Simulation of H2S solubility in three acetate-based ionic liquids using PC-SAFT EoS together with RETM

Alireza Afsharpour
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Abstract

In current work, Perturbed Chain- Statistical Associating Fluid Theory (PC-SAFT) EoS together with the Reaction Equilibrium Thermodynamic Model (RETM) was employed to correlate H2S solubility in three carboxylate ionic liquids including [emim][Ace], [bmim][Ace] and [hmim][Ace]. The RETM proposes a chemical reaction approach between IL (B) and H2S (A) in the liquid phase. Moreover PC-SAFT EoS contributes for VLE calculations. All the H2S and the investigated ILs, as self-associating components, assumed to follow 2B association scheme.Five adjustable variables of PC- SAFT EoS for pure components were calculated using experimental data of liquid density and vapor pressure. Afterwards, the binary systems were investigated applying RETM. Indeed, two nested loops calculate the liquid phase, total pressure and vapor phase concentrations, respectively. For these systems, AAD% equal to 2.29, 3.09 and 7.65 were obtained for all ILs respectively.
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利用PC-SAFT EoS和RETM模拟H2S在三种醋酸盐基离子液体中的溶解度
本研究采用微动链-统计关联流体理论(PC-SAFT) EoS和反应平衡热力学模型(RETM)对[emim][Ace]、[bmim][Ace]和[hmim][Ace]三种羧酸盐离子液体中H2S的溶解度进行了相关性分析。RETM提出了液相中IL (B)和H2S (a)的化学反应方法。此外,PC-SAFT EoS有助于VLE的计算。所有的H2S和所研究的il作为自缔合组分,假设遵循2B缔合方案。利用液体密度和蒸气压的实验数据,计算了纯组分PC- SAFT方程的5个可调变量。然后,应用RETM对二元体系进行了研究。实际上,两个嵌套的循环分别计算液相、总压和气相浓度。在这些系统中,所有il的AAD%分别为2.29、3.09和7.65。
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