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Catalytic cracking of endothermic fuels in coated
tube reactor |
| LI Jia, ZOU Jijun, ZHANG Xiangwen, GUO Wei, MI Zhentao |
| Key Laboratory of Green Chemical Technology, School of Chemical Engineering and Technology, Tianjin University; |
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Abstract Suspensoid of HZSM-5 or HY zeolites mixed with a self-made ceramic-like binder was coated on the inner wall of a tubular reactor by gas-aided fluid displacement technology. The coated zeolites were characterized by means of X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR) and scanning electron microscopy (SEM). The coating thickness is 10–20 �?m and the particle size of the zeolites is in the range of 1–5 �?m. In the coated reactor, cracking of endothermic fuels including n-dodecane and aviation fuel RP-3 was carried out separately under supercritical conditions at 600°C and 625°C to investigate their heat sinks and conversion of catalytic reactions. For the reaction catalyzed by HY(25% mass fraction) coating, the heat sink capacity of n-dodecane are 815.7 and 901.9 kJ/kg higher than that of the bare tube at 600°C and at 625°C, respectively. Conversion of n-dodecane also increases from 42% to 60% at 600°C and from 66% to 80% at 625°C. The coated zeolite can significantly inhibit the carbon deposition during supercritical cracking reactions.
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Issue Date: 05 June 2008
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