A Lyapunov-Sylvester numerical method for solving a reverse osmosis model

A Lyapunov-Sylvester numerical method for solving a reverse osmosis model

Clean water is a necessity for many organisms, especially human life. Due to many factors, there is a significant shortage of potable water. This has led to efforts involving recovering water from wastewater or the sea through different technologies. Recently, the desalination of seawater via the re...

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Veröffentlicht in:AIMS Mathematics 2024-01, Vol.9 (7), p.17531-17554
Hauptverfasser: Helali, Saloua, Ben Mabrouk, Anouar, Rashad, Mohamed, Ali, Nizar Bel Hadj, Ȧlanazi, Munirah A., Alsharif, Marwah A., Al-Ali, Elham M., Alharbi, Lubna A., Mustafa, Manahil S.
Format: Artikel
Sprache:eng
Schlagworte:
advection diffusion
Analysis
Methods
Numerical analysis
numerical methods
reverse osmosis
Saline water conversion
Sea-water
Simulation methods
sylvester equation
Water
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Beschreibung
Zusammenfassung:Clean water is a necessity for many organisms, especially human life. Due to many factors, there is a significant shortage of potable water. This has led to efforts involving recovering water from wastewater or the sea through different technologies. Recently, the desalination of seawater via the reverse osmosis system has shown to be a promising method for drinking water treatment and recovery. Such a technique relies on mathematical models based on many parameters, resulting in special PDEs to model the reverse osmosis system. This paper develops a numerical method to solve a reverse osmosis model. The governing PDE is converted into a Sylvester equation that is proved to be uniquely solvable, stable, consistent, and convergent. The numerical scheme developed is validated with experimental data from the literature, and some numerical simulations.
ISSN:2473-6988
2473-6988
DOI:10.3934/math.2024852