| Autore: |
Jiang Yujing
|
| Titolo: |
Fluid Flow in Fractured Porous Media: Volume 2 / Yujing Jiang, Richeng Liu
|
| Pubblicazione: |
MDPI - Multidisciplinary Digital Publishing Institute, 2019 |
| |
Basel, Switzerland : , : MDPI, , 2019 |
| Descrizione fisica: |
1 electronic resource (492 p.) |
| Soggetto topico: |
History of engineering and technology |
| Soggetto non controllato: |
deformation feature |
| |
minerals |
| |
microstructure |
| |
mixing |
| |
permeability |
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gas concentration |
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water-rock interaction |
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loose gangue backfill material |
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unified pipe-network method |
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fracture |
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roof-cutting resistance |
| |
crack |
| |
similar-material |
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movable fluid |
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gob-side entry retaining (GER) |
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rock-soil mechanics |
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bed separation |
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orthogonal tests |
| |
charge separation |
| |
water soaked height |
| |
fluid flow in reclaimed soil |
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laboratory experiment |
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longwall mining |
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grading broken gangue |
| |
MIP |
| |
elastic modulus |
| |
effective stress |
| |
permeability coefficient |
| |
mixer |
| |
naturally fracture |
| |
SEM |
| |
microstructure characteristics |
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artificial joint rock |
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fractured rock |
| |
strata movement |
| |
conservative solute |
| |
particle velocity |
| |
dry-wet cycles |
| |
hydraulic fractures |
| |
numerical calculation |
| |
mechanical behaviors |
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normalized conductivity-influence function |
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fractured porous rock mass |
| |
PPCZ |
| |
segmented grouting |
| |
non-aqueous phase liquid |
| |
intelligent torque rheometer |
| |
numerical analysis |
| |
temperature |
| |
unsaturated soil |
| |
uniaxial compressive strength |
| |
mine shaft |
| |
coalbed methane (CBM) |
| |
nonlinear flow in fractured porous media |
| |
similar simulation |
| |
forecasting |
| |
tight sandstones |
| |
oriented perforation |
| |
hydro-mechanical coupling |
| |
constant normal stiffness conditions |
| |
cohesive soils |
| |
layered progressive grouting |
| |
chemical grouts |
| |
grain size of sand |
| |
Darcy's law |
| |
soft coal masses |
| |
hydro-power |
| |
cyclic heating and cooling |
| |
cohesive element method |
| |
cement-based paste discharge |
| |
tectonically deformed coal |
| |
split grouting |
| |
fault water inrush |
| |
filtration effects |
| |
T-stress |
| |
particle flow modeling |
| |
new cementitious material |
| |
strength |
| |
stabilization |
| |
fractured porous medium |
| |
brine concentration |
| |
initial water contained in sand |
| |
XRD |
| |
fracture criteria |
| |
hydraulic conductivity |
| |
roadway deformation |
| |
backfill mining |
| |
adsorption/desorption properties |
| |
pore pressure |
| |
roughness |
| |
cement-silicate grout |
| |
compressive stress |
| |
discrete element method |
| |
dynamic characteristics |
| |
strain-based percolation model |
| |
thermal-hydrological-chemical interactions |
| |
pore distribution characteristics |
| |
transversely isotropic rocks |
| |
nitric acid modification |
| |
disaster-causing mechanism |
| |
CH4 seepage |
| |
crack distribution characteristics |
| |
micro-CT |
| |
relief excavation |
| |
Darcy flow |
| |
hydraulic fracturing |
| |
mixed-form formulation |
| |
propagation |
| |
scanning electron microscope (SEM) images |
| |
propagation pattern |
| |
consolidation process |
| |
rheological deformation |
| |
gas adsorption |
| |
soft filling medium |
| |
ground pressure |
| |
orthogonal ratio test |
| |
rock fracture |
| |
coal seams |
| |
high-steep slope |
| |
interface |
| |
orthogonal test |
| |
stress interference |
| |
physical and mechanical parameters |
| |
fracture propagation |
| |
fluid-solid coupling theory |
| |
coupling model |
| |
surface characteristics |
| |
numerical manifold method |
| |
gas |
| |
lignite |
| |
water inrush prevention |
| |
coupled THM model |
| |
hard and thick magmatic rocks |
| |
Ordos Basin |
| |
porosity |
| |
damage mechanics |
| |
seepage |
| |
degradation mechanism |
| |
high temperature |
| |
visualization system |
| |
bentonite-sand mixtures |
| |
contamination |
| |
conductivity-influence function |
| |
deterioration |
| |
seepage pressure |
| |
glutenite |
| |
adhesion efficiency |
| |
mechanical behavior transition |
| |
bedding plane orientation |
| |
enhanced gas recovery |
| |
debris-resisting barriers |
| |
reinforcement mechanism |
| |
on-site monitoring |
| |
geophysical prospecting |
| |
cyclic wetting-drying |
| |
scoops3D |
| |
semi-analytical solution |
| |
enhanced permeability |
| |
management period |
| |
seepage control |
| |
deformation |
| |
Yellow River Embankment |
| |
impeded drainage boundary |
| |
rheological test |
| |
circular closed reservoir |
| |
grout penetration |
| |
viscoelastic fluid |
| |
coal-like material |
| |
paste-like slurry |
| |
floor failure depth |
| |
supercritical CO2 |
| |
gravel |
| |
numerical model |
| |
fractal |
| |
gas-bearing coal |
| |
shear-flow coupled test |
| |
rheological limit strain |
| |
CO2 flooding |
| |
flotation |
| |
goaf |
| |
slope stability |
| |
damage |
| |
coal and gas outburst |
| |
hydraulic fracture |
| |
anisotropy |
| |
high-order |
| |
effluents |
| |
FLAC |
| |
limestone roof |
| |
sandstone |
| |
TG/DTG |
| |
Xinjiang |
| |
two-phase flow |
| |
model experiment |
| |
coal particle |
| |
volumetric strain |
| |
failure mode |
| |
land reclamation |
| |
sandstone and mudstone particles |
| |
contiguous seams |
| |
CO2 geological storage |
| |
numerical simulation |
| |
geogrid |
| |
stress relief |
| |
optimum proportioning |
| |
roadside backfill body (RBB) |
| |
pervious concrete |
| |
mudstone |
| |
hydraulic fracture network |
| |
grouted sand |
| |
fractal pore characteristics |
| |
refraction law |
| |
segmented rheological model |
| |
ductile failure |
| |
heterogeneity |
| |
flow law |
| |
fracture closure |
| |
coal measures sandstone |
| |
tight sandstone gas reservoirs |
| |
gob behaviors |
| |
water-dripping roadway |
| |
creep characteristics |
| |
internal erosion |
| |
warning levels of fault water inrush |
| |
hydraulic aperture |
| |
bolt support |
| |
discontinuous natural fracture |
| |
microscopic morphology |
| |
critical hydraulic gradient |
| |
mixed mode fracture resistance |
| |
differential settlement |
| |
alternate strata |
| |
finite element method |
| |
crushing ratio |
| |
chloride |
| |
glauberite cavern for storing oil & |
| |
macroscopic mechanical behaviors |
| |
collision angle |
| |
adsorption performance |
| |
failure mechanism |
| |
mechanical properties |
| |
transmissivity |
| |
damage evolution |
| |
gas fracturing |
| |
multitude parameters |
| |
deviatoric stress |
| |
Jiaohe |
| |
coal |
| |
soil properties |
| |
acoustic emission |
| |
pore structure |
| |
grouting experiment |
| |
concrete |
| |
confining pressures |
| |
green mining |
| |
gas drainage |
| |
fluid viscosity |
| |
compression deformation |
| |
Unsaturation |
| |
adsorption-desorption |
| |
seepage-creep |
| |
constitutive model |
| |
soil particle size |
| |
Pseudo Steady-State (PPS) constant |
| |
soil-structure interface |
| |
debris flow |
| |
fracture grouting |
| |
initial settlement position |
| |
regression equation |
| |
electrical potential |
| |
secondary fracture |
| |
surrounding rock |
| |
solid backfill coal mining |
| |
time variation |
| |
excess pore-pressures |
| |
finite-conductivity fracture |
| |
permeability characteristics |
| |
rainfall-unstable soil coupling mechanism(R-USCM) |
| |
shaft lining |
| Persona (resp. second.): |
LiuRicheng |
| Sommario/riassunto: |
The fluid flow in fracture porous media plays a significant role in the assessment of deep underground reservoirs, such as through CO2 sequestration, enhanced oil recovery, and geothermal energy development. Many methods have been employed-from laboratory experimentation to theoretical analysis and numerical simulations-and allowed for many useful conclusions. This Special Issue aims to report on the current advances related to this topic. This collection of 58 papers represents a wide variety of topics, including on granite permeability investigation, grouting, coal mining, roadway, and concrete, to name but a few. We sincerely hope that the papers published in this Special Issue will be an invaluable resource for our readers. |
| Titolo autorizzato: |
Fluid Flow in Fractured Porous Media: Volume 2 |
|
| ISBN: |
9783039214747 |
| |
3039214748 |
| Formato: |
Materiale a stampa  |
| Livello bibliografico |
Monografia |
| Lingua di pubblicazione: |
Inglese |
| Record Nr.: | 9910367755803321 |
|
| Lo trovi qui: | Univ. Federico II |
| Opac: |
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