Basic Principles of Induction Logging. Electromagnetic Methods in Borehole Geophysics 1st Edition

Basic Principles of Induction Logging. Electromagnetic Methods in Borehole Geophysics 1st Edition – Ebook Instant Download/Delivery ISBN(s): 9780128025840,0128025840

Product detail:

• ISBN 10: 0128025840
• ISBN 13: 9780128025840
• Author: Alex A. 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.

• Provides a step-by-step approach to the theory of electromagnetic methods in borehole applications starting from the simplest models
• Presents theory on the subject that has been previously hard to find, making this a must have reference for anyone working in the field
• Delivers a much needed update on the latest analysis methods, modelling techniques, drilling environments, and probe configurations

Table of contents:

1. Chapter One: System of Equations of the Stationary Electric and Magnetic Fields
2. Chapter Two: Physical Laws and Maxwell’s Equations
3. Chapter Three: Propagation of Electromagnetic Field in a Nonconducting Medium
4. Chapter Four: Propagation and Diffusion in a Conducting Uniform Medium
5. Chapter Five: Quasistationary Field of Magnetic Dipole in a Uniform Medium
6. Chapter Six: Geometrical Factor Theory of Induction Logging
7. Chapter Seven: Integral Equations and Their Approximations
8. Chapter Eight: Electromagnetic Field of a Vertical Magnetic Dipole in Cylindrically Layered Formation
9. Chapter Nine: Quasistationary Field of the Vertical Magnetic Dipole in a Bed of a Finite Thickness
10. Chapter Ten: Induction Logging Based on Transient EM Measurements
11. Chapter Eleven: Induction Logging Using Transversal Coils
12. Chapter Twelve: The Influence of Anisotropy on the Field

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