Basic Principles of Induction Logging Electromagnetic Methods in Borehole Geophysics 1st edition by Alexander Kaufman, Gregory Itskovich 0128025840 9780128025840

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ISBN-10 :  0128025840 

ISBN-13 : 9780128025840

Author: Alexander Kaufman, Gregory Itskovich 

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.

Basic Principles of Induction Logging. Electromagnetic Methods in Borehole Geophysics 1st Table of contents:

Chapter One: System of Equations of the Stationary Electric and Magnetic Fields
Abstract
1.1 Equations of the Stationary Electric Field in a Conducting and Polarizable Medium
1.2 Interaction of Currents, Biot-Savart Law, and Magnetic Field
1.3 Vector Potential of the Magnetic Field
1.4 System of Equations of the Stationary Magnetic Field
1.5 Examples of Magnetic Field of Current-Carrying Objects
1.6 System of Equations for the Stationary Fields
Chapter Two: Physical Laws and Maxwell’s Equations
Abstract
2.1 Faraday’s Law
2.2 Principle of Charge Conservation
2.3 Distribution of Electric Charges
2.4 Displacement Currents
2.5 Maxwell’s Equations
2.6 Equations for the Fields E and B
2.7 Electromagnetic Potentials
2.8 Maxwell’s Equations for Sinusoidal Fields
2.9 Electromagnetic Energy and Poynting Vector
2.10 Uniqueness of the Forward Problem Solution
Chapter Three: Propagation of Electromagnetic Field in a Nonconducting Medium
Abstract
3.1 Plane Wave in a Uniform Medium
3.2 Quasistationary Field in a Nonconducting Medium
3.3 Induction Current in a Thin Conducting Ring Placed in a Time-Varying Field
Chapter Four: Propagation and Diffusion in a Conducting Uniform Medium
Abstract
4.1 Sinusoidal Plane Wave in a Uniform Medium
4.2 Field of the Magnetic Dipole in a Uniform Medium (Frequency Domain)
4.3 Transient Field of the Magnetic Dipole in a Uniform Medium
4.4 The Field in a Nonconducting Medium
4.5 The Transient Field in a Conducting Medium
Chapter Five: Quasistationary Field of Magnetic Dipole in a Uniform Medium
Abstract
5.1 Expressions for the Field
5.2 Low and High Frequency Asymptotic
5.3 Expression for Induced Currents
Chapter Six: Geometrical Factor Theory of Induction Logging
Abstract
6.1 Two-Coil Probe
6.2 The Vertical Responses of the Two-Coil Probe in the Media With the Horizontal Boundaries
6.3 Radial Characteristics of Two-Coil Induction Probe
6.4 Multicoil or “Focusing” Induction Probe
6.5 Corrections of the Apparent Conductivity
Chapter Seven: Integral Equations and Their Approximations
Abstract
7.1 Physical Principles of the Hybrid Method
7.2 Derivation of the Equation for the Field
7.3 A Volume Integral Equation and Its Linear Approximation
7.4 A Surface Integral Equation for the Electric Field
Chapter Eight: Electromagnetic Field of a Vertical Magnetic Dipole in Cylindrically Layered Formation
Abstract
8.1 The Boundary Value Problem for the Vector Potential
8.2 Expressions for the Field Components
8.3 The Magnetic Field in the Range of Small Induction Number
8.4 Far Zone of Magnetic Field on the Axis of Borehole
8.5 Displacement of the Probe from the Borehole Axis
Chapter Nine: Quasistationary Field of the Vertical Magnetic Dipole in a Bed of a Finite Thickness
Abstract
9.1 Vertical Component of the Field of a Magnetic Dipole
9.2 The Field of the Vertical Magnetic Dipole in the Presence of a Thin Conducting Plane
9.3 The Two-Coil Induction Probe in Beds With a Finite Thickness
9.4 Profiling Curves for a Two-Coil Probe in a Bed of Finite Thickness
Chapter Ten: Induction Logging Based on Transient EM Measurements
Abstract
10.1 Transient Field of the Magnetic Dipole in a Uniform Medium
10.2 Transient Field of the Magnetic Dipole in a Medium With Cylindrical Interfaces
10.3 Transient Field of the Vertical Magnetic Dipole in a Medium With Horizontal Boundaries
10.4 Transient Field in Application to Deep-Reading Measurements While Drilling
10.5 Inversion of Transient Data in the Task of Geo-Steering
Chapter Eleven: Induction Logging Using Transversal Coils
Abstract
11.1 Electromagnetic Field of the Magnetic Dipole in a Uniform Isotropic Medium
11.2 Boundary Value Problem for the Horizontal Magnetic Dipole in the Cylindrically Layered Formation
11.3 Magnetic Field in the Range of Small Parameter
11.4 Magnetic Field in the Far Zone
11.5 Magnetic Field in a Medium With Two Cylindrical Interfaces
11.6 Magnetic Field in Medium With a Thin Resistive Cylindrical Layer
11.7 Magnetic Field in Medium With One Horizontal Interface
11.8 Magnetic Field of the Horizontal Dipole in the Formation With Two Horizontal Interfaces
11.9 Profiling With a Two-Coil Induction Probe in a Medium With Horizontal Interfaces
Chapter Twelve: The Influence of Anisotropy on the Field
Abstract
12.1 Anisotropy of a Layered Medium
12.2 Electromagnetic Field of Magnetic Dipole in a Uniform and Anisotropic Medium
12.3 Magnetic Field in an Anisotropic Formation of Finite Thickness

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Tags: Basic Principles, Induction Logging, Electromagnetic Methods, Borehole Geophysics, Alexander Kaufman, Gregory Itskovich