Comparative Study for the Absorption of Carbon Dioxide in Aqueous Amine Solvents for Enhanced Loading

Q3 Chemical Engineering

Recent Innovations in Chemical Engineering Pub Date : 2023-03-20 DOI:10.2174/2405520416666230320163220

Akash Sood, Avinash Thakur, Sandeep Mohan Ahuja

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Abstract

The current study aimed to investigate the CO2 absorption capacity of the aqueous alkanolamine, including primary, secondary, tertiary, and sterically hindered amines and polyamines, i.e., monoethanolamine (MEA), diethanolamine (DEA), triethanolamine (TEA) and 2-amino-2-methyl-1-propanol (AMP), tetraethylenepentamine (TEPA), triethylenetetramine (TETA), 3-(Methylamino)propylamine (MAPA), and diethylenetriamine (DETA) at 40, 60, and 80 °C at 1.1 bar. An increase in reaction temperature caused a decrement in CO2 loading across the board for all solvents. The trend of CO2 loading was TEA < MEA < DEA < AMP < MAPA < DETA < TETA < TEPA at 40 ºC, TEA < DEA < MEA < AMP < MAPA < DETA < TETA < TEPA, at 60 ºC and TEA < DEA < AMP < MEA < MAPA < DETA < TETA < TEPA at 80 ºC. The results indicated that TEPA has great potential to be utilized as an energy-efficient and non-corrosive solvent for CO2 capture since it has outperformed all other aqueous amine solvents in this present study. Furthermore, the CO2 loading of sterically hindered amine (AMP) at the same temperature was found to be higher than primary, secondary, and tertiary amines. Heat of absorption〖 (∆H〗_abs) was also determined to gauge the energy requirement to regenerate absorbents for cyclic loading from an economic viewpoint. DETA has the highest 〖∆H〗_abs = 84.48 kJ/mol. On the contrary, the long-chain tertiary amine TEA resulted in the least 〖∆H〗_abs = 40.21 kJ/mol, among all other solvents. Whereas the sterically hindered amine (AMP) was reported to possess mid-range 〖∆H〗_abs, i.e., 58.76 kJ/mol. Among all selected solvents, polyamines showed higher 〖∆H〗_abs than other conventional amines pertaining to the precedence of TEA

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胺类溶剂吸附二氧化碳增强负载的比较研究

本研究旨在研究乙醇胺水溶液在40、60、80℃、1.1 bar条件下的CO2吸收能力，包括伯胺、二次胺、叔胺、位阻胺和多胺，即单乙醇胺(MEA)、二乙醇胺(DEA)、三乙醇胺(TEA)和2-氨基-2-甲基-1-丙醇(AMP)、四乙基戊二胺(TEPA)、三乙基四胺(TETA)、3-(甲胺)丙胺(MAPA)和二乙基三胺(DETA)。反应温度的升高导致所有溶剂的CO2负荷全面下降。CO2负荷的变化趋势为:40℃时TEA < MEA < DEA < AMP < MAPA < eta < TETA < TEPA, 60℃时TEA < DEA < MEA < AMP < MAPA < eta < TETA < TEPA, 80℃时TEA < DEA < AMP < MEA < MAPA < eta < TETA < TEPA。结果表明，由于TEPA在本研究中优于所有其他水性胺溶剂，因此它作为一种节能且无腐蚀性的CO2捕集溶剂具有很大的潜力。此外，在相同温度下，空间阻碍胺(AMP)的CO2负荷高于伯胺、仲胺和叔胺。同时测定了吸收热(∆H〗_abs)，以从经济角度衡量循环荷载下吸收剂再生所需的能量。δ δ最高〖∆H〗_abs = 84.48 kJ/mol。结果表明，长链叔胺TEA在不同溶剂中的反应最低(∆H) _abs = 40.21 kJ/mol。而位阻胺(AMP)具有中等范围〖∆H〗_abs，即58.76 kJ/mol。在所有选择的溶剂中，多胺比其他常规胺表现出更高的〖∆H〗_abs

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来源期刊

Recent Innovations in Chemical Engineering Chemical Engineering-Chemical Engineering (all)

CiteScore

2.10

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0.00%

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