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Mathematical Modelling and Simulation of Biogrout
Miranda van Rossum
Numerical Analysis
Research output
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Thesis
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Dissertation (TU Delft)
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INIS
mathematical models
100%
simulation
100%
fluids
100%
calcium carbonates
100%
precipitation
71%
differential equations
42%
hydrolysis
42%
density
42%
urea
42%
instability
42%
concentration
42%
calcium
42%
porosity
42%
advection
28%
reaction rate
28%
finite element method
28%
soils
28%
carbonates
28%
comparative evaluations
28%
flow rate
28%
equations
28%
solids
28%
prediction
14%
production
14%
chemical reactions
14%
accumulation
14%
sand
14%
variations
14%
newton method
14%
permeability
14%
boundary conditions
14%
nonlinear problems
14%
dispersions
14%
space
14%
voids
14%
volume
14%
crystals
14%
liquids
14%
water
14%
fingers
14%
by-products
14%
solutions
14%
hydrostatics
14%
modeling
14%
Engineering
Mathematical Modeling
100%
Biogrouts
100%
Models
71%
Fluid
71%
Porosity
42%
Reaction Rate
28%
Finite Element Method
28%
Experimental Result
28%
Mathematical Model
28%
Flow Rate
28%
Density
28%
Advection
28%
Discretization
14%
Newton's Method
14%
Liquid Volume
14%
By-Product
14%
Microbial
14%
Dense Fluid
14%
Spatial Domain
14%
Nonlinearity
14%
Fluid Density
14%
Euler Backward Method
14%
Driven Component
14%
Reaction Equation
14%
Equation Model
14%
Material Science
Calcium
100%
Fluid
70%
Density
30%
Porosity
30%
Finite Element Method
20%
Mechanical Strength
10%
Water
10%
Liquid
10%
Permeability
10%
Sand
10%
Gravel
10%
Chemical Engineering
Calcium Carbonate
100%
Precipitation (Chemical)
57%
Urea
42%
Calcium
42%
Water
14%
Carbonate
14%