Low cost blue hydrogen production technology

低成本蓝氢生产技术

• 批准号: 2732798
• 金额: --
• 依托单位: University of Edinburgh
• 依托单位国家: 英国
• 项目类别: Studentship
• 财政年份: 2022
• 资助国家: 英国
• 起止时间: 2022 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=studentship-2732798
• 关键词: Low; cost; blue; hydrogen; production

The PhD will investigate using a hollow fibre technology adsorption system for the application of blue hydrogen. Supported by various industrial companies that allow access to advice on ceramic materials, legislations and energy production, these companies will determine the key scenarios which need to be considered throughout this PhD which could potentially be used in further applications. One application identified is the production of hydrogen which typically is produced from fossil fuel sources that emit around 500 Mt of CO2 per year. These established production facilities are reliant on a reliable and economically feasible method of CO2 capture to continue producing in a world where emission concern and awareness is rising constantly.The potential for hollow fibres includes increased efficiency, durability, flexibility throughout its lifetime but also a lower pressure drop which avoids fluidisation and deceases cycle times. Economically, this research will allow for a step drop in the cost trajectory for CCS technology that will increase its potential adoption in multiple industries faster than without it. From energy and hydrogen production to exhausts of shipping vessels and cars, this application of CCS has nearly unlimited potential to reduce emissions towards a net zero world.

该博士将研究使用中空纤维技术吸附系统来应用蓝氢。在各种工业公司的支持下，这些公司可以获得有关陶瓷材料，立法和能源生产的建议，这些公司将确定在整个博士学位过程中需要考虑的关键场景，这些场景可能会用于进一步的应用。确定的一个应用是氢的生产，其通常由每年排放约5亿吨CO2的化石燃料源生产。这些成熟的生产设施依赖于可靠且经济可行的二氧化碳捕集方法，以在排放问题和意识不断提高的世界中继续生产。中空纤维的潜力包括在其整个寿命期间提高效率，耐用性和灵活性，而且压降较低，避免流化并缩短循环时间。从经济上讲，这项研究将使CCS技术的成本轨迹逐步下降，这将使其在多个行业的潜在采用速度比没有它更快。从能源和氢气生产到船舶和汽车的废气，CCS的这种应用几乎具有无限的潜力，可以减少排放，实现净零世界。