基于胺的吸收和钙循环技术在优化燃烧后碳捕集能效方面的比较评估

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引用次数: 0

摘要

大气中二氧化碳含量的不断攀升凸显了开发有效碳捕集与封存(CCS)技术的必要性。本研究调查了燃烧后二氧化碳捕集技术的进展,特别是考察了基于胺的吸收和钙循环方法的效率。使用三种氨基酸(赖氨酸、丙氨酸和精氨酸)合成了胺吸收剂,并添加或不添加 NaOH/KOH 添加剂。吸收试验在一系列温度范围内的台式色谱柱中进行。钙循环过程包括使用 CaO 重复碳化和煅烧循环,以捕获和释放二氧化碳。采用方差分析进行统计分析,以确定胺浓度、碱浓度和温度等变量对二氧化碳吸收效率的影响。研究发现,以赖氨酸为基础的吸收剂在加入 NaOH 后,在温度为 30°C 时的二氧化碳捕获率高达 75%。此外,钙循环法在超过 25 个循环中表现出稳定的循环能力,再生所需能量估计为每吨二氧化碳 3.5 千兆焦耳。虽然基于胺的系统显示出更高的捕获率,但它们也需要大量能量用于溶剂再生。统计分析证实,胺浓度、碱浓度和温度是影响二氧化碳吸收效率的关键因素。这项研究的结果强调了优化胺溶液和钙循环作为燃烧后二氧化碳捕集可行策略的潜力,为促进减缓气候变化的可持续做法提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative Assessment of Amine-Based Absorption and Calcium Looping Techniques for Optimizing Energy Efficiency in Post-Combustion Carbon Capture
The escalating levels of atmospheric CO2 have underscored the necessity for developing effective carbon capture and storage (CCS) technologies. This study investigates the advancements in post-combustion CO2 capture technologies, specifically examining the efficiency of amine-based absorption and calcium looping methods. Amine absorbents were synthesized using three amino acids—Lysine, Alanine, and Arginine—supplemented with and without NaOH/KOH additives. Absorption trials were conducted in a bench-scale column across a range of temperatures. The calcium looping process involved repeated carbonation and calcination cycles using CaO to capture and release CO2. A statistical analysis employing ANOVA, was utilized to determine the influence of variables such as amine concentration, base concentration, and temperature on the efficiency of CO2 absorption. The study found that Lysine-based absorbents, adding NaOH, achieved a CO2 capture rate of up to 75% at a temperature of 30°C. Additionally, the calcium looping method exhibited consistent cyclic capacities for over 25 cycles, with a regeneration energy requirement estimated at 3.5 GJ/ton of CO2. While the amine-based systems demonstrated higher capture rates, they also required significant energy for solvent regeneration. The statistical analysis confirmed that amine concentration, base concentration, and temperature are critical factors influencing the efficiency of CO2 absorption. The findings of this study underscore the potential of optimized amine solutions and calcium looping as viable strategies for post-combustion CO2 capture, contributing valuable insights that promote sustainable practices in climate change mitigation.
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