Fundamental Studies in Solid-Liquid Separation in Oil Sands

油砂固液分离基础研究

• 批准号: RGPIN-2018-03948
• 负责人: Liu, Qi
• 金额: $ 4.01万
• 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: 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=657792
• 关键词: Fundamental; Studies; Solid; Liquid; Separation

This proposed project aims at studying the fundamental colloidal science issues in two prominent solid-liquid separation problems in oil sands industry. These are the dewatering and consolidation of the oil sands tailings (solid-water separation), and the removal of fine mineral solids from product bitumen of a nonaqueous extraction (NAE) process (solid-solvent separation). In the former the emphasis is on the role of residual bitumen, a mobile and deformable 3rd phase, and the clay surface wettability caused by adsorbed bitumen and polymers on tailings dewatering, as well as the effects of polymer and surfactant additives on the bitumen and the resulting effect on dewatering. In the latter, the emphasis is on the interactions of insoluble bitumen components and suspended minerals, and the resulting colloidal forces in the nonaqueous organic solvent suspension under NAE conditions. ******The importance of this research is seen from the ultimate targets of the two solid-liquid separation problems. In the tailings case, the aqueous slurry (mature fine tailings) usually contains 30-40 wt% solids and the target is to increase it to >=75 wt% ready for reclamation. In the NAE case, the organic solvent suspension usually contains low concentrations of mineral solids but the target is to lower it further to <=0.03 wt% solids so that it can potentially be used as a feed to refineries without the need of an upgrader (which is capital and operating cost intensive and energy intensive). ******Both targets are extremely challenging to achieve. It is anticipated that the proposed 5-year Discovery Grant project can provide insights to the reasons to the difficulties and thus point to mitigation measures. The solutions will ultimately benefit the oil sands industry of Alberta and Canada, leading to processes that more responsibly utilize the oil sands resources. The research will also contribute to the scientific literature on solid-liquid separation in the presence of insoluble and deformable materials such as bitumen. The project will also provide an opportunity to train highly qualified personnel for the Canadian economy and society.

本计画旨在研究油砂工业中两个突出的固液分离问题中的胶体科学基础。这些是油砂尾矿的脱水和固结（固体-水分离），以及从非水提取（NAE）工艺的产物沥青中去除细矿物固体（固体-溶剂分离）。在前者中，重点是残余沥青，一个移动的和可变形的第三相，和粘土表面润湿性所造成的吸附沥青和聚合物对尾矿脱水，以及聚合物和表面活性剂添加剂对沥青的影响和脱水效果的影响。在后者中，重点是不溶性沥青组分和悬浮矿物的相互作用，以及在NAE条件下在非水有机溶剂悬浮液中产生的胶体力。****** 从这两个固液分离问题的最终目标来看，本研究的重要性。在尾矿的情况下，含水浆料（成熟细粒尾矿）通常含有30-40重量%的固体，目标是将其增加到>=75重量%以备回收。在NAE的情况下，有机溶剂悬浮液通常含有低浓度的矿物固体，但目标是将其进一步降低至<= 0.03wt%固体，使得其可以潜在地用作精炼厂的进料，而不需要增重器（其是资本和操作成本密集型和能量密集型的）。* *预计拟议的五年发现补助金项目可以提供有关困难原因的见解，从而指出缓解措施。这些解决方案最终将使阿尔伯塔和加拿大的油砂工业受益，从而使油砂资源的利用更加负责任。这项研究还将有助于在不溶性和可变形材料（如沥青）存在下进行固液分离的科学文献。该项目还将为加拿大经济和社会提供培训高素质人才的机会。