(58a) Renewable Diesel Production through Stand-alone and Co-hydrotreating of Catalytic Fast Pyrolysis Oil | AIChE

(58a) Renewable Diesel Production through Stand-alone and Co-hydrotreating of Catalytic Fast Pyrolysis Oil

Authors 

Chen, X. - Presenter, National Renewable Energy Laboratory (NREL)
Iisa, K., National Renewable Energy Laboratory (NREL)
Mukarakate, C., National Renewable Energy Laboratory
Orton, K. A., National Renewable Energy Laboratory
Griffin, M. B., National Renewable Energy Laboratory
Catalytic Fast Pyrolysis (CFP) of biomass followed by hydrotreating can be used for the production of renewable transportation fuels, such as sustainable aviation fuel and renewable diesel, which can reduce the dependence on fossil fuels and help achieve greenhouse gas reduction goals. Stand-alone hydrotreating of CFP oil and co-hydrotreating of the CFP oil with straight-run diesel (SRD) showed potential to produce high-quality diesel products in this study. Stand-alone hydrotreating of CFP oil produced a diesel fraction with oxygen content < 0.1 wt.% and an indicated cetane number (ICN) of 45. Co-hydrotreating of CFP oil and SRD using a 1:4 volumetric ratio produced diesel products with 0.1 wt.% of oxygen and ICNs of 42~45. Compared to CoMo/Al2O3, NiMo/Al2O3 was a more attractive catalyst for co-hydrotreating of two streams, leading to a higher carbon efficiency, a higher selectivity of cycloalkanes, a higher ICN, and enhanced desulfurization. Compared to stand-alone hydrotreating of CFP oil, co-hydrotreating with SRD could be achieved at a less severe operating condition and it produced hydrotreated products with a higher carbon efficiency. Synergy between CFP oil and SRD during co-hydrotreating process was suggested by the better experimental results in comparison with theoretical interpolation results. Co-hydrotreating gave high biogenic carbon incorporations of 91%~97% as determined by C-14 analysis.