LEADER 05084nam 2201309z- 450 001 9910674033803321 005 20231214132833.0 035 $a(CKB)5400000000042668 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/68466 035 $a(EXLCZ)995400000000042668 100 $a20202105d2021 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aFuture Advances in Basin Modeling$eSuggestions from Current Observations, Analyses, and Simulations 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021 215 $a1 electronic resource (366 p.) 311 $a3-0365-0276-9 311 $a3-0365-0277-7 330 $aThis 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. 517 $aFuture Advances in Basin Modeling 606 $aResearch & information: general$2bicssc 610 $anormal faulting 610 $asill intrusions 610 $atransient thermal effects 610 $asteady state 610 $abasin modeling 610 $avolcanic basins 610 $asalt 610 $athermal modeling 610 $asource rock maturation 610 $apetroleum system 610 $asalt structures 610 $amodeling principles 610 $ageohistory evolution 610 $atemperature effects 610 $aconductivity effects on maturation 610 $amultiscale/multiphysics basin modeling 610 $athermo-hydro-mechanical model 610 $aisostatic adjustment 610 $acomputer simulations 610 $afinite element method 610 $abasin modelling 610 $ahydro-mechanical coupling 610 $apassive margins 610 $arock failure 610 $aGlaciations 610 $aisostasy 610 $aflexural stress 610 $afaults 610 $ahydrocarbon migration 610 $amagmatic intrusions 610 $adiagenesis 610 $astress 610 $aporosity 610 $apermeability 610 $astress modeling 610 $afracture seismic 610 $afracture connectivity 610 $afracture mapping 610 $apassive seismic 610 $asedimentary basins 610 $afluid flow 610 $acapillary seals 610 $achemical alteration 610 $aresources 610 $achalk 610 $acompaction 610 $awater weakening 610 $arock-fluid interaction 610 $amodelling 610 $acrustal well-core poroperm 610 $acrustal fluid flow 610 $acrustal flow channeling 610 $acritical state physics 610 $awell-log spectral scaling 610 $acrustal power law scaling 610 $alognormal 610 $apink noise 610 $acrustal fracture seismics 610 $acrustal fracture imaging 610 $ahydrogen economy 610 $anatural hydrogen vents 610 $aSao Francisco Basin 610 $apulsing gas emission 610 $aatmospheric pressure tides 610 $anative hydrogen 610 $aH2 exploration 610 $agas seeps 610 $aH2 venting 610 $aradiolysis 610 $aserpentinization 610 $adraining faults 610 $aintra-cratonic basin 610 $adiurnal hydrogen gas venting 610 $aearth tides 610 $acrustal sills 610 $ahydrocarbon and mineral resources 610 $adirect inversion method of fault slip analysis 610 $apaleo tectonic principal stress orientations 610 $awest-central New Hampshire 615 7$aResearch & information: general 700 $aFjeldskaar$b Willy$4edt$01338946 702 $aCathles$b Lawrence$4edt 702 $aFjeldskaar$b Willy$4oth 702 $aCathles$b Lawrence$4oth 906 $aBOOK 912 $a9910674033803321 996 $aFuture Advances in Basin Modeling$93059245 997 $aUNINA