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Active geophysical monitoring /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam, Netherlands :
Elsevier,
[2020]
|
| Edición: | Second edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- 1 General concept of active geophysical monitoring
- 1.1 Elements of active geophysical monitoring theory
- 1.2 Large-scale geophysical surveys of the Earth's crust using high-power electromagnetic pulses
- 1.3 Active vibromonitoring: experimental systems and fieldwork results
- 2 Active Monitoring Targets
- 2.1 Active geophysical monitoring of hydrocarbon reservoirs using electromagnetic methods
- 2.2 Joint iterative migration of surface and borehole gravity gradiometry data
- 2.3 Feasibility study of gravity gradiometry monitoring of CO2 sequestration in deep reservoirs using surface and borehole data
- 2.4 Feasibility study of reservoir monitoring using the induced polarization effect associated with nanoparticles
- 3 Technology of active monitoring
- 3.1 Electromagnetic--accurately controlled routinely operated signal system and corresponding tensor transfer functions in diffusion field region
- 3.2 Development of large load capacity externally pressurized gas journal bearings for rotary-type vibration exciters with large static imalance
- 3.3 Active monitoring technology in studying the interaction of geophysical fields
- 3.4 The nonlinear processes in active monitoring
- 4 Theory of data analysis and interpretation
- 4.1 Maxwell's equations and numerical electromagnetic modeling in the context of the theory of differential forms
- 4.2 Three-dimensional electromagnetic holographic imaging in active monitoring of sea-bottom geoelectrical structures
- 4.3 Foundations of the method of electromagnetic field separation in upgoing and downgoing parts and its application to marine controlled source electromagnetic data
- 5 Signal Processing in Active Monitoring and Case Histories
- 5.1 Effect of spatial sampling on time-lapse seismic monitoring in random heterogeneous media
- 5.2 Characteristics of ACROSS signals from transmitting stations in the Tokai area and observed by Hi-net
- 5.3 Stacking strategy for acquisition of an Accurately Controlled Routinely Operated Signal System transfer function
- 5.4 Wave fields from powerful vibrators in active seismology and depth seismic researches
- 5.5 Features of radiation of powerful vibrators on inhomogeneous soils
- 5.6 Time-lapse approach to detect possible preslip associated with the Nankai Trough mega-earthquake by monitoring the temporal change of the strong seismic reflector at the subducting Philippine Sea Plate
- 5.7 Active and passive monitoring toward geophysical understanding of offshore interplate seismogenesis
- 5.8 Accurately controlled and routinely operated signal system time lapse for a field study in a desert area of Saudi Arabia
- 5.9 Time-lapse imaging of air injection using the ultrastable ACROSS seismic source and reverse-time imaging method
- 6 Case Histories of the Active monitoring in Carbon Capture and Storage (CCS)
- 6.1 Active surface and borehole seismic monitoring of a small supercritical CO2 injection into the subsurface
- 6.2 Geophysical monitoring of the injection and postclosure phases at the Ketzin pilot site
- 6.3 Geophysical monitoring at the Nagaoka pilot-scale CO2 injection site in Japan
- 6.4 Comprehensive seismic monitoring of an onshore carbonate reservoir: a case study from a desert environment