Abstract
Carbon nanotubes (CNTs) were synthesized from alumina-based catalyst via decomposition of methane in a horizontal reactor system. By using statistical design of experiments (DoE), six process variables (reaction temperature, reaction duration, metal loading of catalyst, amount of catalyst, flow rate of methane and flow rate of nitrogen) were optimized for the synthesis of CNTs with satisfying quality. The response of the process towards the process variables was assessed using two quantitative signifiers, which are the yield of carbonaceous material and the ID/IG ratio from Raman spectrum. A total of 23 runs was required to achieve the optimum condition: 9 runs for the screening of decisive process variables by using Resolution III fractional factorial design (FFD), 13 runs for the response surface incurred from Box-Behnken design and 1 run for the validation of the final optimum condition. The optimum parameter set was found at a reaction temperature, reaction duration and metal loading of 762°C, 2.3h and 27%, respectively with the carbon yield and ID/IG of 350.0% and 0.595, respectively.
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