(259e) Molecular Modifiers Suppress Struvite Formation Via Unique Mechanisms
AIChE Annual Meeting
2020
2020 Virtual AIChE Annual Meeting
Separations Division
Nucleation and Growth I
Monday, November 16, 2020 - 9:00am to 9:15am
Herein, we present a comprehensive approach to evaluate struvite formation at both macroscopic and microscopic length scales in the absence and presence of various inhibitors. We conducted in situ kinetic measurements to estimate the extent of inhibition posed by each inhibitor on struvite formation. To this end, we employ a microfluidic platform to track the anisotropic growth rates of struvite crystals under various conditions, including comparisons of solutions with and without the presence of modifiers1. Furthermore, we elucidate the mechanism of inhibitory action by probing the surface dynamics in real time via in situ atomic force microscopy (AFM), which has proven to be a powerful technique to elucidate molecular level details of crystallization2,3. The results reveal unique mechanisms facilitating complete inhibition of growth and in select cases the unprecedented suppression of nucleation, which is not commonly observed for even the most potent modifiers of mineralization. Collectively, our findings identify highly efficient and commercially available modifiers that inhibit struvite formation. This study also uncovers a new class of inhibitory mechanisms that have potentially broader applicability to other minerals, thus establishing new paradigms for the prevention of commercial scale.
- Kim, D., Olympiou, C., McCoy, C. P., Irwin, N. J., & Rimer, J. D. (2020). TimeâResolved Dynamics of Struvite Crystallization: Insights from the Macroscopic to Molecular Scale. ChemistryâA European Journal, 26(16), 3555-3563.
- Chung, J., Granja, I., Taylor, M. G., Mpourmpakis, G., Asplin, J. R., & Rimer, J. D. (2016). Molecular modifiers reveal a mechanism of pathological crystal growth inhibition. Nature, 536(7617), 446-450.
- Farmanesh, S., Ramamoorthy, S., Chung, J., Asplin, J. R., Karande, P., & Rimer, J. D. (2014). Specificity of growth inhibitors and their cooperative effects in calcium oxalate monohydrate crystallization. Journal of the American Chemical Society, 136(1), 367-376.