Scaling-Up Of A Highly Modular Rotating Packed Bed Plant With An Efficient Solvent For Capture Cost Reduction

使用高效溶剂扩大高度模块化旋转填充床设备以降低捕集成本

• 批准号: 10042326
• 金额: $ 81.6万
• 依托单位: NEWCASTLE UNIVERSITY
• 依托单位国家: 英国
• 项目类别: EU-Funded
• 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=10042326
• 关键词: Scaling; Up; Highly; Modular; Rotating

In a world’s first, HiRECORD will demonstrate at TRL 6, a modular CO2 capture plant that will comprise a Rotating Packed Bed (RPB) absorber and an advanced RPB disrober with integrated spinning reboiler (RPB-ISR). The plant will be of 10 t/d CO2 capture capacity and will operate with the advanced, APBS-CDRMax solvent. It will be operated on the premises of a natural-gas power plant (ELPEDISON), of an industrial gas boiler (TOTAL ENERGIES ONE TECH) and of a quicklime plant (CAO Hellas), highlighting the high modularity and flexibility of RPB processes with flue gases of different specifications. The advanced capture plant will allow up to 50% capture cost reduction, compared to conventional MEA-based, packed-bed technologies. This reduction will result from at least 10 times lower space footprint due to the use of the RPBs, with direct beneficial impacts on capital expenditures, as well as a regeneration energy of 2.0-2.1 GJ/tCO2 due to the use of the APBS-CDRMax solvent and the RPB-ISR. These features will also enable 20% and 50% lower environmental and safety impacts, as the solvent and operating conditions will minimize emissions, corrosion and make-up requirements. Techno-economic studies will also include an industrial cluster in Northern Greece, where options of CO2 utilization as well transportation and sequestration in nearby geological sites will also be investigated. Extensive societal, public acceptance and policy studies will also be performed, including surveys to the over 750 members of the industrial association partner SEVE.

HiRECORD 将在 TRL 6 上展示全球首个模块化二氧化碳捕集设备，该设备将包括旋转填充床 (RPB) 吸收器和带有集成旋转再沸器 (RPB-ISR) 的先进 RPB 剥离器。该设备的重量为 10 吨。 /d 二氧化碳捕集能力，将使用先进的 APBS-CDRMax 溶剂 它将在工业天然气发电厂 (ELPEDISON) 内运行。燃气锅炉 (TOTAL ENERGIES ONE TECH) 和生石灰工厂 (CAO Hellas)，凸显了 RPB 工艺处理不同规格烟气的高度模块化和灵活性，与传统工艺相比，先进的捕集工厂可降低高达 50% 的捕集成本。由于使用 RPB，空间占用量将减少至少 10 倍，这对资本支出和再生产生直接有益影响。由于使用 APBS-CDRMax 溶剂和 RPB-ISR，能耗为 2.0-2.1 GJ/tCO2。这些功能还将使环境和安全影响降低 20% 和 50%，因为溶剂和操作条件将最大限度地减少排放。技术经济研究还将包括希腊北部的工业集群，其中还将调查附近地质地点的二氧化碳利用以及运输和封存的选择。还将进行接受度和政策研究，包括对行业协会合作伙伴 SEVE 的 750 多名成员进行调查。