Water-Soluble Polymer Depressants in Froth Flotation

泡沫浮选中的水溶性聚合物抑制剂

• 批准号: 217001-2013
• 负责人: Liu, Qi
• 金额: $ 1.82万
• 依托单位: University of Alberta
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2015
• 资助国家: 加拿大
• 起止时间: 2015-01-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=570077
• 关键词: Water; Soluble; Polymer; Depressants; Froth

Metal extraction from ores requires that the metal-bearing minerals in the ores be separated and upgraded into individual mineral concentrates. Most of the mineral separation today is done by froth flotation, which separates minerals based on their surface hydrophobicity. Hydrophobic minerals are floated (like oil drops) to a concentrate while hydrophilic minerals stay in water. However, when the particle sizes of the hydrophilic minerals are very small (<~10 micron), they can be carried to the concentrate by entrainment, lowering separation efficiency. Also, many toxic inorganic reagents such as sodium cyanide, potassium dichromate, etc., are used to separate base metal minerals into individual concentrates. A potentially effective solution to counter both problems is to use polymer depressants, which have low or no toxicity and can also increase particle size, thus restore separation efficiency. One of the key requirements for the polymer reagents is that they selectively act on some minerals but not on all minerals in the ore. This can be achieved by incorporating different functional groups in the polymers. The other requirement for the polymer reagents is that they are good flocculants. We recently observed that the latter seems to depend on how the polymer solution is prepared. Literature contains contradictory information on polymer solution preparation and its flocculation performance. The proposed project is aimed at addressing these two issues. It contains two sub-projects: (1) grafting chitosan with phosphate or xanthate groups, (2) effect of ageing of polymer solutions on the flocculation activity of the polymers. The research results will benefit Canada as metal extraction from mineral resources is one of the major contributors to Canadian economy.

从矿石中提取金属需要将矿石中的含金属矿物分离并提质成单独的精矿。目前，大多数矿物分离都是通过泡沫浮选来完成的，泡沫浮选基于矿物的表面疏水性来分离矿物。疏水性矿物被漂浮（像油滴）到浓缩物中，而亲水性矿物留在水中。然而，当亲水性矿物的颗粒尺寸非常小（<~10微米）时，它们可以通过夹带而被携带到精矿中，从而降低分离效率。 此外，许多有毒的无机试剂，如氰化钠、重铬酸钾等，用于将贱金属矿物分离成单独的精矿。解决这两个问题的潜在有效解决方案是使用聚合物抑制剂，其具有低毒性或无毒性，并且还可以增加颗粒尺寸，从而恢复分离效率。 对聚合物试剂的关键要求之一是它们选择性地作用于矿石中的某些矿物，但不是全部矿物。这可以通过在聚合物中引入不同的官能团来实现。对聚合物试剂的另一个要求是它们是良好的絮凝剂。我们最近观察到，后者似乎取决于聚合物溶液的制备方式。文献包含关于聚合物溶液制备及其絮凝性能的矛盾信息。拟议的项目旨在解决这两个问题。它包括两个分项目：（1）壳聚糖接枝磷酸基或黄原酸基;（2）聚合物溶液老化对聚合物絮凝活性的影响。研究结果将使加拿大受益，因为从矿产资源中提取金属是加拿大经济的主要贡献者之一。