Comparison and optimization of CO2 purification units for CCS applications

IF 4.6 3区 工程技术 Q2 ENERGY & FUELS
Lorenzo Sala, Syed Ali Zaryab, Paolo Chiesa, Emanuele Martelli
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引用次数: 0

Abstract

Several promising CO2 capture technologies, like oxy-combustion, adsorption and membranes, feature a purity of the captured CO2 stream which is insufficient for the storage site or the transport system. In these cases, a CO2 Purification Unit (CPU) is required to lower the concentrations of O2, N2 and Ar at the limits allowed by the storage site/transport system. In this work, the available CO2 Purification processes have been reviewed and the six main schemes have been simulated in Aspen Plus and optimized. Their performance have been ranked based on six selected key performance indicators: total annual cost, Specific cost per ton of captured CO2, specific energy consumption, recovery, purity, and O2 concentration in the purified CO2. The techno-economic optimization is repeated for different carbon tax values and for three different feed streams compositions. The results of the optimization show that flash-based CPUs cannot meet the requirements for CO2 storage due to a high concentration of O2 (>1000 ppm) but they feature a low specific cost (5.8–25.9 €/tonCO2 depending on the feedgas and plant size), low specific energy consumption (124.9–436.1 kJ/tonCO2) and acceptable recovery (94.60–99.46 %). The distillation-based CPU can meet the requirements for CO2 storage, but these CPUs have the highest cost (52–112 % higher than flash-based CPU) and the lowest recovery. The optimal CPUs are the ones which combine both distillation column and flash separation. These CPUs meet the oxygen requirements for CO2 storage (<10 ppm) while providing the highest purity (99.997–99.999 %), high recovery (90.61–99.32 %) at a limited cost (6.1–36.0 euro/tonCO2).

用于二氧化碳捕获和封存的二氧化碳净化装置的比较和优化
几种前景看好的二氧化碳捕获技术,如氧燃烧、吸附和膜技术,其特点是捕获的二氧化碳流纯度不足以满足贮存场所或运输系统的要求。在这种情况下,需要使用二氧化碳净化装置(CPU)将氧气、氮气和氩气的浓度降低到贮存场所/运输系统允许的范围内。在这项工作中,对现有的二氧化碳净化工艺进行了审查,并在 Aspen Plus 中对六种主要方案进行了模拟和优化。根据六个选定的关键性能指标对它们的性能进行了排序:年度总成本、每吨捕获 CO2 的具体成本、具体能耗、回收率、纯度和净化 CO2 中的 O2 浓度。针对不同的碳税值和三种不同的原料流成分,重复进行了技术经济优化。优化结果表明,基于闪存的中央处理器由于 O2 浓度高(1000 ppm)而无法满足二氧化碳封存的要求,但其特点是具体成本低(5.8-25.9 欧元/吨 CO2,取决于原料气和工厂规模)、具体能耗低(124.9-436.1 千焦/吨 CO2)和回收率可接受(94.60-99.46%)。基于蒸馏的中央处理器可以满足二氧化碳封存的要求,但这些中央处理器的成本最高(比基于闪存的中央处理器高 52-112%),回收率最低。最佳的中央处理器是蒸馏塔和闪蒸分离相结合的中央处理器。这些中央处理器既能满足二氧化碳储存对氧气的要求(10 ppm),又能提供最高的纯度(99.997%-99.999%)和高回收率(90.61%-99.32%),而且成本有限(6.1-36.0 欧元/吨二氧化碳)。
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来源期刊
CiteScore
9.20
自引率
10.30%
发文量
199
审稿时长
4.8 months
期刊介绍: The International Journal of Greenhouse Gas Control is a peer reviewed journal focusing on scientific and engineering developments in greenhouse gas control through capture and storage at large stationary emitters in the power sector and in other major resource, manufacturing and production industries. The Journal covers all greenhouse gas emissions within the power and industrial sectors, and comprises both technical and non-technical related literature in one volume. Original research, review and comments papers are included.
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