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Manimaran Ruthiraan,Nabisab Mujawar Mubarak,Raj Kogiladas Thines,Ezzat Chan Abdullah,Jaya Narayan Sahu,Natesan Subramanian Jayakumar,Poobalan Ganesan 한국화학공학회 2015 Korean Journal of Chemical Engineering Vol.32 No.3
We did a comparative study between functionalized multiwall carbon nanotube (FMWCNTs), and magneticbiochar was carried out to determine the most efficient adsorbent to be employed in the Cd2+ ion removal. Weoptimized parameters such as agitation speed, contact time, pH and adsorbent dosage using design expert vrsion 6.08. The statistical analysis reveals that optimized condition for highest removal of Cd2+ are at pH 5.0, with dosage 1.0 g,agitation speed and contact time of 100 rpm and 90 minutes, respectively. For the initial concentration of 10mg/l, theremoval efficiency of Cd2+ using FMWCNTs was 90% and and 82% of magnetic biochar. The maximum Cd2+ adsorptioncapacities of both FMWCNTs and magnetic biochar were calculated: 83.33mg/g and 62.5mg/g. The Langmuirand Freundlich constants for FMWCNTs were 0.056 L/mg and 13.613 L/mg, while 0.098 L/mg and 25.204 L/mg formagnetic biochar. The statistical analysis proved that FMWCNTs have better adsorption capacity compared to magneticbiochar and both models obeyed the pseudo-second-order.