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Bibliographische Detailangaben
Hauptverfasser:	Kaufman, Aleksandr A. 1864-1919 (VerfasserIn), Dashevsky, Yu. A. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam <<[u.a.]>> Elsevier 2003
Ausgabe:	1. ed.
Schriftenreihe:	Methods in geochemistry and geophysics 38
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 643 S. graph. Darst.
ISBN:	0444509836

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Datensatz im Suchindex

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adam_text	METHODS IN GEOCHEMISTRY AND GEOPHYSICS, 38 PRINCIPLES OF INDUCTION LOGGING A.A. KAUFMAN DEPARTMENT OF GEOPHYSICS COLORADO SCHOOL OF MINES GOLDEN, CO 80401, U.S.A. AND YU. A. DASHEVSKY INSTITUTE OF GEOPHYSICS SIBERIAN BRANCH RUSSIAN ACADEMY OF SCIENCES NOVOSIBIRSK, RUSSIA 2003 ELSEVIER AMSTERDAM - BOSTON - HEIDELBERG - LONDON - NEW YORK - OXFORD PARIS - SAN DIEGO - SAN FRANCISCO - SINGAPORE - SYDNEY - TOKYO CONTENTS ACKNOWLEDGMENTS IX LIST OF SYMBOLS XI INTRODUCTION 1 CHAPTER 1: BASIC ELECTROMAGNETIC LAWS AND MAXWELL S EQUATIONS 5 1.1. COULOMB S LAW 5 1.1.1. EXAMPLE I: NORMAL COMPONENT OF THE ELECTRIC FIELD CAUSED BY A PLANAR CHARGE DISTRIBUTION 10 1.1.2. EXAMPLE II: EFFECT OF A CONDUCTOR SITUATED WITHIN AN ELECTRIC FIELD. 15 1.2. BIOT-SAVART LAW 34 1.2.1. EXAMPLE I: THE MAGNETIC FIELD OF A STRAIGHT WIRE LINE 44 1.2.2. EXAMPLE II: THE VECTOR POTENTIAL AND MAGNETIC FIELD OF THE CURRENT FLOWING IN A CIRCULAR LOOP 46 1.2.3. EXAMPLE III: THE MAGNETIC FIELD OF A GROUNDED ELECTRODE IN A UNI- FORM CONDUCTING MEDIUM 51 1.3. THE POSTULATE OF CONSERVATION OF CHARGE AND THE DISTRIBUTION OF CHARGES IN CONDUCTING MEDIA 52 1.3.1. EXAMPLE I: EXPONENTIAL VARIATION 61 1.3.2. EXAMPLE II: SINUSOIDAL VARIATION 62 1.4. FARADAY S LAW AND THE FIRST MAXWELL EQUATION 67 1.4.1. EXAMPLE I: THE VORTEX ELECTRIC FIELD OF A SOLENOID .. . : ... . . ...:-.. 71 1.4.2. EXAMPLE II: THE VORTEX ELECTRIC FIELD OF A MAGNETIC DIPOLE IN-A-RFJREE. * SPACE , ..* .I. MY.J,.-- 73 1.4.3. EXAMPLE III: THE INDUCTIVE ELECTRIC FIELD DUE TO THE MAGNETIC TFIELD OF A CURRENT FLOWING IN A CIRCULAR LOOP . .* *,; R .. .-,.... 76 Y 1.4.4. EXAMPLE IV: INDUCTION OF A CURRENT IN A THIN CONDUCTING RING SIT- UATED WITHIN A PRIMARY ALTERNATING FIELD ..... 79 1.4.5. EXAMPLE V: BEHAVIOR OF THE ELECTROMAGNETIC FIELD AT THE EARLY STAGE AND HIGH FREQUENCIES IN A CONDUCTING MEDIUM 89 1.5. ELECTROMAGNETIC FIELD EQUATIONS 92 1.6. RELATIONSHIPS BETWEEN VARIOUS RESPONSES OF THE ELECTROMAGNETIC FIELD 107 CHAPTER 2: ELECTROMAGNETIC FIELD OF THE MAGNETIC DIPOLE IN A UNIFORM CONDUCTING MEDIUM 119 VI CHAPTER 3: METHODS FOR THE SOLUTION OF DIRECT PROBLEMS OF INDUCTION LOGGING 143 3.1. THE METHOD OF SEPARATION OF VARIABLES 144 3.2. THE METHOD OF SHELLS 146 3.2.1. DERIVATION OF APPROXIMATE BOUNDARY CONDITIONS ON A SHELL SURFACE. 147 3.2.2. CALCULATION OF THE ELECTROMAGNETIC FIELD CAUSED BY INDUCED CURRENTS IN ONE SHELL 149 3.2.3. THE FIELD IN A PRESENCE OF TWO CONFOCAL SHELLS 151 3.3. THE METHOD OF INTEGRAL EQUATIONS 159 3.4. APPROXIMATE METHODS OF FIELD CALCULATION IN INDUCTION LOGGING 170 3.4.1. DOLL S THEORY OF INDUCTION LOGGING 170 3.4.2. THE APPROXIMATE THEORY OF INDUCTION LOGGING, TAKING INTO ACCOUNT THE SKIN EFFECT IN THE EXTERNAL AREA 176 CHAPTER 4: ELECTROMAGNETIC FIELD OF A VERTICAL MAGNETIC DIPOLE ON THE AXIS OF A BOREHOLE 187 4.1. FORMULATION OF THE BOUNDARY PROBLEM 187 4.2. DERIVATION OF THE FORMULA FOR THE VERTICAL COMPONENT OF THE MAGNETIC FIELD 189 4.3. THE QUADRATURE COMPONENT OF THE MAGNETIC FIELD AT THE RANGE OF VERY SMALL MODEL PARAMETERS 202 4.4. RADIAL CHARACTERISTICS OF A TWO-COIL INDUCTION PROBE AT THE RANGE OF SMALL PARAMETERS 213 4.5. INFLUENCE OF THE SKIN EFFECT IN THE FORMATION ON THE RADIAL CHARACTERISTICS OF A TWO-COIL INDUCTION PROBE 222 4.5.1. EXAMPLE I: TWO-LAYERED MEDIUM 226 4.5.2. EXAMPLE II: THREE-LAYERED MEDIUM 228 4.6. ASYMPTOTIC BEHAVIOR OF THE MAGNETIC FIELD IN THE BOREHOLE IN THE RANGE OF SMALL PARAMETERS 229 4.7. BEHAVIOR OF THE FIELD ON THE BOREHOLE AXIS IN THE NEAR AND FAR ZONES . 236 4.8. FREQUENCY RESPONSES OF THE MAGNETIC FIELD OF THE VERTICAL MAGNETIC DIPOLE ON THE BOREHOLE AXIS 245 4.9. INFLUENCE OF FINITE DIMENSIONS OF INDUCTION PROBE COILS 249 4.10. ELECTRICAL FIELD OF A CURRENT RING IN A MEDIUM WITH CYLINDRICAL INTERFACES . . 269 4.10.1. ELECTRICAL FIELD OF A SINGLE-LAYER COIL IN A MEDIUM WITH CYLINDRICAL INTERFACES 274 4.10.2. BOTH TRANSMITTER AND RECEIVER OF THE INDUCTION PROBE ARE SINGLE- LAYER COILS 277 4.11. RADIAL RESPONSES OF TWO-COIL INDUCTION PROBES DISPLACED WITH RESPECT TO THE BOREHOLE AXIS 290 4.12. THE INFLUENCE OF MAGNETIC PERMEABILITY AND DIELECTRIC CONSTANT IN INDUC- TION LOGGING 299 CHAPTER 5: QUASISTATIONARY MAGNETIC FIELD OF A VERTICAL MAGNETIC DIPOLE IN A FORMATION WITH A FINITE THICKNESS 311 5.1. DERIVATION OF FORMULAE FOR THE VERTICAL COMPONENT OF THE MAGNETIC FIELD OF A VERTICAL MAGNETIC DIPOLE 311 5.1.1. THE FIELD OF THE MAGNETIC DIPOLE LOCATED OUTSIDE THE BED 315 5.1.2. THE FIELD OF THE MAGNETIC DIPOLE LOCATED WITHIN THE BED 316 5.1.3. THE FIELD OF THE VERTICAL MAGNETIC DIPOLE IN THE PRESENCE OF A THIN CONDUCTING PLANE 318 5.2. THE VERTICAL RESPONSES OF THE TWO-COIL INDUCTION PROBE IN THE RANGE OF SMALL PARAMETERS 319 5.2.1. GEOMETRIC FACTOR OF AN ELEMENTARY LAYER 319 5.2.2. GEOMETRIC FACTOR OF A LAYER WITH A FINITE THICKNESS 322 5.3. THE THEORY OF THE TWO-COIL INDUCTION PROBE IN BEDS WITH A FINITE THICKNESS 331 5.4. CURVES OF PROFILING WITH A TWO-COIL INDUCTION PROBE IN A MEDIUM WITH TWO HORIZONTAL INTERFACES 352 5.4.1. THICK CONDUCTIVE BED 363 5.4.2. THICK RESISTIVE BED 364 5.4.3. THIN CONDUCTIVE BED 364 5.4.4. THIN RESISTIVE BED 364 CHAPTER 6: THE TWO-COIL INDUCTION PROBE ON THE BOREHOLE AXIS, WHEN THE BED HAS A FINITE THICKNESS 365 6.1. DOLL S THEORY OF THE TWO-COIL INDUCTION PROBE LOCATED ON THE BOREHOLE AXIS WHEN A FORMATION HAS A FINITE THICKNESS 366 6.2. THE THEORY OF A TWO-COIL INDUCTION PROBE, TAKING INTO ACCOUNT THE SKIN EFFECT IN AN EXTERNAL MEDIUM 371 6.3. INFLUENCE OF THE FINITE THICKNESS OF THE FORMATION ON THE MAGNETIC FIELD BEHAVIOR 376 CHAPTER 7: MULTI-COIL DIFFERENTIAL INDUCTION PROBES 385 7.1. METHODS OF DETERMINATION OF PROBE PARAMETERS 386 7.2. PHYSICAL PRINCIPLES OF MULTI-COIL DIFFERENTIAL PROBES 395 7.3. RADIAL AND VERTICAL RESPONSES OF THE DIFFERENTIAL PROBE L.L-1.2 397 7.4. RADIAL AND VERTICAL RESPONSES OF PROBES 6F1M, 4F1 AND 4F1.1 415 7.5. THE INFLUENCE OF FINITE HEIGHT OF THE INVASION ZONE ON RADIAL RESPONSES OF PROBES 6F1M, 4F1 AND 4F1.1 437 7.6. THREE-COIL DIFFERENTIAL PROBE 441 7.7. THE INFLUENCE OF ECCENTRICITY ON FOCUSING FEATURES OF MULTI-COIL INDUCTION PROBES 453 7.8. CHOICE OF A FREQUENCY FOR DIFFERENTIAL PROBES 456 7.9. DETERMINATION OF THE COEFFICIENT OF DIFFERENTIAL PROBES 457 CHAPTER 8: INDUCTION LOGGING BASED ON MEASURING THE INPHASE COMPONENT OF THE SECONDARY FIELD OR THE QUADRATURE COMPONENT DIFFERENCE OF TYPE Q H X (WI) - WI/W A Q H Z (U 2 ) 463 CHAPTER 9: TRANSIENT INDUCTION LOGGING 477 9.1. THE TRANSIENT FIELD OF THE MAGNETIC DIPOLE IN A UNIFORM MEDIUM 478 9.2. TRANSIENT FIELD OF THE VERTICAL MAGNETIC DIPOLE ON THE BOREHOLE AXIS AT THE LATE STAGE 496 VLLL 9.3. APPARENT RESISTIVITY CURVES OF THE TRANSIENT METHOD IN A MEDIUM WITH CYLINDRICAL INTERFACES 502 9.4. THE TRANSIENT RESPONSES OF A VERTICAL MAGNETIC DIPOLE IN A FORMATION WITH A FINITE THICKNESS 508 9.5. ABOUT A NONSTATIONARY FIELD OF THE ELECTRIC DIPOLE 528 CHAPTER 10: PRINCIPLES OF INDUCTION LOGGING WITH TRANSVERSAL INDUCTION COILS 533 10.1. ELECTROMAGNETIC FIELD OF THE MAGNETIC DIPOLE IN A UNIFORM ISOTROPIC MEDIUM 533 10.2. BOUNDARY PROBLEM FOR THE HORIZONTAL MAGNETIC DIPOLE ON THE BOREHOLE AXIS 535 10.3. MAGNETIC FIELD ON THE BOREHOLE AXIS IN THE NEAR ZONE 550 10.4. THE MAGNETIC FIELD ON THE BOREHOLE AXIS IN THE FAR ZONE 558 10.5. THE MAGNETIC FIELD IN A MEDIUM WITH TWO CYLINDRICAL INTERFACES 566 10.6. CYLINDRICAL SURFACE WITH TRANSVERSAL RESISTANCE T 571 10.7. THE MAGNETIC FIELD IN A MEDIUM WITH ONE HORIZONTAL INTERFACE 575 10.8. THE MAGNETIC FIELD OF THE HORIZONTAL DIPOLE IN THE FORMATION WITH FINITE THICKNESS 580 10.9. CURVES OF PROFILING WITH A TWO-COIL INDUCTION PROBE IN A MEDIUM WITH HORIZONTAL INTERFACES 598 CHAPTER 11: THE INFLUENCE OF ANISOTROPY ON THE FIELD OF THE MAGNETIC DIPOLE IN A CONDUCTING MEDIUM 605 11.1. ANISOTROPY OF A LAYERED MEDIUM 605 11.2. ELECTROMAGNETIC FIELD OF THE MAGNETIC DIPOLE IN A UNIFORM ANISOTROPIC MEDIUM 608 11.3. MAGNETIC FIELD IN AN ANISOTROPIC MEDIUM WITH TWO HORIZONTAL INTERFACES . . 617 CHAPTER 12: MATHEMATICAL MODELING OF THE RESPONSE OF INDUCTION LOGGING TOOLS IN 3D GEOMETRIES 627 REFERENCES 639 SUBJECT INDEX 641
any_adam_object	1
author	Kaufman, Aleksandr A. 1864-1919 Dashevsky, Yu. A.
author_GND	(DE-588)139934472
author_facet	Kaufman, Aleksandr A. 1864-1919 Dashevsky, Yu. A.
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dewey-hundreds	600 - Technology (Applied sciences)
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dewey-search	622.154
dewey-sort	3622.154
dewey-tens	620 - Engineering and allied operations
discipline	Physik Bergbau / Hüttenwesen
edition	1. ed.
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spelling	Kaufman, Aleksandr A. 1864-1919 Verfasser (DE-588)139934472 aut Principles of induction logging A.A. Kaufman and Yu. A. Dashevsky 1. ed. Amsterdam <<[u.a.]>> Elsevier 2003 XII, 643 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Methods in geochemistry and geophysics 38 Dashevsky, Yu. A. Verfasser aut Methods in geochemistry and geophysics 38 (DE-604)BV001889852 38 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018335551&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Kaufman, Aleksandr A. 1864-1919 Dashevsky, Yu. A. Principles of induction logging Methods in geochemistry and geophysics
title	Principles of induction logging
title_auth	Principles of induction logging
title_exact_search	Principles of induction logging
title_full	Principles of induction logging A.A. Kaufman and Yu. A. Dashevsky
title_fullStr	Principles of induction logging A.A. Kaufman and Yu. A. Dashevsky
title_full_unstemmed	Principles of induction logging A.A. Kaufman and Yu. A. Dashevsky
title_short	Principles of induction logging
title_sort	principles of induction logging
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018335551&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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