Combining Petcoke Gasification and Natural Gas Reforming for Oil Sands Waste-to-Energy

石油焦气化与天然气重整相结合实现油砂垃圾发电

• 批准号: RGPIN-2016-06310
• 负责人: Adams, Thomas
• 金额: $ 2.77万
• 依托单位: McMaster University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=709907
• 关键词: Combining; Petcoke; Gasification; Natural; Gas

Petcoke is a carbon-rich waste generated by petroleum refineries and bitumen upgraders from Canadian oil sands facilities. It can be combusted for heat, but the sulfur and carbon dioxide emissions are worse than coal combustion, so many refineries avoid combustion due to environmental regulations. Instead, refineries often choose to stockpile it (in Alberta, stockpiles are nearly doubling every two years), or, ship it elsewhere to be used where petcoke combustion is permitted. Therefore, my research program investigates new ways of converting petcoke into valuable energy products in environmentally friendly ways. The goal is to create a new process which would have almost no sulfur or CO2 emissions, but yet is profitable without the need for significant government incentive. This would encourage the conversion of petcoke into valuable products, potentially displacing petrochemical products such as fuels and polymers and resulting in a net environmental benefit. This research program will use computer modeling to work toward a profitable, emissions-free petcoke conversion facility. In Objective 1, we will create detailed computer models to help develop a novel radiant cooler for a petcoke gasifier which will use the high temperature heat created in the gasifier to convert natural gas into hydrogen. The new cooler design is expected to give higher system efficiencies than a traditional cooler because the hydrogen is very useful in making energy products such as synthetic fuels and alcohols. In Objective 2, we will use computer models to create a conceptual design of a hybrid gas turbine / solid oxide fuel cell power generation system, which will be powered by waste gases produced by the petcoke conversion process. In Objective 3, we will use chemical process models to design systems which can capture up to 100% of the CO2 produced from certain kinds of advanced power plants with little energy penalty. In Objective 4, we will incorporate these results and others from our prior work into computer models which we will then use to create a process that converts petcoke to fuels, chemicals, and/or electricity, but with zero carbon dioxide emissions. Overall, the proposed concept is an innovative approach to converting petcoke wastes into value-added products. This could have a significant benefit to the Canadian energy industry since petcoke waste is produced in large quantities from the refining of most conventional crudes and oil sand crudes originating in Canada. The proposed process would increase the profits of Canadian refineries, reduce the growing stockpile of petcoke in Alberta, and prevent up to 500 million tonnes of CO2 emissions per year worldwideequivalent to removing 100 million passenger cars from the road.

石油焦是一种富含碳的废物，由加拿大油砂设施的石油精炼厂和沥青精炼厂产生。它可以燃烧以获得热量，但硫和二氧化碳的排放比燃煤更糟糕，因此许多炼油厂由于环境法规而避免燃烧。相反，炼油厂通常选择储存石油焦（在阿尔伯塔，石油焦库存几乎每两年翻一番），或者将石油焦运到允许燃烧石油焦的地方使用。因此，我的研究项目研究了以环境友好的方式将石油焦转化为有价值的能源产品的新方法。我们的目标是创造一种几乎没有硫或二氧化碳排放的新工艺，但在不需要政府重大激励的情况下仍然有利可图。这将鼓励石油焦转化为有价值的产品，可能取代燃料和聚合物等石化产品，并产生净环境效益。 这项研究计划将使用计算机建模，朝着一个有利可图的，无排放的石油焦转化设施。在目标1中，我们将创建详细的计算机模型，以帮助开发一种用于石油焦气化炉的新型辐射冷却器，该冷却器将使用气化炉中产生的高温热量将天然气转化为氢气。新的冷却器设计预计将提供比传统冷却器更高的系统效率，因为氢气在制造合成燃料和酒精等能源产品方面非常有用。在目标2中，我们将使用计算机模型来创建混合气体涡轮机/固体氧化物燃料电池发电系统的概念设计，该系统将由石油焦转化过程产生的废气提供动力。在目标3中，我们将使用化学过程模型来设计系统，该系统可以捕获某些先进电厂产生的100%的CO2，而能量损失很小。在目标4中，我们将把这些结果和我们先前工作中的其他结果整合到计算机模型中，然后我们将使用这些模型来创建一个将石油焦转化为燃料、化学品和/或电力的过程，但二氧化碳排放量为零。 总的来说，提出的概念是一种将石油焦废物转化为增值产品的创新方法。这可能对加拿大能源行业产生重大利益，因为石油焦废物是从加拿大原产的大多数常规原油和油砂原油的精炼中大量产生的。拟议的工艺将增加加拿大炼油厂的利润，减少阿尔伯塔不断增长的石油焦库存，并防止全球每年高达5亿吨的二氧化碳排放量，相当于从道路上减少1亿辆乘用汽车。