Optimization of Process Parameters for Catalytic Pyrolysis of Waste Tyre using Reactivated Fluid Catalytic Cracking Catalyst

M. Bisong Obi, A. Abubakar, S. Yunusa, F. Mohammed
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Abstract

This work investigated the optimization of process parameters for catalytic pyrolysis of waste tyre using reactivated spent Fluid catalytic cracking (FCC) catalyst. The waste tyre pyrolysis used design expert software as the optimization tool for this study. A 3-factor level CCD with 20 experimental runs was used with temperature, time and catalyst as the input parameters while oil yield, density and viscosity were the output variables. Thereafter, an experimental validation of the optimized parameters, which were not among the original experimental runs, was carried out. Pyrolysis was also carried out at the optimized conditions with un-reactivated catalyst and without catalyst to ascertain the contributions of the catalyst and its reactivation. Based on the optimum parameters, 48.5 wt. % oil (0.79 g/ml and 2.05 cSt) was produced with the reactivated catalyst, 43.4 wt. % (0.86 g/ml and 3.52 cSt) was produced with spent catalyst, and 51 wt. % oil (0.95 g/ml and 4.24 cSt) was produced without catalyst. The oil yield without catalyst was higher than with reactivated catalyst (R-CAT); but it however had the lowest fuel qualities while oil produced with catalyst in turn had higher quantity and quality compared to oil produced with catalyst. Therefore, the incorporation of density and viscosity of the oil in the optimization of the catalytic pyrolysis of waste tyre enhanced the improvement of yield and quality of the oil produced. doi : 10.5829/ijee.2024.15.01.02
再活化流体催化裂化催化剂催化热解废轮胎工艺参数优化
研究了利用再活化的废催化裂化(FCC)催化剂对废轮胎进行催化热解的工艺参数优化。废轮胎热解采用设计专家软件作为优化工具进行研究。以温度、时间和催化剂为输入参数,以产油率、密度和粘度为输出变量,采用3因素级CCD进行了20次实验。在此基础上,对优化后的参数进行了实验验证。在优化后的条件下,分别使用未活化催化剂和未活化催化剂进行热解,以确定催化剂及其再活化的作用。在最佳工艺条件下,再生催化剂产油率为48.5% (0.79 g/ml, 2.05 cSt),废催化剂产油率为43.4% (0.86 g/ml, 3.52 cSt),无催化剂产油率为51 wt. % (0.95 g/ml, 4.24 cSt)。无催化剂的油收率高于有再活化催化剂(R-CAT)的油收率;然而,它的燃料质量最低,而与催化剂生产的油相比,使用催化剂生产的油具有更高的数量和质量。因此,在对废轮胎催化热解工艺进行优化时,将油的密度和粘度考虑在内,有利于提高产油的收率和质量。Doi: 10.5829/ijee.2024.15.01.02
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