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Future Advances in Basin Modeling

Future Advances in Basin Modeling

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This volume describes the nature, causes, and consequences of the diverse fluid movements that produce energy and mineral resources in sedimentary basins. The contained papers point to new capabilities in basin analysis methods and models. The processes that operate in the resource-producing thermo-chemical-structural reactors we call sedimentary basins are reviewed. Efficient ways to infer the tectonic history of basins are described. Impacts on hydrocarbon maturation and migration of glacial tilting, magmatic intrusion, salt migration, and fracturing are illustrated. The conditions under which subsurface flow will channel with distance traveled are identified. Seismic methods that can image and map subsurface permeability channels are described. The surface maturation, surface charge, and chemical reaction foundations of creep subsidence are set forth. Dynamic aspects of the hydrogen resource in basins are analyzed. There is much that is new that is presented in these papers with the intent of stimulating thinking and enthusiasm for the advances that will be made in future decades.

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Keywords

  • atmospheric pressure tides
  • basin modeling
  • basin modelling
  • capillary seals
  • Chalk
  • chemical alteration
  • compaction
  • Computer Simulations
  • conductivity effects on maturation
  • critical state physics
  • crustal flow channeling
  • crustal fluid flow
  • crustal fracture imaging
  • crustal fracture seismics
  • crustal power law scaling
  • crustal sills
  • crustal well-core poroperm
  • Diagenesis
  • direct inversion method of fault slip analysis
  • diurnal hydrogen gas venting
  • draining faults
  • earth tides
  • faults
  • Finite element method
  • flexural stress
  • fluid flow
  • fracture connectivity
  • fracture mapping
  • fracture seismic
  • gas seeps
  • geohistory evolution
  • Glaciations
  • H2 exploration
  • H2 venting
  • hydro-mechanical coupling
  • hydrocarbon and mineral resources
  • hydrocarbon migration
  • hydrogen economy
  • intra-cratonic basin
  • isostasy
  • isostatic adjustment
  • lognormal
  • magmatic intrusions
  • modeling principles
  • modelling
  • multiscale/multiphysics basin modeling
  • n/a
  • native hydrogen
  • natural hydrogen vents
  • normal faulting
  • paleo tectonic principal stress orientations
  • passive margins
  • passive seismic
  • Permeability
  • petroleum system
  • pink noise
  • porosity
  • pulsing gas emission
  • radiolysis
  • Reference, information & interdisciplinary subjects
  • Research & information: general
  • resources
  • rock failure
  • rockā€”fluid interaction
  • salt
  • salt structures
  • Sao Francisco Basin
  • Sedimentary basins
  • serpentinization
  • sill intrusions
  • source rock maturation
  • Steady state
  • Stress
  • stress modeling
  • temperature effects
  • thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
  • thermal modeling
  • thermo-hydro-mechanical model
  • transient thermal effects
  • volcanic basins
  • water weakening
  • well-log spectral scaling
  • west-central New Hampshire

Links

DOI: 10.3390/books978-3-0365-0277-9

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