posted on 2014-07-01, 00:00authored byDominique Claveau-Mallet, Benoît Courcelles, Yves Comeau
This
article presents an original numerical model suitable for
longevity prediction of alkaline steel slag filters used for phosphorus
removal. The model includes kinetic rates for slag dissolution, hydroxyapatite
and monetite precipitation and for the transformation of monetite
into hydroxyapatite. The model includes equations for slag exhaustion.
Short-term batch tests using slag and continuous pH monitoring were
conducted. The model parameters were calibrated on these batch tests
and experimental results were correctly reproduced. The model was
then transposed to long-term continuous flow simulations using the
software PHREEQC. Column simulations were run to test the effect of
influent P concentration, influent inorganic C concentration and void
hydraulic retention time on filter longevity and P retention capacity.
High influent concentration of P and inorganic C, and low hydraulic
retention time of voids reduced the filter longevity. The model provided
realistic P breakthrough at the column outlet. Results were comparable
to previous column experiments with the same slag regarding longevity
and P retention capacity. A filter design methodology based on a simple
batch test and numerical simulations is proposed.