Reduction of iron oxide by carbon and gas in a novel low carbon, low energy alternative ironmaking process

在新型低碳、低能耗替代炼铁工艺中通过碳和气体还原氧化铁

• 批准号: 2267948
• 金额: --
• 依托单位: University of Warwick
• 依托单位国家: 英国
• 项目类别: Studentship
• 财政年份: 2019
• 资助国家: 英国
• 起止时间: 2019 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=studentship-2267948
• 关键词: Reduction; iron; oxide; carbon; gas

The steel industry is facing significant challenges in achieving and sustaining competitiveness, such as strict environment regulations, new energy sources, global overcapacity, and competition from other materials. To create an industry that will be sustainable for the future, extraction of metals needs to be lean in energy, low in C footprint and flexible with regards to raw material/energy sources. This project aims to advance the reaction mechanisms of iron oxide (FeO) with carbon and gas in a novel low energy, low carbon alternative iron making process, and enable the realisation of the potential to substantially reduce its carbon footprint. This will be achieved by using specifically designed modern experimental techniques to study the reactions in the gas-slag-metal systems at high temperatures, carrying out thermodynamic & kinetic simulations for the systems studied, and characterising the samples and product gases generated with the aid of advanced characterisation facilities in the Advanced Steel Research Centre at WMG of the University of Warwick. The project provides an outstanding opportunity to be involved in cutting-edge research of the next generation sustainable steel manufacturing. This is an EPSRC/Tata Steel iCASE studentship, and the project align well with the EPSRC research areas of "Materials Engineering - Metals & Alloys" and "Manufacturing Technologies".

钢铁行业在实现和维持竞争力方面面临着巨大的挑战，例如严格的环境法规，新能源，全球过度竞争力和其他材料的竞争。为了创造一个将为未来提供可持续发展的行业，要提取金属的能量倾斜，c脚印低，并且在原材料/能源方面具有灵活性。该项目的目的是在新型的低能量，低碳替代铁生产过程中使用碳和气体的氧化铁（FEO）的反应机理，并实现潜在的实质性，以实质上减少其碳足迹。这将通过使用专门设计的现代实验技术来研究高温下气体落叶 - 金属系统中的反应，对所研究的系统进行热力学和动力学模拟，并表征warwick wmg的高级钢研究中心的先进钢研究中心的样品和产品气体。该项目为参与下一代可持续钢制造业的前沿研究提供了一个很棒的机会。这是EPSRC/TATA钢ICASE学生资格，该项目与“材料工程 - 金属与合金”和“制造技术”的EPSRC研究领域非常吻合。