Nattapong LertrojanachusitOrathai PornsunthorntaweeBoonyarach KitiyananJittipan ChavadejSumaeth ChavadejChulalongkorn UniversityMahidol University2018-10-192018-10-192013-11-01Asia-Pacific Journal of Chemical Engineering. Vol.8, No.6 (2013), 830-84219322143193221352-s2.0-84890554924https://repository.li.mahidol.ac.th/handle/20.500.14594/31462Carbon nanotubes (CNTs) with a carbon content of 3% were synthesized via the disproportionation of CO over a CoMo/SiO2 catalyst. The proposed purification technique consisted of four sequential steps: oxidative treatment, acid leaching, silica dissolution, and froth flotation. The as-synthesized CNTs were oxidized at 250 °C before being treated with a 5-m HCl solution at 80 °C and a sonication time of 6 h, resulting in a catalyst removal of 90% and an increase in carbon content to 4%. For the silica dissolution, the CNTs were treated with a 0.5-m NaOH solution at 70 °C and a sonication time of 12 h, leading to a silica removal of 70% and an increase in carbon content to 35%. The froth flotation technique was employed to separate the CNTs from the remaining silica using two types of surfactants: linear ethoxylated alcohol with an average degree of polymerization of 7 and a linear alkyl chain of 12-14 carbon number (Surfonic L24-7) and sodium dodecyl benzene sulfonate (SDBS). The separation performance was maximized at a Surfonic L24-7-to-SDBS molar ratio of 1: 12 with a total surfactant concentration of 230 mg/L, yielding a carbon content of 76%. © 2013 Curtin University of Technology and John Wiley & Sons, Ltd.Mahidol UniversityChemical EngineeringEnergyEnvironmental ScienceArticleSCOPUS10.1002/apj.1727