Role of improving molybdenite flotation by using aromatic hydrocarbon collector in high-calcium water: A multiscale investigation
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S. Luukkanen | Xianzhong Bu | Xuewen Song | H. Wan | Wei Yang | Juanping Qu | Peng Yi | Hui Li
[1] Hongxiang Xu,et al. Insights into the adsorption mechanism of N-thiourea-maleamic acid on chalcopyrite surface in the flotation separation of Cu-Mo sulfide ores , 2022, Journal of Molecular Liquids.
[2] Yimin Zhu,et al. Nanobubble-enhanced flotation of ultrafine molybdenite and the associated mechanism , 2022, Journal of Molecular Liquids.
[3] Chenghai Liu,et al. Exploration of amino trimethylene phosphonic acid to eliminate the adverse effect of seawater in molybdenite flotation , 2021, International Journal of Mining Science and Technology.
[4] Yijun Cao,et al. Effects of solution pH and polyethylene oxide concentrations on molybdenite−molybdenite, molybdenite−kaolinite, and molybdenite−quartz interaction forces: AFM colloidal probe study , 2021, Separation and Purification Technology.
[5] S. Na,et al. Strengthening mechanisms of combined alloying with carbon and titanium on laser beam welded joints of molybdenum alloy , 2021, Journal of Manufacturing Processes.
[6] K. Shih,et al. Activation of peroxymonosulfate by molybdenum disulfide-mediated traces of Fe(III) for sulfadiazine degradation. , 2021, Chemosphere.
[7] M. Free,et al. Recent progress on research of molybdenite flotation: A review. , 2021, Advances in colloid and interface science.
[8] Wenbin Wang,et al. Natural molybdenite mineral enhanced polymeric carbon nitride nano-composites for efficient noble-metal-free photocatalytic hydrogen evolution , 2021 .
[9] A. Nguyen,et al. Resolving the mystery of the second charge reversal on solid surfaces in the presence of divalent heavy metal ions , 2020 .
[10] Chuan-jiang Liu,et al. Elimination of adverse effects of seawater on molybdenite flotation using sodium silicate , 2020 .
[11] Qingxia Liu,et al. Face or Edge? Control of Molybdenite Surface Interactions with Divalent Cations , 2020, The Journal of Physical Chemistry C.
[12] V. Morozov,et al. Analysis of the reasons for molybdenite losses and improvement of recirculating water conditioning regimes in the process of copper-molybdenum ore flotation , 2019 .
[13] V. Morozov,et al. Simulations and studies of the influence of calcium ions on molybdenite floatability , 2019, Obogashchenie Rud.
[14] Yongjun Peng,et al. Improving fine molybdenite flotation using a combination of aliphatic hydrocarbon oil and polycyclic aromatic hydrocarbon , 2019, Results in Physics.
[15] V. Morozov,et al. Modelling and development of recycled water conditioning of copper-molybdenum ores processing , 2019, International Journal of Mining Science and Technology.
[16] Shaoxian Song,et al. Fundamental Studies of SHMP in Reducing Negative Effects of Divalent Ions on Molybdenite Flotation , 2018, Minerals.
[17] Yijun Cao,et al. Interaction Mechanism between Molybdenite and Kaolinite in Gypsum Solution Using Kerosene as the Flotation Collector , 2018, Minerals.
[18] R. Chi,et al. Effects of Metal Ions on the Flotation of Apatite, Dolomite and Quartz , 2018 .
[19] Yue-hua Hu,et al. Synthesis of acetic acid-[(hydrazinylthioxomethyl)thio]-sodium and its application on the flotation separation of molybdenite from galena , 2017 .
[20] L. Cisternas,et al. The impact of seawater with calcium and magnesium removal for the flotation of copper-molybdenum sulphide ores , 2017 .
[21] T. Hirajima,et al. Effect of Mg2+ and Ca2+ as divalent seawater cations on the floatability of molybdenite and chalcopyrite , 2016 .
[22] J. Laskowski,et al. Review of the flotation of molybdenite. Part I: Surface properties and floatability , 2016 .
[23] F. Lucay,et al. Study of the natural floatability of molybdenite fines in saline solutions and effect of gypsum precipitation , 2015 .
[24] H. A. Abreu,et al. Sulfuric and hydrochloric acid adsorption on the reconstructed sulfur terminated (001) chalcopyrite surface , 2012 .
[25] L. Constantin,et al. Exchange-correlation generalized gradient approximation for gold nanostructures. , 2011, The Journal of chemical physics.
[26] Stefano de Gironcoli,et al. QUANTUM ESPRESSO: a modular and open-source software project for quantum simulations of materials , 2009, Journal of physics. Condensed matter : an Institute of Physics journal.
[27] S. Chander,et al. Reagents used in the flotation of phosphate ores: a critical review , 2003 .
[28] Tianshuai Wang,et al. Effect of Cu2+ and Fe3+ on the depression of molybdenite in flotation , 2019, Minerals Engineering.
[29] S. Raghavan,et al. Factors affecting the flotation recovery of molybdenite from porphyry copper ores , 1984 .