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    Lesson 3

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    Lesson 3

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    Lesson 3

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    Engineering College

    Petroleum Engineering Dept/Second stage MSc. Yasmin Fadhel

    Permeability
    Recovery of hydrocarbons from the reservoir is an important process in petroleum
    engineering and estimating permeability can ‫ﻣﻌوﻧﺔ‬
    aid in determining how much
    ‫ﺗﻘدﯾر‬
    hydrocarbons can be produced from a reservoir. Permeability is a measure of the ease
    1‫ﺳﮭوﻟﺔ‬
    with which a formation permits a fluid to flow through it. To be permeable, a formation
    must have interconnected porosity (intergranular or intercrystalline porosity,
    interconnected vugs, or fractures).

    To determine the permeability of a formation, several factors must be known: the size
    and shape of the formation, its fluid properties, the pressure exerted on the fluids, and
    the amount of fluid flow. The more pressure exerted on a fluid, the higher the flow rate.
    The more viscous the fluid, the more difficult it is to push through the rock. Viscosity
    refers to a fluid’s internal resistance to flow, or it’s internal friction.
    Permeability is measured in darcies. Few rocks have a permeability of 1 darcy,
    therefore permeability is usually expressed in millidarcies or 1/1000 of a darcy.

    Permeability is usually measured parallel to the bedding planes of the reservoir rock
    and is commonly referred to as horizontal permeability. This is generally the main path
    of the flowing fluids into the borehole. Vertical permeability is measured across the
    bedding planes and is usually less than horizontal permeability. The reason why
    horizontal permeability is generally higher than vertical permeability lies largely in the
    ‫ﯾﻛﻣن إﻟﻰ ﺣد ﻛﺑﯾر‬
    arrangement and packing of the rock grains during deposition and subsequent
    compaction. For example, flat grains may align and overlap parallel to the depositional
    surface, thereby increasing the horizontal permeability, see Figure below. High vertical
    permeability is generally the result of fractures and of solution along the fractures that
    cut across the bedding planes. They are commonly found in carbonate rocks or other
    rock types with a brittle fabric and also in clastic rocks with a high content of soluble
    ‫ﻧﺳﯾﺞ‬
    material.

    1
    Engineering College

    Petroleum Engineering Dept/Second stage MSc. Yasmin Fadhel

    Examples of variations in permeability and porosity

    Some fine-grained sandstones can have large amounts of interconnected porosity;


    however, the individual pores may be quite small. As a result, the pore connecting
    individual pores may be quite restricted and tortuous; therefore, the permeabilities of
    ‫ﻣﻘﯾدة‬ ‫ﻣﻠﺗوﯾﺔ‬
    such fine-grained formations may be quite low.
    Shale and clayswhich contain very fine-grained particlesoften exhibit very high
    ‫ﺗظﮭر‬
    porosities. However, because the pores within these formations are so small, most
    shale and clays exhibit virtually
    ‫ﺗﻘرﯾﺑﺎ‬
    no permeability.
    Some limestone may contain very little porosity, or isolated vuggy porosity that is not
    interconnected. These types of formations will exhibit very little permeability.
    However, if the formation is naturally fractured (or even hydraulically fractured),
    permeability will be higher because the isolated pores are interconnected by the
    fractures.
    Note: Intergranular material in a rock, such as clay minerals or cement, can reduce
    permeability and diminish
    ‫ﺗﻧﺎﻗص‬
    its reservoir potential. It is evident, however,that mineral
    grains must be cemented to some degree to form coherent rock and that permeability
    will reduce to some extent in the process.

    2
    Engineering College

    Petroleum Engineering Dept/Second stage MSc. Yasmin Fadhel

    Exploration and Mapping Techniques


    Exploration for oil and gas has long been considered an art as well as a science. It
    ‫ﻟطﺎﻟﻣﺎ ﻛﺎن‬
    encompasses a number of older methods in addition to new techniques. The
    explorationist must combine scientific analysis and an imagination to successfully
    solve the problem of finding hydrocarbons.

    Subsurface Mapping
    Geologic maps are a representation of the distribution of rocks and other geologic
    materials of different lithologies and ages over the Earth’s surface or below it. The
    geologist measures and describes the rock sections and plots the different formations
    on a map, which shows their distribution. subsurface mapping is a valuable tool for
    ‫أداة ﻗﯾﻣﺔ‬
    locating underground features that may form traps or outline the boundaries of a
    possible reservoir.
    Subsurface mapping is used to work out the geology of petroleum deposits. Three
    ‫ﻟﺗﺣدﯾد‬
    dimensional subsurface mapping is made possible by the use of well data and helps to
    decipher the underground geology of a large area where there are no outcrops at the
    ‫ﻓك‬ ‫ﻧﺗوءات‬
    surface.
    Geophysical Surveys
    Geophysics is the study of the earth by quantitative physical methods. Geophysical
    techniques such as seismic surveys, gravity surveys, and magnetic surveys provide a
    way of measuring the physical properties of a subsurface formation. These
    measurements are translated into geologic data such as structure, stratigraphy, depth,
    and position. The practical value in geophysical surveys is in their ability to measure

    3
    Engineering College

    Petroleum Engineering Dept/Second stage MSc. Yasmin Fadhel

    the physical properties of rocks that are related to potential traps in reservoir rocks as
    well as documenting regional structural trends and overall basin geometry.
    ‫ﺗوﺛﯾﻖ‬

    Seismic Surveys
    The geophysical method that provides the most detailed picture of subsurface
    geology is the seismic survey. This involves the natural or artificial generation and
    ‫ﺻﻧﺎﻋﻲ‬
    propagation of seismic (elastic) waves down into Earth until they encounter a
    ‫إﻧﺗﺷﺎر‬ ‫واﺟﮫ‬
    discontinuity (any interruption in sedimentation) and are reflected back to the surface.
    ‫اﻧﻘطﺎع‬

    Magnetic Surveys
    Magnetic surveys are methods that provide the quickest and least expensive way to
    study subsurface geology over a broad area. A magnetometer is used to measure local
    variations in the strength of the earth’s magnetic field and, indirectly, the thickness of
    sedimentary rock layers where oil and gas might be found. Igneous and metamorphic
    rocks usually contain some amount of magnetically susceptible iron-bearing minerals
    ‫ﻣﻌرﺿﺔ‬
    and are frequently found as basement rock that lies beneath sedimentary rock layers.
    Basement rock seldom contains hydrocarbons, but it sometimes intrudes into the
    overlying sedimentary rock, creating structures such as folds and arches or anticlines
    that could serve as hydrocarbon traps. Geophysicists can get a fairly good picture of the
    configuration of the geological formations by studying the anomalies, or irregularities,
    in the structures.

    Gravity Surveys
    The gravity survey method makes use of the earth’s gravitational field to determine
    the presence of gravity anomalies (abnormally high or low gravity values) which can
    be related to the presence of dense igneous or metamorphic rock or light sedimentary
    rock in the subsurface. Dense igneous or metamorphic basement rocks close to the
    surface will read much higher on a gravimeter because the gravitational force they
    exert is more powerful than the lighter sedimentary rocks. The difference in mass for
    equal volumes of rock is due to variations in specific gravity.
    Geophysicists applied this knowledge, particularly in the early days of prospecting
    off the Gulf of Mexico. Often, they could locate salt domes using data from a gravity
    survey because anticline structures are associated with maximum gravity, whereas salt
    domes are usually associated with minimum gravity.

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