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Crystallization of struvite in the presence of calcium ions: Change in reaction rate, morphology and chemical composition

Dyah Suci Perwitasari, S. Muryanto, J. Jamari, Athanasius Priharyoto Bayuseno

2022Cogent Engineering15 citationsDOIOpen Access PDF

Abstract

Ammonium, phosphorus, and potassium from wastewater treatment with a coexisting ion of calcium may be recovered simultaneously through struvite and struvite-(K) crystallization. This paper presents the quantitative assessment of the impact of calcium ions on the kinetics and crystallization of those crystals. Initial solutions containing dose levels of Ca2+ ion and pH 9 were set up for experiments in a stirred laboratory crystallization at ambient temperature. According to the pH reduction data, the observed precipitation kinetics followed in two steps; the first step (0–3 min) and the second step (3–60 min) in which linear regression analysis of both kinetic data fit with first-order rate constants. In the absence of calcium, the computed kinetic constants are respectively 2.568 h−1 for the first stage and 1.548 h−1 for the second stage. The kinetic rate constants followed with the increased dose of Ca (Ca/Mg > 0.5), which lengthened the crystallization of multiphase crystallization of Mg and Ca-phosphates. Accordingly, calcium had a negative effect on the morphology, purity, and quantity of the final crystalline product. This quantitative understanding of how calcium affects the crystallization of struvite and struvite-(K) reliably improves knowledge about controlling the quantity of wastewater recovery products.

Topics & Concepts

StruviteCrystallizationCalciumChemistryPotassiumPrecipitationPhosphorusKineticsPhosphateIonInorganic chemistryBiochemistryOrganic chemistryQuantum mechanicsMeteorologyPhysicsPhosphorus and nutrient management
Crystallization of struvite in the presence of calcium ions: Change in reaction rate, morphology and chemical composition | Litcius