INIS
analysis (thermal)
11%
aquifers
100%
brines
22%
calcite
11%
calcium
22%
carbon 21
11%
carbon dioxide
100%
carbonate minerals
11%
concentration
44%
data
11%
dissolution
11%
dolomite
11%
equilibrium
11%
experimental data
11%
floods
11%
flow rate
11%
fluids
11%
increasing
11%
injection
100%
investigations
11%
kinetics
33%
laboratories
100%
limestone
100%
magnesium
22%
minerals
88%
modeling
100%
permeability
22%
porosity
22%
range
11%
reaction kinetics
11%
reaction rate
44%
reactivity
11%
reservoir rock
11%
residences
33%
rock-fluid interactions
100%
sensitivity
11%
simulation
33%
solubility
77%
solutions
11%
specific surface area
11%
surface area
11%
thermal effects
11%
thermal gradients
11%
transport
11%
values
11%
variations
11%
volume
11%
zones
11%
Engineering
Backpressure
50%
Core Samples
50%
Damkhler Number
50%
Deep Reservoir
50%
Effluent Concentration
100%
Flow Path
50%
Flow Rate
50%
Flow Regime
50%
Increasing Temperature
50%
Injection Rate
100%
Low-Temperature
50%
Modeling Study
100%
Molar Ratio
50%
Porosity
100%
Rate Kinetics
50%
Reaction Rate Constant
50%
Reservoir Rock
50%
Rock Interaction
100%
Simulation Model
50%
Solution Concentration
50%
Specific Surface Area
50%
Thermal Effect
50%
Thermal Gradient
50%
Earth and Planetary Sciences
Calcite
50%
Carbonate Mineral
50%
Compositional Simulation
50%
Dolomite
50%
Flow Velocity
50%
Fluid Composition
50%
Fluid-Rock Interaction
100%
Porosity
100%
Reactive Transport
50%
Reservoir Rock
50%
Surface Area
100%
Temperature Variation
50%
Thermal Analysis
50%
Chemical Engineering
Calcite
100%
Carbonate Mineral
100%
Thermal Effect
100%
Thermal Gradient
100%