报告题目:Process intensification of CO2 capture by HiGee Vortex Technology
报 告 人: 欧阳毅
时 间:2026年5月29日(周五)9:00-11:30
地 点:会议中心二层报告厅
报告人简介:
欧阳毅,根特大学副教授、鲁汶大学客座教授、博士生导师、欧洲研究委员会(ERC)Starting Grant、Francqui Start-Up Grant以及佛兰德研究基金会(FWO)博士后基金获得者。其研究方向主要聚焦于过程强化,结合计算流体力学(CFD)、可视化与实验方法,以及理论与数据驱动相结合的研究手段,以深化对传递与反应机理的理解,并推动反应器创新。欧阳毅副教授在气液与气固多相体系新型反应器技术开发方面拥有十余年 研究经验,担任多个化工领域国际期刊的编辑或编委,包括《Chemical Engineering Research and Design》《Chemical Engineering Journal》以及《Chemical Engineering and Processing: Process Intensification》。
报告摘要:
The use of intensified equipment, heavily advocated by academia, encounters several hurdles to break through in the chemical industry. This has several reasons, such as the high capital expenditures and the associated long depreciation times, the strong focus on robustness/availability—preferably 8000 h per year—or the fact that benefits are only incremental. In addition to the fact that all chemical companies are anxious to be the first to demonstrate new technology, a methodology or a roadmap for process intensification implementation in the chemical industry is beneficial. The presented work makes an attempt to bridge this gap by proposing a methodology perspective based on coupling: (1) lab-scale fundamental experiments, (2) computational fluid dynamics simulations and optimization, and (3) process simulations and assessment. This could enable low-cost process intensification innovation and help to bring the targeted process intensification technology to technology readiness level 5 and higher at a faster pace. The methodology is then applied to the development of vortex technology targeting the application of CO₂ capture, allowing CAPEX and OPEX reduction in the CO₂ capture industry.
