Environmental and Applied Geophysics

  • 日期:2014-12-08
  • 5376


Lecture 1: Introduction: An overview of field geophysics
1. Site characterization
2. Types of field geophysical targets: fixed and mobile
2.1. landfills contaminant plumes
2.2. conduits, fractures and voids
2.3. groundwater, aquifer characterization
2.4. buried objects, utility lines, unexploded ordnance (UXO)
2.5. soil stratigraphy, earthquake liquefaction features
2.6. petroleum exploration

Lecture 2: Physical properties of near-surface geological materials
1. Magnetic properties
2. Low frequency electrical properties
3. Archie’s law, Waxman-Smits equation
4. Electrical conductivity and hydraulic conductivity
5. Kozeny-Carman relationship
6. Electrical properties of organically contaminated soils

Lecture 3: 1. Derivation of Maxwell equations from basic physic laws
2. Helmholtz equation
3. Boundary conditions
4. Electromagnetic parameters

Lecture 4: Direct current (DC) Resistivity I
1. Introduction
2. Current flow in inhomogeneous ground
3. Current flow in layered media
4. Schlumberger, Wenner, dipole-dipole, pole-dipole arrays

Lecture 5: Direct current (DC) Resistivity II
1. Field methods: profiling, sounding, instrumentation
2. Data interpretation with examples
3. Case histories: landfill site characterization, fracture mapping

Lecture 6: Geomagnetic Methods
1. Fundamentals of geomagnetic field
2. Soil and rock magnetism
3. Magnetization and buried magnetic targets
4. Magnetic prospecting
5. Field example: buried metals detection

Lecture 7: Electromagnetic Induction I
1. Introduction
2. Basic Theory: laws of Ohm, Ampere and Faraday
3. Direct vs. inductive coupling
4. Frequency domain vs. time domain systems
5. Smoke-ring diffusion
6. Mutual coupling of coils: LR circuit analogy of an EM system
7. Case histories: landfill characterization, brine migration

Lecture 8: Seismic Exploration and Microtremors
1. Principles of seismic exploration
2. Refraction
3. Reflection
4. Surface wave
5. Microtremor

Lecture 9: Ground-penetrating Radar I
1. Introduction
2. EM wave propagation: velocity, attenuation
3. Dielectric properties
4. Loss mechanisms
5. GPR systems
6. Noise, including clutter, ringing, and scattering from inhomogeneities
7. Case histories: soil stratigraphy

Lecture:10 Borehole Geophysics
1. Geophysical well logging
2. Electrical resistance tomography
3. Borehole radar tomography
4. Case history: Borehole radar monitoring saline water transport

Baidu
map