%0 Journal Article
%@ 13858947
%A Hubadillah, S.K.
%A Othman, M.H.D.
%A Tai, Z.S.
%A Jamalludin, M.R.
%A Yusuf, N.K.
%A Ahmad, A.
%A Rahman, M.A.
%A Jaafar, J.
%A Kadir, S.H.S.A.
%A Harun, Z.
%D 2020
%F scholars:14086
%I Elsevier B.V.
%J Chemical Engineering Journal
%K Bone; Ceramic materials; Ceramic membranes; Heavy metals; Hydroxyapatite; Industrial water treatment; Pore size; Reclamation; Sintering; Textiles; Waste treatment, Adsorption ability; Ceramic suspensions; Hydroxyapatite (HAp); Industrial textiles; Phase inversion; Sintering temperatures; Temperature range; Textile wastewater treatment, Wastewater treatment
%R 10.1016/j.cej.2019.122396
%T Novel hydroxyapatite-based bio-ceramic hollow fiber membrane derived from waste cow bone for textile wastewater treatment
%U https://khub.utp.edu.my/scholars/14086/
%V 379
%X Industrial textile wastewater is toxic due to the presence of recalcitrant color pigments and poisonous heavy metals. In this study, the hydroxyapatite (HAp)-based bio-ceramic hollow fiber membranes (h-bio-CHFM) were developed via the combined phase inversion and sintering technique. It was found that the properties of the developed h-bio-CHFMs were greatly affected by the HAp content of the ceramic suspension, and sintering temperature. The h-bio-CHFM with the sintering temperature of 1200 °C exhibited the long rod-shaped HAp particles and the smallest pore size (0.013 μm). High removals of color (99.9), COD (80.1), turbidity (99.4) and conductivity (30.1) were achieved using the h-bio-CHFM sintered at 1200 °C with stable high flux of 88.3 L/m2h. Remarkably, the h-bio-CHFM sintered in the temperature range of 1000�1200 °C also demonstrated excellent adsorption ability towards heavy metals with 100 removals. The results of this study show the potential of the h-bio-CHFM for the efficient industrial textile wastewater treatment applications. © 2019 Elsevier B.V.
%Z cited By 77