Improvement of water flux, treatment efficiency, and fouling resistance of polyethersulfone/cellulose acetate blend ultrafiltration membranes using nanomaterials derived from renewable resources

Acarer Arat, Seren

Volume : 31 Issue : 6 Year : 2025

31/6Current Issue Ahead of Print Archive Most Accessed Articles Manuscript Submission

Pamukkale University Journal of Engineering Sciences Improvement of water flux, treatment efficiency, and fouling resistance of polyethersulfone/cellulose acetate blend ultrafiltration membranes using nanomaterials derived from renewable resources [Pamukkale Univ Muh Bilim Derg]

Pamukkale Univ Muh Bilim Derg. Ahead of Print: PAJES-70729 | DOI: 10.65206/pajes.70729

Improvement of water flux, treatment efficiency, and fouling resistance of polyethersulfone/cellulose acetate blend ultrafiltration membranes using nanomaterials derived from renewable resources

Seren Acarer Arat
Environmental Engineering Department, �stanbul Technical University, Maslak 34467, �stanbul, T�rkiye

Polymeric flat sheet membranes are extensively applied in both large- and small-scale water and wastewater treatment processes. A straightforward and effective strategy to enhance the performance of polymer-based flat sheet membranes, particularly their water flux and treatment efficiency, is the integration of nanomaterials into the membrane structure. In this research, cellulose nanocrystals (CNC) and cellulose nanofibrils (CNF) were incorporated into polyethersulfone (PES)/cellulose acetate (CA) blend membranes, which were produced using the non-solvent induced phase separation technique. The prepared membranes underwent comprehensive characterization, and their water flux and turbidity removal performance were subsequently evaluated using the classical filtration technique. Morphological properties, including porosity, mean pore size, and pore size distribution, were analyzed from SEM images processed in MATLAB. Antifouling behavior (Rt, Rir, Rr, FRR, and FDR) and resistance-related (RT, RM, RIR, and RR) parameters were evaluated. Incorporation of CNC and CNF improved the hydrophilicity and porosity of the PES/CA membranes while simultaneously decreasing average pore size and surface roughness. Furthermore, both reinforcements significantly increased the pure water flux of the membranes, with observed enhancements of 33.49% for CNC and 37.56% for CNF, reaching a maximum flux of 365.12 L/m��h. Turbidity removal performance was also positively influenced by the presence of nanomaterials, with the PES/CA/CNF membrane achieving the highest removal efficiency of 98.24%. Overall, CNF was superior to CNC in enhancing the membrane�s porosity, hydrophilicity, surface smoothness, water flux, turbidity removal, and fouling resistance. The estimated fabrication cost for PES/CA-based membranes ranged from 1773 to 2948 TRY.

Keywords: membrane, cellulose nanocrystal, cellulose nanofibril, characterization, ultrafiltration, water treatment

Yenilenebilir kaynaklardan elde edilen nanomalzemeler kullan�larak polieters�lfon/sel�loz asetat kar��m� ultrafiltrasyon membranlar�n�n su ak�s�n�n, ar�tma veriminin ve kirlenme direncinin iyile�tirilmesi

Seren Acarer Arat
�evre M�hendisli�i B�l�m�, �stanbul Teknik �niversitesi, Maslak 34467, �stanbul, T�rkiye

Polimerik d�z levha membranlar, hem b�y�k hem de k��k �l�ekli su ve at�k su ar�t�m proseslerinde yayg�n olarak kullan�lmaktad�r. Polimer bazl� d�z levha membranlar�n performans�n�, �zellikle su ak�s� ve ar�t�m verimlili�ini art�rman�n basit ve etkili bir yolu, nanomalzemelerin membran yap�s�na entegre edilmesidir. Bu �al��mada, sel�loz nanokristaller (CNC) ve sel�loz nanofibriller (CNF), ��z�c� olmayan taraf�ndan ind�klenen faz ay�rma y�ntemi kullan�larak �retilen polieters�lfon (PES)/sel�loz asetat (CA) kar��m membranlara dahil edilmi�tir. Haz�rlanan membranlar kapsaml� karakterizasyondan ge�irilmi� ve su ak�s� ile bulan�kl�k giderme performanslar� klasik filtrasyon tekni�i kullan�larak de�erlendirilmi�tir. Porozite, ortalama g�zenek boyutu ve g�zenek boyutu da��l�m� gibi morfolojik �zellikler, MATLAB ile i�lenen SEM g�r�nt�lerinden analiz edilmi�tir. Antifouling davran�� (Rt, Rir, Rr, FRR ve FDR) ve diren�le ilgili parametreler (RT, RM, RIR ve RR) de�erlendirilmi�tir. CNC ve CNF�nin eklenmesi, PES/CA membranlar�n�n hidrofili�ini ve porozitesini art�r�rken, ortalama g�zenek boyutu ve y�zey p�r�zl�l��n� azaltm��t�r. Ayr�ca, her iki katk� da membranlar�n saf su ak�s�n� �nemli �l��de art�rm��, CNC i�in %33,49 ve CNF i�in %37,56 art�� g�zlemlenmi� ve maksimum ak�� 365,12 L/m��h�ye ula�m��t�r. Bulan�kl�k giderme performans� da nanomalzemelerin varl��ndan olumlu etkilenmi� olup, PES/CA/CNF membran� en y�ksek giderim verimi olan %98,24�e ula�m��t�r. Genel olarak, CNF, membran�n porozitesini, hidrofili�ini, y�zey p�r�zs�zl��n�, su ak�s�n�, bulan�kl�k giderimini ve kirlenmeye kar�� direncini art�rmada CNC�ye k�yasla daha �st�n performans g�stermi�tir. PES/CA bazl� membranlar�n tahmini �retim maliyeti 1773 ile 2948 TRY aras�nda de�i�im g�stermi�tir.

Anahtar Kelimeler: membran, sel�loz nanokristal, sel�loz nanofibril, karakterizasyon, ultrafiltrasyon, su ar�t�m�

Corresponding Author: Seren Acarer Arat, T�rkiye
Manuscript Language: English

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Improvement of water flux, treatment efficiency, and fouling resistance of polyethersulfone/cellulose acetate blend ultrafiltration membranes using nanomaterials derived from renewable resources

Yenilenebilir kaynaklardan elde edilen nanomalzemeler kullan�larak polieters�lfon/sel�loz asetat kar���m� ultrafiltrasyon membranlar�n�n su ak�s�n�n, ar�tma veriminin ve kirlenme direncinin iyile�tirilmesi

Yenilenebilir kaynaklardan elde edilen nanomalzemeler kullan�larak polieters�lfon/sel�loz asetat kar��m� ultrafiltrasyon membranlar�n�n su ak�s�n�n, ar�tma veriminin ve kirlenme direncinin iyile�tirilmesi