2. Modeling2.1. HydratiCAHydratiCA

2. Modeling
2.1. HydratiCA
HydratiCA is a kinetic cellular automaton for simulating 3D microstructure
evolution in aqueous suspensions by coupled transport and
reactions. Stoichiometric solid phases (e.g., Ca(OH)2, C3S), water, and
aqueous solute species (e.g., Ca2+, OH−) are defined as separate chemical
components. Each material component is discretized into cells, each
cell corresponding to a prescribed number of moles of that component.
The initial microstructure of cement particles andwater ismapped onto
a cubic lattice by assigning cell occupation numbers for each component
at each site. Chemical and structural changes are simulated by iterating
over small time steps duringwhich independent reaction and transport
processes occur. The probability, pt, of a cell executing a randomwalk to
a neighboring site is determined by that cell's local diffusivity, D, the
time increment, Δt, and the lattice site spacing, λ:

Following the procedure developed by Karapiperis [23,24], the probability
of a unit reaction happening in a time step Δt depends on its rate
constant and on the cell occupation number of each reactant. Equilibrium
is established when the rates of the forward and reverse reactions
become equal. The details of the algorithms and their validation are
described elsewhere [2,25].