XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2587
Knight, Andrew Palmer, and Karishma Gandhi for chemi-
cal analyses.
CONFLICTS OF INTEREST
The authors declare no conflict of interest.
REFERENCES
Alsafasfeh, A., Alagha, L., Recovery of phosphate miner-
als from plant tailings using direct froth flotation.
Minerals, 2017, 7(8), 145.
Assis, S., Montenegro, L., Peres, A., Utilisation of hydroxa-
mates in minerals froth flotation. Minerals engineer-
ing, 1996, 9(1), 103–114.
Baudet, G., Save, M., Phosphoric esters as carbonate col-
lectors in the flotation of sedimentary phosphate ores.
Beneficiation of Phosphates: Advances in Research and
Practice, 1999, 163–185.
Beavers, C., Ellis, R., Hanlon, C., MacDonald, G., An
overview of phosphate mining and reclamation in
Florida. Master’s Thesis, 2013.
Cook, P., Shergold, J., Burnett, W., Riggs, S., Phosphorite
research: a historical overview. Geological Society,
London, Special Publications, 1990, 52(1), 1–22.
Cordell, D., White, S., Sustainable phosphorus measures:
strategies and technologies for achieving phosphorus
security. Agronomy, 2013, 3(1), 86–116.
Crago, A., Three New. Steps in Treating Florida Phosphate
Rock. Eng. &Min. Jnl, 1950.
Davidson, C.J., Hannigan, J.H., Bowen, S.E., Effects of
inhaled combined Benzene, Toluene, Ethylbenzene,
and Xylenes (BTEX): Toward an environmental expo-
sure model. Environmental toxicology and pharmacol-
ogy, 2021, 81, 103518.
Duan, S., Banger, K., Toor, G.S., Evidence of phosphate
mining and Agriculture influence on Concentrations,
forms, and ratios of nitrogen and phosphorus in a
Florida River. Water, 2021, 13(8), 1064.
Fan, H., Gao, Y., Dou, K., Sun, W., An investigation into
the selective flotation of bastnaesite using the innova-
tive collector HABTC: A comprehensive examination
of the underlying mechanism. Minerals Engineering,
2023, 204, 108397.
Filippova, I.V., Filippov, L.O., Lafhaj, Z., Barres, O.,
Fornasiero, D., Effect of calcium minerals reactivity
on fatty acids adsorption and flotation. Colloids and
Surfaces A: Physicochemical and Engineering Aspects,
2018, 545, 157–166.
Gao, Z., Wang, C., Sun, W., Gao, Y., Kowalczuk, P.B.,
Froth flotation of fluorite: A review. Advances in col-
loid and interface science, 2021, 290, 102382.
Guan, C., Theoretical background of the Crago phosphate
flotation process. Mining, Metallurgy &Exploration,
2009, 26(2), 55–64.
Ma, X., Nguyen, N.N., Nguyen, A.V., Miller, J.D., An
investigation of mineral floatability versus mineral sur-
face exposure and hydrophobicity by high-resolution
X-ray microcomputed tomography, film flotation,
contact angles, and modeling. Minerals Engineering,
2023, 200, 108139.
Nettour, D., Chettibi, M., Bulut, G., Benselhoub, A.,
Beneficiation of phosphate sludge rejected from djebel
onk plant (Algeria). Mining of Mineral Deposits, 2019.
Pinto, C., Yarar, B., Araujo, A., Apatite flotation kinetics
with conventional and new collectors. Preprint, 1991,
91–80.
Pittman, W.E., The Florida phosphate industry: The first
100 years. Fertilizer research, 1990, 25, 193–196.
Polat, M., Chander, S., First-order flotation kinetics mod-
els and methods for estimation of the true distribution
of flotation rate constants. International Journal of
Mineral Processing, 2000, 58(1‑4), 145–166.
Ruan, Y., He, D., Chi, R., Review on beneficiation tech-
niques and reagents used for phosphate ores. Minerals,
2019, 9(4), 253.
Shen, J., Wang, L., Jiao, X., Meng, F., Zhang, L., Feng, G.,
Zhang, J., Yuan, L., Ma, L., Hou, Y., Innovations
of phosphorus sustainability: implications for the
whole chain. Frontiers of Agricultural Science and
Engineering, 2019, 6(4), 321–331.
SnoW, R., Miller, J.D., Froth modification for reduced fuel
oil usage in phosphate flotation. International Journal
of Mineral Processing, 2004, 74(1-4), 91–99.
Usman, M., Cheng, S., Boonyubol, S., Cross, J.S.,
Evaluating Green Solvents for Bio-Oil Extraction:
Advancements, Challenges, and Future Perspectives.
Energies, 2023, 16(15), 5852.
Wang, X., Nguyen, A.V., Miller, J.D., Selective attachment
and spreading of hydroxamic acid–alcohol collector
mixtures in phosphate flotation. International Journal
of Mineral Processing, 2006, 78(2), 122–130.
Wang, Z., Chu, Y., Zhao, G., Yin, Z., Kuang, T., Yan, F.,
Zhang, L., Zhang, L., Study of Surface Wettability
of Mineral Rock Particles by an Improved Washburn
Method. ACS omega, 2023, 8(17), 15721–15729.
Yang, X., Tamm, K., Piir, I., Kuusik, R., Trikkel, A.,
Tonsuaadu, K., Evaluation of Estonian phosphate
rock by flotation. Minerals Engineering, 2021, 171,
107127.
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