Innovation in Supercritical CO2 Power generation systems

超临界二氧化碳发电系统的创新

• 批准号: EP/X04131X/1
• 负责人: Abdulnaser Sayma
• 金额: $ 67.6万
• 依托单位: City, University of London
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2023
• 资助国家: 英国
• 起止时间: 2023 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FX04131X%2F1
• 关键词: Innovation; Supercritical; CO2; Power; generation

This four-year work programme is to undertake cutting edge multidisciplinary research and development to make a step change in understanding of Supercritical CO2 based power generation systems' technology and its potential to enable a step change in thermalenergy power cycles to be a major contributor to achieving the 2050 zero emissions targets while providing specialised training for 15 doctoralresearchers to help establish the backbone of an important industry. The technical objectives of this research are:1- Develop advanced models and design tools that enable the optimal integration of sCO2 power systems components for various thermal energy sources and end use applications2- Develop accurate prediction tools for the simulation of transient operation of sCO2 power cycles and investigate innovative concepts of controland optimisation of operation3- Develop innovative methods to enhance aerodynamic and mechanical performance, reliability, and operability of key system components4- Develop advanced modelling and experimental methods that enable selection and development of materials, coatings and manufacturingtechniquesTo achieve the objectives of this training programme effectively, ISOP proposes four research WPs and requests funding from the EU for 15Doctoral Candidates for a total of 540 person months who will work on an ambitious plan to advance the sCO2 power cycles technology beyondthe state-of-the-art.The project aims to contribute to the EU agenda on European Research Area by training "a new generation of creative, entrepreneurial andinnovative early-stage researchers", who can face future challenges and to "convert knowledge and ideas into products and services for economic and social benefit". In addition, support to and compliance with the United Nation's Sustainable Development Goals will be at the heart of the training of the doctoral candidates and the scientific and economic outcomes of this research.

这四个-一个为期一年的工作计划是进行尖端的多学科研究和开发，以使超临界二氧化碳发电系统的技术及其潜力的理解发生一步变化，使热能动力循环的一步变化成为实现2050年零排放目标的主要贡献者，同时为15名博士研究人员提供专业培训，以帮助建立一个重要产业。本研究的技术目标是：1-开发先进的模型和设计工具，使各种热能源和最终用途应用的二氧化碳动力系统组件的最佳集成2-开发准确的预测工具，用于模拟二氧化碳动力循环的瞬态操作，并研究控制和优化操作的创新概念3-开发创新方法，以提高关键系统组件的空气动力学和机械性能，可靠性和可操作性4-开发先进的建模和实验方法，使材料的选择和开发，涂料和制造技术为了有效地实现本培训计划的目标，ISOP提出了四个研究工作方案，并要求欧盟资助15名博士候选人，共540人月，他们将在一个该项目旨在通过培养“新一代具有创造力、创业精神和创新精神的早期研究人员”，为欧盟在欧洲研究领域的议程做出贡献，他们能够面对未来的挑战，并“将知识和想法转化为经济和社会效益的产品和服务”。此外，支持和遵守联合国可持续发展目标将是博士生培训以及这项研究的科学和经济成果的核心。