Towards Environmentally Benign Pyrometallurgical Processes

迈向环境友好的火法冶金工艺

• 批准号: 5744-2012
• 负责人: Pickles, Christopher
• 金额: $ 1.46万
• 依托单位: Queen's University
• 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=568416
• 关键词: Towards; Environmentally; Benign; Pyrometallurgical; Processes

In the past, improvements to the current extraction methods and the development of new metal extraction processes were determined by both technical and economic factors. More recently, environmental factors have become another significant feature in determining the viability of a process. In this regard, for the research program described in this proposal, the major objective is to develop metal extraction processes that have less of an impact on the environment. In mineral and metal extraction processes, some of the major sources of energy remain carbonaceous or hydrocarbon-based. Ultimately, the carbon in these materials is converted into carbon dioxide and this contributes to global warming. To address this issue, a major focus of the work will be to investigate microwave processing techniques. The electrical energy utilized in these microwave processes can be relatively clean and also there are other potential advantages such as reduced gas throughputs and dust production. The field of microwave processing of minerals continues to expand and considerable progress has been made in understanding this complex technology and its application to extractive metallurgy. Currently, pyrometallurgical metal extraction is being somewhat displaced by hydrometallurgical processes, at least in part because hydrometallurgy is more environmentally friendly. The proposed research addresses this issue and could lead to greener pyrometallurgical processes and also builds on over ten years' experience in this new research field in metal extraction. Over the next five years, the research will focus on three potential microwave applications as follows: (1) microwave fragmentation studies, (2) microwave pyrovacuum processing and (3) microwave processing of coal. In addition, to the investigation of the proposed applications in this research program, information will be generated which can help define other potential applications. Furthermore, we will continue to determine the permittivities of the ores, concentrates and minerals of interest and ultimately produce a publishable compilation.

过去，对现有提取方法的改进和新金属提取工艺的开发取决于技术和经济因素。最近，环境因素已成为确定一个过程的可行性的另一个重要特征。在这方面，对于本提案中描述的研究计划，主要目标是开发对环境影响较小的金属提取工艺。在矿物和金属提取过程中，一些主要的能源仍然是含碳的或基于碳氢化合物的。最终，这些材料中的碳转化为二氧化碳，这导致了全球变暖。为了解决这个问题，工作的一个主要重点将是研究微波处理技术。在这些微波工艺中使用的电能可以是相对清洁的，并且还存在其他潜在的优点，例如减少的气体通过量和粉尘产生。微波处理矿物的领域继续扩大，在了解这一复杂技术及其在提取冶金中的应用方面取得了相当大的进展。目前，火法冶金金属提取在某种程度上正被湿法冶金工艺所取代，至少部分原因是湿法冶金更环保。拟议的研究解决了这一问题，并可能导致更绿色的火法冶金工艺，也建立在金属提取这一新研究领域十多年的经验。在今后五年中，研究将集中在以下三个潜在的微波应用：（1）微波破碎研究，（2）微波高温真空处理和（3）微波处理煤。此外，在这项研究计划中，将产生的信息，可以帮助确定其他潜在的应用程序的建议的应用程序的调查。此外，我们将继续确定感兴趣的矿石、精矿和矿物的活度，并最终编制一份可供参考的汇编。