TY - GEN
T1 - The effect of pH on the formation of gypsum scale in the presence of phosphonate antiscalant
AU - Rosenberg, Y. O.
AU - Ganor, J.
AU - Zmora-Nahum, S.
PY - 2010/12/1
Y1 - 2010/12/1
N2 - We report on formation of gypsum scale from the concentrate of a desalination plant despite the presence of a phosphonate antiscalant (PermaTreat 191). Batch experiments were conducted in order to study the relevant chemical conditions that lowered the effectiveness of this antiscalant and led to the formation of the scale. It is shown that the antiscalant is effective in postponing nucleation and hindering crystal growth of gypsum in the supersaturated concentrate with a neutral pH. However, as pH decreases both nucleation and crystal growth accelerate. In this specific desalination plant, a sharp drop in concentrate pH occurs when an acidic effluent, a byproduct of a boron removal facility, is added in small amounts. The pH effect on gypsum crystal growth, even at circum-natural pH values, is gradual. This gradual trend suggests that protonation of the antiscalant functional groups lowers antiscalant adsorption to gypsum and hence represses its effectiveness.
AB - We report on formation of gypsum scale from the concentrate of a desalination plant despite the presence of a phosphonate antiscalant (PermaTreat 191). Batch experiments were conducted in order to study the relevant chemical conditions that lowered the effectiveness of this antiscalant and led to the formation of the scale. It is shown that the antiscalant is effective in postponing nucleation and hindering crystal growth of gypsum in the supersaturated concentrate with a neutral pH. However, as pH decreases both nucleation and crystal growth accelerate. In this specific desalination plant, a sharp drop in concentrate pH occurs when an acidic effluent, a byproduct of a boron removal facility, is added in small amounts. The pH effect on gypsum crystal growth, even at circum-natural pH values, is gradual. This gradual trend suggests that protonation of the antiscalant functional groups lowers antiscalant adsorption to gypsum and hence represses its effectiveness.
UR - http://www.scopus.com/inward/record.url?scp=84860207638&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84860207638
SN - 9780415604260
T3 - Water-Rock Interaction - Proceedings of the 13th International Conference on Water-Rock Interaction, WRI-13
SP - 493
EP - 496
BT - Water-Rock Interaction - Proceedings of the 13th International Conference on Water-Rock Interaction, WRI-13
T2 - 13th International Conference on Water-Rock Interaction, WRI-13
Y2 - 16 August 2010 through 20 August 2010
ER -