Bio-sourced reagents for the flotation of minerals in the mining industry

用于采矿业矿物浮选的生物源试剂

• 批准号: 521069-2017
• 负责人: Garnier, Alain
• 金额: $ 3.74万
• 依托单位: Université Laval
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=651550
• 关键词: Bio; sourced; reagents; flotation; minerals

Mining companies are forced to exploit ore bodies that are more complex and of lower grade, while complying with increasingly challenging environmental regulations. Many of those companies use froth flotation to concentrate mineral ores. In this process, often toxic chemicals are added to specifically alter mineral surface properties (mainly hydrophobicity). With increasing regulatory restrictions (for instance, Ontario contemplates the ban of xanthates), the industry could face a dead end with no alternative reagents that are sufficiently efficient, low cost or environment friendly.**It has been previously shown that peptides could selectively bind mineral surfaces. This project therefore aims at the development of alternative flotation bio-reagents, based on i) large-scale screening of peptides libraries; ii) peptide mathematical modeling and in-silico optimization integrating hydrophobic/hydrophilic functions into selective sequences identified in (i), in order to favor mineral flotation; iii) constructing an expression system that will present the bio-reagents in the most effective way as well as maximize yield; iv) modeling and optimizing a bioprocess to produce the best bio-reagents selected/designed in (i/ii) at its maximum productivity. **These molecules will be developed for the specific processes of gold, silver, copper, zinc and nickel sulfides flotation. Special emphasis will be put on the analysis and minimization of bio-reagent production costs in order for it to be a competitive alternative to the presently used, toxic reagents. These new bio-reagents will be relatively easy to treat in mine effluents and will therefore greatly reduce environmental impact of mineral flotation processes.**At the end of this project, new bio-collectors with improved efficiency, smaller environment footprint and competitive costs will be available for industrial and commercial development by the mining industry.**********

矿业公司被迫开采更复杂、品位更低的矿体，同时遵守越来越具有挑战性的环境法规。这些公司中的许多使用泡沫浮选来浓缩矿石。在这个过程中，通常会添加有毒化学物质来专门改变矿物表面特性（主要是疏水性）。随着越来越多的监管限制（例如，安大略考虑禁止黄原酸盐），该行业可能面临一个死胡同，没有足够有效，低成本或环境友好的替代试剂。先前已经表明，肽可以选择性地结合矿物表面。因此，该项目旨在开发替代浮选生物试剂，基于i）肽文库的大规模筛选; ii）肽数学建模和计算机优化，将疏水/亲水功能整合到（i）中鉴定的选择性序列中，以有利于矿物浮选; iii）构建将以最有效的方式呈现生物试剂以及使产量最大化的表达系统; iv）对生物过程进行建模和优化，以最大生产率生产在（i/ii）中选择/设计的最佳生物试剂。** 这些分子将用于金、银、铜、锌和镍硫化物浮选的特定工艺。将特别强调生物试剂生产成本的分析和最小化，以使其成为目前使用的有毒试剂的有竞争力的替代品。这些新的生物试剂在矿山废水中相对容易处理，因此将大大减少矿物浮选过程对环境的影响。在该项目结束时，具有更高效率、更小环境足迹和具有竞争力成本的新生物收集器将可用于采矿业的工业和商业开发。