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Principles of Dielectric Logging Theory covers the theory of
dielectric logging - from first principles to development of new
tools - for those involved in the design, development and
interpretation of dielectric logging. Dielectric logging has
recently experienced a revival in the oil and gas industry and is
now considered a preferred method for estimating the saturation of
reservoirs. Topics covered in this book include the use of
dielectric tools in different types of fields, interpretation
methods, the Maxwell phenomena, and how to develop new dielectric
tools for future use. Users will find this book includes enough
detail that newcomers, seasoned professionals and researchers find
it useful.
This title covers the physical and mathematical principles of
electric methods in applied geophysics.
This self-contained monograph gives a thorough introduction to the
theory of gravity which is used as the basis for developing
applications in exploration and geodesy. In addition, a survey of
gravity instrumentation is given, with emphasis on the theory of
underlying these instruments. The book finishes with an exposition
of forward modeling and inverston, again emphasizing fundamental
principles.
*Surveys gravity instrumentation with emphasis on the theory of why
certain instrumentation is used
*Presents thorough developments of the theory of gravity to aid in
creating applications in exploration and geodesy
*Emphasizes the fundamental principles of forward modeling and
inversion in the gravitational method
Basic Principles of Induction Logging provides geoscientists with
the information required to survey the electrical conductivity of
rocks surrounding a borehole. The formation conductivity
distribution in the borehole vicinity is critical information
required in formation evaluation and geosteering applications.
Developing a theory of EM logging and on understanding basic
physics for both wireline and LWD logging tools, this reference
furnishes valuable insights for development and use of EM
techniques in practical logging applications. Basic Principles of
Induction Logging will be vital for anyone attempting to
investigate, invent, and develop the next generation of EM logging
tools. It will provide information required to enable operation in
more challenging environments such as logging while drilling,
anisotropic and thinly laminated formations, high angle and
horizontal wells.
"Principles of Electromagnetic Methods in Surface Geophysics"
contains information about the theory of electromagnetic fields in
a conducting media. It describes the theoretical and physical
principles of the main geophysical methods using electromagnetic
fields, including frequency and transient soundings,
electromagnetic profiling, magnetotelluric soundings,
high-frequency methods (such as ground-penetrating radar),
induction logging in vertical and horizontal boreholes (including
measurements while drilling). Special attention is paid to models
and signal processing methods used in modern exploration geophysics
for groundwater, mineral and hydrocarbon exploration.
Offers an integrated approach to the description of electromagnetic
geophysical fields used for both surface and borehole geophysical
surveys.Provides a clear introduction to the physical background of
electromagnetic methods and their application in surface and
borehole investigation.Rounds off the treatment of the main
geophysical methods: gravity, magnetic seismic, electric and
electromagnetic methods
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