The potential of animal fats hydroconversion is experimentally investigated and validated in industrially relevant scale via the production of 100 L of transportation fuels. The experimental testing has indicated that mild hydrotreatment conditions are associated with low hydrogen consumption without significantly penalties in product quality. The optimal operating conditions (pressure of 6.89 MPa, H2/oil ratio of 84.95 Sm3 and LHSV of 1 hr-1) identified were also applied in the industrially relevant scale hydroprocessing pilot to validate the scale-up potential of the technology. The produced fuel is characterized by 5 wppm sulphur, 79.3 cetane index and 44.4 MJ/kg heating value, offering an advantage in compression ignition engines. The produced fuel can be blended up to 20% v/v with fossil diesel rendering a high bio-content diesel abiding by the EN 590 standard. It was found that, up to 20% per volume can be added in diesel without exceeding the requirements for CFPP standards for Greek winter diesel. Towards the commercialization of the technology with respect to the animal fats logistics, a dedicated 6-month storage stability study revealed that animal fats can be stored for up to three to four months at ambient conditions. The findings, indicate that the suggested technology is mature technology as applied successfully in the industrially-relevant-scale providing also the process data.
Keywords: Animal fats; Hydrodeoxygenation; Hydroprocessing; Storage stability.
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