tests performed at regular intervals, has been observed in some gas condensate wells producing at high rates.