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Books on the topic 'Petrophysical propertie'

Author: Grafiati
Published: 22 February 2023

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1

Schön, Jürgen H. Physical properties of rocks: Fundamentals and principles of petrophysics. New York: Pergamon, 1996.

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2

Schön, Jürgen. Physical properties of rocks: Fundamentals and principles of petrophysics. Oxford, OX, UK: Pergamon, 1996.

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3

M, Goolsby Steven, Longman Mark W, and Rocky Mountain Association of Geologists., eds. Occurrence and petrophysical properties of carbonate reservoirs in the Rocky Mountain region. Denver, Colo: Rocky Mountain Association of Geologists, 1988.

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4

C, Donaldson Erle, ed. Petrophysics: Theory and practice of measuring reservoir rock and fluid transport properties. 2nd ed. Boston: Gulf Professional Pub., 2004.

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5

Tiab, Djebbar. Petrophysics: Theory and practice of measuring reservoir rock and fluid transport properties. Houston, Tex: Gulf Pub. Co., 1996.

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6

C, Donaldson Erle, ed. Petrophysics: Theory and practice of measuring reservoir rock and fluid transport properties. 3rd ed. Amsterdam: Gulf Professional Pub., 2012.

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7

Tiab, Djebbar. Petrophysics: Theory and practice of measuring reservoir rock and fluid transport properties ; solutions manual. Houston, Tex: Gulf Pub. Co., 1997.

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8

Crysdale, Bonnie L. Bitumen-bearing deposits of the United States: A summary of the locations, resources, and petrophysical properties of bitumen-bearing rocks in the United States. [Washington, D.C.]: U.S. G.P.O., 1988.

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9

Crysdale, Bonnie L. Bitumen-bearing deposits of the United States: A summary of the locations, resources, and petrophysical properties of bitumen-bearing rocks in the United States. Washington, DC: Dept. of the Interior, 1988.

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10

Crysdale, Bonnie L. Heavy oil resources of the United States: A summary of the locations, resources, and petrophysical properties of heavy oil reservoirs in the conterminous United States. Washington, DC: Dept. of the Interior, 1990.

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11

Crysdale, Bonnie L. Heavy oil resources of the United States: A summary of the locations, resources, and petrophysical properties of heavy oil reservoirs in the conterminous United States. [Washington]: U.S. G.P.O., 1990.

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12

Doveton, John H. Principles of Mathematical Petrophysics. Oxford University Press, 2014. http://dx.doi.org/10.1093/oso/9780199978045.001.0001.

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The pioneering work of Gus Archie moved log interpretation into log analysis with the introduction of the equation that bears his name. Subsequent developments have mixed empiricism, physics, mathematical algorithms, and geological or engineering models as methods applied to petrophysical measurements in boreholes all over the world. Principles of Mathematical Petrophysics reviews the application of mathematics to petrophysics in a format that crystallizes the subject as a subdiscipline appropriate for the workstations of today. The subject matter is of wide interest to both academic and industrial professionals who work with subsurface data applied to energy, hydrology, and environmental issues. This book is the first of its kind, in that it addresses mathematical petrophysics as a distinct discipline. Other books in petrophysics are either extensive descriptions of tool design or interpretation techniques, typically in an ad hoc treatment. It covers mathematical methods that are applied to borehole and core petrophysical measurements to estimate rock properties of fluid saturation, pore types, permeability, mineralogy, facies, and reservoir characterization. These methods are demonstrated by a variety of case studies and summaries of applications. Principles of Mathematical Petrophysics is an invaluable resource for all people working with data related to petrophysics.
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13

K, Harvey P., and Geological Society of London, eds. Petrophysical properties of crystalline rocks. London: The Geological Society, 2005.

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14

Harvey. Petrophysical Properties of Crystaline Rocks. Geological Society of London, 2005.

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15

Schön, J. H. Physical Properties of Rocks: Fundamentals and Principles of Petrophysics. Elsevier Science & Technology Books, 2015.

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16

Schön, Juergen H. Physical Properties of Rocks: Fundamentals and Principles of Petrophysics. Elsevier Science & Technology Books, 2016.

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17

Schon, J. H. Physical Properties of Rocks: Fundamentals and Principles of Petrophysics. Pergamon Press Inc, 1996.

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18

Physical Properties of Rocks - Fundamentals and Principles of Petrophysics. Elsevier, 2015. http://dx.doi.org/10.1016/c2014-0-03002-x.

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19

Schon, J. H. Physical Properties of Rocks: Fundamentals and Principles of Petrophysics. Pergamon Press Inc, 1996.

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20

Schön, J. H. Physical Properties of Rocks: Fundamentals and Principles of Petrophysics. Elsevier Science & Technology Books, 2004.

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21

Occurrence and Petrophysical Properties of Carbonate Reservoirs in the Rocky Mountain Region. Rocky Mountain Assn of Geologists, 1989.

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22

Donaldson, Erle C., and Djebbar Tiab. Petrophysics: Theory and Practice of Measuring Reservoir Rock and Fluid Transport Properties. Elsevier Science & Technology Books, 2015.

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23

Donaldson, Erle C., and Djebbar Tiab. Petrophysics: Theory and Practice of Measuring Reservoir Rock and Fluid Transport Properties. Elsevier Science & Technology Books, 2011.

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24

Donaldson, Erle C., and Djebbar Tiab. Petrophysics: Theory and Practice of Measuring Reservoir Rock and Fluid Transport Properties. Elsevier Science & Technology Books, 2004.

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25

Donaldson, Erle C., and Djebbar Tiab. Petrophysics: Theory and Practice of Measuring Reservoir Rock and Fluid Transport Properties. Elsevier Science & Technology Books, 2015.

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26

J, Horton Robert, and Geological Survey (U.S.), eds. Graphs and tables used to describe electrical measurements of samples of unconsolidated materials, USGS Petrophysical Laboratory - Denver. Denver, Colo: U.S. Dept. of the Interior, U.S. Geological Survey, 2000.

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27

Sen, Mrinal K. Seismic Inversion. Society of Petroleum EngineersRichardson, Texas, USA, 2006. http://dx.doi.org/10.2118/9781555631109.

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Seismic inversion is now commonly used on post-stack and pre-stack seismic data for estimating rock properties used in reservoir characterization. While seismic migration is aimed at imaging the reflectors or the interfaces at their correct subsurface locations, seismic inversion attempts to estimate elastic and flow properties of the layers bounded by these interfaces. Seismic data are sensitive essentially to seismic wave velocity and density contrasts in the subsurface rocks. Because of significant overlap in elastic properties among different rock types, mapping of these elastic properties to rock types and estimating porosity are not trivial. Thus, seismic inversion is best done by combining data of all types such as seismic, well log, petrophysics and production history. The results of seismic inversion can be best interpreted by a team of geologists, geophysicists and reservoir engineers. The goal of this book is to explain the fundamental principles of seismic exploration, seismic wave propagation, and inversion in a language that is understandable by geoscientists and engineers alike so that the team is aware of the significance and limitations of the inversion results.
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28

Schon, J. H. Physical Properties of Rocks, Volume 18: Fundamentals and Principles of Petrophysics (Handbook of Geophysical Exploration: Seismic Exploration). Pergamon, 2004.

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29

Physical Properties of Rocks, Volume 18: Fundamentals and Principles of Petrophysics (Handbook of Geophysical Exploration: Seismic Exploration). Pergamon, 2004.

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30

Green, Don W., and G. Paul Willhite. Enhanced Oil Recovery. Society of Petroleum EngineersRichardson, Texas, USA, 2018. http://dx.doi.org/10.2118/9781613994948.

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Building on the comprehensive, fundamental mechanisms and mathematical computations detailed in the First Edition, the new Second Edition of Enhanced Oil Recovery presents the latest insights into the applications of EOR processes, including-Field-scale thermal-recovery such as steam-assisted gravity drainage and cyclic steam stimulation-Field-scale polymer flooding including horizontal wells-Field-scale miscible-displacement processes such as CO2 miscible flooding-Laboratory-scale chemical flooding in the development and testing of surfactant formulations An invaluable tool for petroleum engineering students, Enhanced Oil Recovery also serves as an important resource for those practicing oil recovery in the field or engaged in the design and operation of commercial projects involving enhanced-or improved-oil-recovery processes. A prior understanding of basic petrophysics, fluid properties, and material balance is recommended.
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