Feasibility of Thermal Utilization of Primary and Secondary Sludge from a Biological Wastewater Treatment Plant in Kaliningrad City

Hydrothermal liquefaction (HTL) of sewage sludge is considered in the article as an analogue of the natural processes of oil formation (catagenesis). A comparison of the physicochemical composition of primary and secondary sludge with type II kerogen (natural precursor of oil) showed their similarity. Both types of sludge have a slightly higher level of oxygen and nitrogen. The study tested the hypothesis that the elements included in the inorganic part of the oil source rocks can have a catalytic effect on the oil formation processes. For the conducted studies of sludge HTL, the catalysts containing cations and substances found in oil source rocks were chosen: as homogeneous catalysts (KOH, NaOH, NH4Fe(SO4)(2), CoCl6, NiSO4, CuSO4, ZnSO4, MoO3) and as heterogeneous catalysts (MgO, Zeolite, Al2O3). The effectiveness of catalysts containing metal ions, zeolite and aluminum oxide has been proven. The highest biocrude yield was achieved in a process with NiSO4 as the catalyst in a dose 2 g per 10 g of sludge: oil yield increased by 34.9% and 63.4% in the processing of primary and secondary sludge, respectively. The use of catalysts provided an increase in fuel HHV by 10.8-12.5%, which is associated with a decrease in oxygen content (by 10.8-43.2%) with a simultaneous increase in carbon (by 7.9-10.9%) and hydrogen (by 6.5-18.7%) content.

Automated summary

This article discusses the hydrothermal liquefaction (HTL) of sewage sludge as an analogue of the natural oil formation process. The study finds similarities in the physicochemical composition between both types of sludge and type II kerogen. The research also tests the effectiveness of catalysts containing metal ions, zeolite, and aluminum oxide, identifying NiSO4 as a catalyst that significantly increases biocrude yield and reduces oxygen content.