Journal article
L. Auton, Marc Mart'inez I Avila, S. S. Ravuru, Sirshendu De, Tim G. Myers, Abel Valverde
arXiv preprint arXiv:2312.03547, 2023
arXiv preprint arXiv:2312.03547, 2023
Semantic Scholar
ArXiv
Cite
Cite
APA
Click to copy
Auton, L., Avila, M. M. I., Ravuru, S. S., De, S., Myers, T. G., & Valverde, A. (2023). Mathematical model for fluoride-removal filters. ArXiv Preprint ArXiv:2312.03547.
Chicago/Turabian
Click to copy
Auton, L., Marc Mart'inez I Avila, S. S. Ravuru, Sirshendu De, Tim G. Myers, and Abel Valverde. “Mathematical Model for Fluoride-Removal Filters.” arXiv preprint arXiv:2312.03547 (2023).
MLA
Click to copy
Auton, L., et al. “Mathematical Model for Fluoride-Removal Filters.” ArXiv Preprint ArXiv:2312.03547, 2023.
BibTeX Click to copy
@article{l2023a,
title = {Mathematical model for fluoride-removal filters},
year = {2023},
journal = {arXiv preprint arXiv:2312.03547},
author = {Auton, L. and Avila, Marc Mart'inez I and Ravuru, S. S. and De, Sirshendu and Myers, Tim G. and Valverde, Abel}
}
Abstract
We develop a model that captures the dominant chemical mechanisms involved in the removal of fluoride from water by a novel adsorbent comprising mineral rich carbon (MRC) and chemically treated mineral rich carbon (TMRC). Working with experimental data, we validate the model for both MRC and TMRC based on the underlying chemical reactions. The model we derive from the chemical composition of TMRC and MRC shows good agreement with experimental results.