Irene G. Stampino scite author profile

Irene G. Stampino

2Publications

3Citation Statements Received

225Citation Statements Given

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Technical University of Denmark

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Solid–Liquid Phase Boundaries in the System: Glycine–NaOH–NaHCO₃–H₂O

et al. 2022

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In this work, the solid–liquid equilibrium (SLE) of the systems glycine (Gly)–H2O, Gly–NaOH–H2O, Gly–NaHCO3–H2O, and Gly–NaOH–NaHCO3–H2O was determined using a freezing point depression (FPD) setup. A total of 131 new data points are listed in the concentration range 0 < b (sodium glycinate (SG)) < 25 mol SG/kg water. The system Gly–NaOH–H2O with five different mole ratios (n NaOH:n Gly) 1:1, 1:2, 1:5, 2:1, and 5:1 and the CO2-loaded system Gly–NaOH–NaHCO3–H2O were analyzed in a loading range of 0.1–1 mol CO2 per mol SG. Eutectic points and hydrate formations were identified in the systems Gly–H2O, Gly–NaOH–H2O, and Gly–NaOH–NaHCO3–H2O. The solubility of SG increased linearly with higher concentrations for systems with an excess of NaOH. The solubility of SG decreased significantly with an excess addition of NaOH and glycine. The same trend was observed in the CO2-loaded system. The new data create a better understanding of phase equilibria in this system. This understanding is useful for the thermodynamic modeling of the system, which can potentially be used for CO2 capture. The data give a clear representation of the degree of safe operation in terms of managing a plant without solid formation.

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Influence of CO₂ on the Solubility of Potassium Glycinate in Glycine–KOH–H₂O, Glycine–KHCO₃–H₂O, and Glycine–KOH–KHCO₃–H₂O

et al. 2022

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In this study, solid–liquid equilibria (SLE) were measured in the systems glycine (Gly)–KOH–H2O, Gly–KHCO3–H2O, and Gly–KOH–KHCO3–H2O using the method of freezing point depression (FPD). A total of 211 new data points are presented in the concentration range 0 < b (potassium glycinate (PG)) < 28 mol of PG/kg of water. The PG solubility was measured for the systems Gly–KOH–H2O and Gly–KHCO3–H2O with mole ratios of 1:1, 1:2, 1:5, 2:1, 5:1 (n KOH:n Gly) and 1:1, 3:1 (n KHCO3 :n Gly). Eutectic points were identified in these systems. The SLE of CO2 loaded systems Gly–KHCO3–H2O and Gly–KOH–KHCO3–H2O were studied in order to identify the limits for safe operation of a carbon capture plant. Results revealed that PG (n KHCO3 :n Gly, 1:1) was less soluble in a 0.5 mol of CO2/mol of PG loaded solution than in a 0.1 mol of CO2/mol of PG solution. The understanding of the solubility of aqueous PG solutions with and without the influence of CO2 is critical in order to avoid precipitation issues related to solvent mixing, solvent handling, and during operation of a carbon capture plant. The data are important for the development of thermodynamic models.

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Irene G. Stampino

Solid–Liquid Phase Boundaries in the System: Glycine–NaOH–NaHCO₃–H₂O

Influence of CO₂ on the Solubility of Potassium Glycinate in Glycine–KOH–H₂O, Glycine–KHCO₃–H₂O, and Glycine–KOH–KHCO₃–H₂O

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Irene G. Stampino

Solid–Liquid Phase Boundaries in the System: Glycine–NaOH–NaHCO3–H2O

Influence of CO2 on the Solubility of Potassium Glycinate in Glycine–KOH–H2O, Glycine–KHCO3–H2O, and Glycine–KOH–KHCO3–H2O

Contact Info

Product

Resources

About

Solid–Liquid Phase Boundaries in the System: Glycine–NaOH–NaHCO₃–H₂O

Influence of CO₂ on the Solubility of Potassium Glycinate in Glycine–KOH–H₂O, Glycine–KHCO₃–H₂O, and Glycine–KOH–KHCO₃–H₂O