Development of hydrotreating catalysts for the removal of S and N from heavy crude oils

开发用于从重质原油中脱硫和脱氮的加氢处理催化剂

• 批准号: 476457-2014
• 负责人: Chin, YaHuei(Cathy)
• 金额: $ 2.6万
• 依托单位: University of Toronto
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=686493
• 关键词: Development; hydrotreating; catalysts; removal; heavy

The utilization of unconventional petroleum sources (bitumen, oil sands, shale oil, etc.) has increased steadily as conventional crudes deplete and the global energy demand and consumption increase. Canada has invested significant effort to exploit unconventional petroleum sources as the energy future of the nation. It is estimated that >174 billion barrels of oil in Canada are recoverable, and 95 % of these oils are contained in the oil sands, which upon mining and extraction produce heavy crudes. The heavy crudes, unlike conventional crudes, contain high concentrations of impurities (e.g. sulfur, nitrogen, heavy metals) and require refining processes that are energetically intensive. Conventional hydrotreament processes are inefficient and unable to remove the impurities in order to meet the fuel grade requirements. Imperial Oil Research and Development Centre, based in Sarnia, Ontario, partners with University of Toronto to develop advanced catalytic hydrotreatment technology for tandem deep hydrodesulfurization (HDS) and hydrodenitrogenation (HDN) reactions. The project will combine advanced kinetic, theoretical, and catalyst characterization methods, some of which have recently become available in Canada in the newly established Ontario Centre for Characterization of Advanced Materials (OCCAM), a leading edge microscopic and spectroscopic facility at the home department of the applicants, and through collaboration with Canadian Light Source, to unravel the correlation between catalyst structures and properties. This work will provide the foundation for reaction pathway tuning and reactor operation strategies for hydrotreating processes and will advance the efforts of Imperial Oil in developing next generation deep hydrotreating catalysts, specifically formulated for processing the heavy crudes from Canada, thus making the deep hydrotreating processes economically feasible. Students trained in the research projects will acquire first hand trainings on reaction engineering, catalytic operation strategies, essential fundamental knowledge in heterogeneous catalysis, and industrial petrochemical reactor processes. They will transfer the knowledge back to Imperial Oil Research and Development Centre in Sarnia.

非常规石油资源（沥青、油砂、页岩油等）的利用随着常规原油的枯竭以及全球能源需求和消费的增加，加拿大已经投入了大量的努力来开发非常规石油资源作为国家的能源未来。据估计，加拿大有超过1740亿桶的石油是可开采的，其中95%的石油包含在油砂中，油砂在开采和提取时产生重质原油。与常规原油不同，重质原油含有高浓度的杂质（例如硫、氮、重金属）并且需要能量密集的精炼工艺。传统的加氢处理工艺效率低，不能除去杂质以满足燃料等级要求。位于安大略萨尼亚的帝国石油研发中心与多伦多大学合作开发先进的催化加氢处理技术，用于串联深度加氢脱硫（HDS）和加氢脱氮（HDN）反应。该项目将结合联合收割机先进的动力学、理论和催化剂表征方法，其中一些方法最近在加拿大新成立的安大略先进材料表征中心（OCCAM）中可用，该中心是申请人所在部门的前沿显微镜和光谱设施，并通过与加拿大光源公司的合作，以揭示催化剂结构和性能之间的相关性。这项工作将为加氢处理工艺的反应途径调整和反应器操作策略提供基础，并将推动帝国石油公司在开发下一代深度加氢处理催化剂方面的努力，该催化剂专门用于处理来自加拿大的重质原油，从而使深度加氢处理工艺在经济上可行。在研究项目中接受培训的学生将获得反应工程，催化操作策略，多相催化和工业石化反应器过程的基本基础知识的第一手培训。他们将把知识转移回位于萨尼亚的帝国石油研究和开发中心。