Journal
PROCESSES
Volume 10, Issue 9, Pages -Publisher
MDPI
DOI: 10.3390/pr10091822
Keywords
residue; hydrotreating; deactivation; model; catalyst
Categories
Funding
- National Key R&D Program of China [2019YFC1906705]
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Residue catalytic hydrogenation experiments were conducted in a two-stage fixed-bed reactor system to mimic industrial operation. Coke deposition was found to be the main cause of initial stage deactivation, while the deposition of metal sulfides led to slow deactivation in the middle stage. A deactivation model considering catalyst activity as a function of time on stream (TOS) was proposed and applied to the reaction. Deactivation parameters for different catalysts were obtained by fitting experimental data. Multi-bed hydrogenation was shown to effectively increase catalyst life.
Residue catalytic hydrogenation was carried out in a two-stage downflow fixed-bed reactor system, with a HDM catalyst in the first stage and HDS catalyst in the second one, to mimic the industrial operation. The experiments were run at five sets of temperatures (395 degrees C (first reactor)/405 degrees C (second reactor), 400 degrees C/410 degrees C, 405 degrees C/415 degrees C, 410 degrees C/420 degrees C, and 420 degrees C/430 degrees C). It was found that the initial stage deactivation was mainly caused by the rapid deposition of coke. Gradually, the deposition of metal sulfides leads to a slow deactivation in the middle stage of operation. A deactivation model that considers the catalyst activity as a function of TOS was proposed and applied to the hydrotreating reaction. The deactivation parameters of HDCCR, HDS, HDNi, and HDV in the two reactors were obtained by fitting the experimental data at the outlet of the two reactors. According to the deactivation curves of catalysts, it is proposed that the deactivation of HDM catalyst is faster than that of HDS catalyst, and multi-bed hydrogenation can effectively increase the catalyst life.
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