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Issue
Korean Journal of Chemical Engineering,
Vol.28, No.6, 1351-1358, 2011
Effect of process variables on product yield distribution in thermal catalytic cracking of naphtha to light olefins over Fe/HZSM-5
Alyani M, Towfighi J, Sadrameli SM
The effect of temperature, WHSV and Fe loading over HZSM-5 catalyst in thermal-catalytic cracking (TCC) of naphtha for the production of light olefins has been studied. The response surface defined by three most significant parameters is obtained from Box-Behnken design method and the optimal parameter set is found. The results show that ethylene increases with temperature, while propylene shows an optimum at 650 ℃. Moderate WHSV is favorable for maximum production of light olefins. Addition of Fe to HZSM-5 has a favorable effect on the production of light olefins up to 6% of loading. Excess amount of loading decreases the conversion of naphtha, which leads to a drop in light olefin yields. The yield of light olefins(ethylene and propylene) at 670 ℃, 44 hr^(-1) and 6 wt% Fe has been increased to 5.43 wt% compared to the unmodified HZSM-5 and reaches to 42.47 wt%.
Keywords: Thermal-catalytic Cracking; Naphtha; Fe-HZSM-5; Light Olefins; Response Surface
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[Cited By]
  1. Wang C, Li J, Yan J, Sun J, Korean Journal of Chemical Engineering, 31(9), 1547, 2014
  2. Liu B, Lu S, Liu E, Hu X, Fan J, Korean Journal of Chemical Engineering, 35(4), 867, 2018
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