Tz. Guo et al., Determination of calcium diffusion coefficients as an estimator of the long-term dissolution potential of phosphogypsum : cement : lime composites, ENV SCI TEC, 33(18), 1999, pp. 3185-3192
Citations number
12
Categorie Soggetti
Environment/Ecology,"Environmental Engineering & Energy
Phosphogypsum (PG), a solid waste byproduct of phosphoric acid production,
was stabilized with lime and cement to produce composites for aquatic appli
cations. Fifteen PG:cement:lime compositions were fabricated and subjected
to a 28 day dynamic leaching test (salinity = 20 parts per thousand) to det
ermine calcium diffusion coefficients used to estimate the composites' long
-term dissolution potentials. A one-dimensional diffusion model was used to
calculate diffusion coefficients, which were then regressed against PG, ce
ment, and lime percentages to determine the optimal composition for saltwat
er applications. The diffusion coefficients of the composites ranged from 1
0(-4) to 10(-7) (cm(2).day(-1)). Both cement and lime contribute negatively
to the diffusion coefficient; however, the interactions between cement and
PG and between lime and PG contribute positively. Scanning electron micros
cope (SEM) observations of the composites used in the dynamic leaching test
showed that ruptures developed in all combinations except the 70%:30%:0% P
G:cement:lime composites. The development of the ruptures contributed to th
e observed diffusion coefficient increase from 10(-7) to 10(-5)-10(-4) (cm(
2).day(-1)). SEM and microprobe results showed that the formation of ettrin
gite was responsible for rupture development. The formation of a CaCO3 coat
ing and a stable composite matrix were responsible for maintenance of physi
cal integrity.