In this work, the investment required to apply CO₂ capture to large-scale industrial sources is assessed and discussed in a case study of Sweden - a highly industrialized region with relative proximity to large and well-documented storage sites in the Norwegian North Sea. The Swedish process industry is characterized by a large share of biogenic emissions, and therefore has a considerable Bio-Energy with Carbon Capture and Storage (BECCS) potential. The capital cost for CO₂ capture is estimated for a standard MEA-based CO₂ absorption process. The CO₂ absorption process is applied to several industries – pulp and paper, oil and gas, steel, cement and chemical production – and dimensioned using process modeling. The equipment cost is subsequently estimated using a detailed individual factor estimation method. The capture costs are compared to estimates of the cost for transport and storage.

在这项工作中，在瑞典的案例研究中评估和讨论了将CO ₂捕集应用于大规模工业来源所需的投资-瑞典是一个高度工业化的地区，与挪威北海的大型且有据可查的存储地点相对接近。瑞典的加工业以大量生物成因排放为特征，因此具有相当大的生物能源，具有碳捕集与封存（BECCS）的潜力。对于基于MEA的标准CO ₂吸收过程，估计了CO ₂捕集的资本成本。一氧化碳₂吸收过程已应用于多个行业–纸浆和造纸，石油和天然气，钢铁，水泥和化工生产–并使用过程建模进行了尺寸确定。随后使用详细的个人因素估算方法估算设备成本。将捕获成本与运输和存储成本的估计值进行比较。