Methyldiethanolamine Solution Filtration Using Blended PVDF Membranes With Improved Antifouling Properties
Abdelwahab, M., Mohamed, H., Gad, F., Ibrahim, A. (2023). Methyldiethanolamine Solution Filtration Using Blended PVDF Membranes With Improved Antifouling Properties. EKB Journal Management System, 66(12), 387-395. doi: 10.21608/ejchem.2023.192233.7569
Moaaz Ahmed Abdelwahab; Heba Abdallah Mohamed; Fatma Khalifa Gad; Amr Fathy Ibrahim. "Methyldiethanolamine Solution Filtration Using Blended PVDF Membranes With Improved Antifouling Properties". EKB Journal Management System, 66, 12, 2023, 387-395. doi: 10.21608/ejchem.2023.192233.7569
Abdelwahab, M., Mohamed, H., Gad, F., Ibrahim, A. (2023). 'Methyldiethanolamine Solution Filtration Using Blended PVDF Membranes With Improved Antifouling Properties', EKB Journal Management System, 66(12), pp. 387-395. doi: 10.21608/ejchem.2023.192233.7569
Abdelwahab, M., Mohamed, H., Gad, F., Ibrahim, A. Methyldiethanolamine Solution Filtration Using Blended PVDF Membranes With Improved Antifouling Properties. EKB Journal Management System, 2023; 66(12): 387-395. doi: 10.21608/ejchem.2023.192233.7569

Methyldiethanolamine Solution Filtration Using Blended PVDF Membranes With Improved Antifouling Properties

Egyptian Journal of Chemistry
Volume 66, Issue 12, December 2023, Page 387-395  XML PDF (624.46 K)
Document Type: Original Article
DOI: 10.21608/ejchem.2023.192233.7569
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Authors
Moaaz Ahmed Abdelwahab email orcid 1; Heba Abdallah Mohamedorcid 2; Fatma Khalifa Gad3; Amr Fathy Ibrahim4
1Refining and petrochemical engineering, faculty of petroleum and mining engineering, suez university, Egypt process engineer at Belayim Petroleum Company (PETROBEL), Egypt
2Chemical engineering department , Engineering division, National research centre
3Chemical Engineering and Petroleum refinery, Petroleum and mining Engineering Faculty, Suez University, Suez, Egypt.
4Faculty of Petroleum and Mining Engineering, Suez University, Suez, Egypt.
Abstract
Alkanolamine solutions are widely used to remove acid gases (primarily H2S and CO2) from natural gas and light hydrocarbon streams. Removal of impurities and entrained solids is crucial to the effective operation of gas-treating plants. In this work, flat sheet ultrafiltration membranes were prepared from a polyvinylidene fluoride (PVDF) backbone blended with polyethylene glycol (PEG) and polyacrylonitrile (PAN) using the phase inversion method. The influence of blending proportions on the morphology and antifouling properties of the membranes was investigated. The prepared membranes were characterized using scanning electron microscopy and contact angle measurements and their mechanical properties and porosity were also evaluated. Membrane performance tests were carried out using an unstirred laboratory scale dead-end filtration setup fed with deionized water and real industry lean methyldiethanolamine solution. It was found that applying the right amounts of PAN and PEG to the casting solution increases PVDF membrane water flux and enhances its mechanical and antifouling properties. The addition of 1 wt. % PAN and 2 wt. % PEG400 to the casting solution of PVDF membranes results in 18% increase in pure water flux and ~97% rejection of the solids in the amine solution. This accomplishment was ascribed to the increased porosity and surface hydrophilicity of the blended PVDF membranes. The membrane showed improved surface antifouling properties with a high flux recovery ratio of 85.6% and a low irreversible resistance of 0.14.
Keywords
Poly(vinylidene fluoride); polyacrylonitrile; Polyethylene glycol; Ultrafiltration membranes; Methyl diethanolamine; Anti-fouling properties
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