Water deoxygenation using hollow fiber membrane module with nitrogen as inert gas
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2015
Članak u časopisu (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
A pilot plant scale fiber membrane system was developed for the removal of dissolved oxygen from water via nitrogen vacuum. Feed water was introduced to the shell side; a nitrogen gas was applied to the lumen side, as an inert gas, of the hollow fiber. Outlet concentrations of oxygen in water depend on membrane module, inlet concentrations of oxygen in water, water flow, and nitrogen concentrations in inert gas and nitrogen flow. The effects of nitrogen purity on removal efficiency of dissolved oxygen were investigated. Equations for oxygen concentrations and efficiency due to nitrogen purity have been given.
Ključne reči:
Water / Nitrogen purity / Membrane module / DeoxygenationIzvor:
Desalination and Water Treatment, 2015, 54, 6, 1563-1567Izdavač:
- Taylor & Francis Inc, Philadelphia
Finansiranje / projekti:
- Ministry of Science and Technological Development of Serbia
DOI: 10.1080/19443994.2014.888677
ISSN: 1944-3994
WoS: 000352866500009
Scopus: 2-s2.0-84927176928
Institucija/grupa
Inovacioni centarTY - JOUR AU - Martić, Igor AU - Maslarević, Aleksandar AU - Mladenović, Saša AU - Lukić, Uroš AU - Budimir, Stevan J. PY - 2015 UR - https://machinery.mas.bg.ac.rs/handle/123456789/2093 AB - A pilot plant scale fiber membrane system was developed for the removal of dissolved oxygen from water via nitrogen vacuum. Feed water was introduced to the shell side; a nitrogen gas was applied to the lumen side, as an inert gas, of the hollow fiber. Outlet concentrations of oxygen in water depend on membrane module, inlet concentrations of oxygen in water, water flow, and nitrogen concentrations in inert gas and nitrogen flow. The effects of nitrogen purity on removal efficiency of dissolved oxygen were investigated. Equations for oxygen concentrations and efficiency due to nitrogen purity have been given. PB - Taylor & Francis Inc, Philadelphia T2 - Desalination and Water Treatment T1 - Water deoxygenation using hollow fiber membrane module with nitrogen as inert gas EP - 1567 IS - 6 SP - 1563 VL - 54 DO - 10.1080/19443994.2014.888677 ER -
@article{ author = "Martić, Igor and Maslarević, Aleksandar and Mladenović, Saša and Lukić, Uroš and Budimir, Stevan J.", year = "2015", abstract = "A pilot plant scale fiber membrane system was developed for the removal of dissolved oxygen from water via nitrogen vacuum. Feed water was introduced to the shell side; a nitrogen gas was applied to the lumen side, as an inert gas, of the hollow fiber. Outlet concentrations of oxygen in water depend on membrane module, inlet concentrations of oxygen in water, water flow, and nitrogen concentrations in inert gas and nitrogen flow. The effects of nitrogen purity on removal efficiency of dissolved oxygen were investigated. Equations for oxygen concentrations and efficiency due to nitrogen purity have been given.", publisher = "Taylor & Francis Inc, Philadelphia", journal = "Desalination and Water Treatment", title = "Water deoxygenation using hollow fiber membrane module with nitrogen as inert gas", pages = "1567-1563", number = "6", volume = "54", doi = "10.1080/19443994.2014.888677" }
Martić, I., Maslarević, A., Mladenović, S., Lukić, U.,& Budimir, S. J.. (2015). Water deoxygenation using hollow fiber membrane module with nitrogen as inert gas. in Desalination and Water Treatment Taylor & Francis Inc, Philadelphia., 54(6), 1563-1567. https://doi.org/10.1080/19443994.2014.888677
Martić I, Maslarević A, Mladenović S, Lukić U, Budimir SJ. Water deoxygenation using hollow fiber membrane module with nitrogen as inert gas. in Desalination and Water Treatment. 2015;54(6):1563-1567. doi:10.1080/19443994.2014.888677 .
Martić, Igor, Maslarević, Aleksandar, Mladenović, Saša, Lukić, Uroš, Budimir, Stevan J., "Water deoxygenation using hollow fiber membrane module with nitrogen as inert gas" in Desalination and Water Treatment, 54, no. 6 (2015):1563-1567, https://doi.org/10.1080/19443994.2014.888677 . .