共晶体系
硫化氢
吸收(声学)
硫化物
材料科学
氢
化学
化学工程
无机化学
硫黄
有机化学
冶金
合金
工程类
复合材料
作者
Atefe Rajabi,Reza Haghbakhsh,Amir Goshadrou
标识
DOI:10.1016/j.molliq.2025.127649
摘要
• Capacities of Deep Eutectic Solvents as the green solvents for H 2 S absorption were studied. • A comprehensive screening analysis was studied for different thermodynamic models for H 2 S absorption in DESs. • The most updated and largest data bank for H 2 S solubility in DESs was gathered and analyzed. • The general guidelines for using various models to estimate H 2 S solubility in DESs were reported. Natural gas is a valuable source of energy, however, it also contains hazardous compounds, such as hydrogen sulfide (H 2 S) acid gas, which needs to be eliminated to make it safe for use. If H 2 S is released, it can cause serious hazards like environmental issues and human respiratory or even death. Up to now, amine-based solvents have been used for gas sweetening. However, they are not environmentally friendly solvents, so replacing them with green solvents is required. Deep Eutectic Solvents (DESs) are the high-potential candidates of green solvents for this purpose. This study investigated comprehensive thermodynamic modeling of H 2 S solubilities in a wide range of different nature DESs using two thermodynamic approaches of φ-φ and γ-φ and one chemical absorption approach. The largest and most updated H 2 S solubility in DESs’ data bank was gathered from open literature including 338 data points for 33 different DESs over a wide range of temperature and pressure. For the investigated approaches, the SRK-SRK, SRK-NRTL, and RETM (1:2) models with the AARD% values of 13.42, 11.64, and 11.21, respectively led to the best results. According to comprehensive investigation and data analysis, general guidelines for using different thermodynamic models for H 2 S solubility in DESs were proposed.
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