Gambelli, A.M.; Rushani, X.; Pezzolla, D.; Rossi, F.; Gigliotti, G.
Production of CO2 Hydrates in Aqueous Mixtures Having (NH4)2SO4 at Different Concentrations; Definition of Consequences on the Process Evolution, Quantification of CO2 Captured and Validation of Hydrates Production as Technique for Ammonium Removal from Waste Water. Sustainability 2023, 15, 9841.
https://doi.org/10.3390/su15129841
AMA Style
Gambelli AM, Rushani X, Pezzolla D, Rossi F, Gigliotti G.
Production of CO2 Hydrates in Aqueous Mixtures Having (NH4)2SO4 at Different Concentrations; Definition of Consequences on the Process Evolution, Quantification of CO2 Captured and Validation of Hydrates Production as Technique for Ammonium Removal from Waste Water. Sustainability. 2023; 15(12):9841.
https://doi.org/10.3390/su15129841
Chicago/Turabian Style
Gambelli, Alberto Maria, Xhino Rushani, Daniela Pezzolla, Federico Rossi, and Giovanni Gigliotti.
2023. "Production of CO2 Hydrates in Aqueous Mixtures Having (NH4)2SO4 at Different Concentrations; Definition of Consequences on the Process Evolution, Quantification of CO2 Captured and Validation of Hydrates Production as Technique for Ammonium Removal from Waste Water" Sustainability 15, no. 12: 9841.
https://doi.org/10.3390/su15129841
APA Style
Gambelli, A. M., Rushani, X., Pezzolla, D., Rossi, F., & Gigliotti, G.
(2023). Production of CO2 Hydrates in Aqueous Mixtures Having (NH4)2SO4 at Different Concentrations; Definition of Consequences on the Process Evolution, Quantification of CO2 Captured and Validation of Hydrates Production as Technique for Ammonium Removal from Waste Water. Sustainability, 15(12), 9841.
https://doi.org/10.3390/su15129841
