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Si us plau utilitzeu sempre aquest identificador per citar o enllaçar aquest document: https://hdl.handle.net/2445/225327
Modeling nitrogen recovery and water transport in gas-permeable membranes
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This study presents a new modeling approach for nitrogen recovery in gas-permeable membrane (GPM) con- tactors, including both ammonia and water transport dynamics. A distinct feature of the model is its capacity to model water transport across the membrane, which has been overlooked in most publications. Osmotic pressure differences are used to predict the behavior of ammonia and water transport in the GPM contactor. Experiments carried out to develop, test and calibrate the model examined the dynamics of ammonia and water transport through the GPM contactor at various nitrogen concentrations. Specifically, the GPM contactor was tested for nitrogen recovery from high-strength synthetic wastewaters (2.4–10.6 g N/L) at 35 ◦C and at pH 9. The initial volume of the trapping solution (diluted H2SO4) was 10 times lower than that of the synthetic wastewater, aiming to concentrate the recovered nitrogen. The estimated ammonia transport constant (Km) ranged between (1.2 - 2.1)⋅10–6 m/s and water transport constant Kw between (2.8 - 8.2)⋅10–10 m/(s bar). Numerical determi- nation of the model parameters revealed high R2 values, demonstrating strong agreement with experimental data.
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DA SILVA, C., SERRA TORO, Andreu, PELIZZARO, V., VALENTINO, Francesco, ASTALS GARCIA, Sergi, MAS I PUJADAS, Francesc, DOSTA PARRAS, Joan. Modeling nitrogen recovery and water transport in gas-permeable membranes. _Water Research X_. 2025. Vol. 269, núm. 1-11. [consulta: 28 de gener de 2026]. ISSN: 2589-9147. [Disponible a: https://hdl.handle.net/2445/225327]