A way to reuse petrochemical wastes through the partial substitution of cement by spent cracking catalyst and its effect on cement pastes
Paweł Niewiadomski, Michał Cisiński, Barbara Batog, Agnieszka Chowaniec-Michalak, Elżbieta Janowska-Renkas, Martyna Nieświec

TL;DR
This paper explores using spent catalyst from oil refining as a cement substitute to reduce waste and improve cement performance.
Contribution
The study introduces the use of Polish spent FCC catalyst as a cement replacement with notable pozzolanic activity and strength improvement.
Findings
Polish E-Cat has high SiO2 and Al2O3 content, enhancing its pozzolanic activity and compressive strength of cement pastes.
Replacing 10–20% of cement with E-Cat increased compressive strength by up to 16.7% without additives.
Environmental benefits are achieved through recycling E-Cat in cementitious materials.
Abstract
This study examined the recycling of spent catalyst from Fluid Catalytic Cracking (FCC) process derived from Polish petroleum industry in cementitious materials. FCC is a basic process in converting crude oil into refinery products, utilizing zeolite catalyst. Nevertheless, owing to petroleum coke formation on its surface, such catalyst ends its life cycle in landfill as general solid waste (code 16 08 01) called spent Equilibrium Catalyst (E-Cat), which brings about serious environmental and health risks. Therefore, alternative approaches for E-Cat management are under development, one of which is recycling in cementitious materials. Nevertheless, there are still limitations in that scope arising from variable characteristics of E-Cat from different refineries and research gaps in terms of its influence on cementitious materials. Therefore, the current paper presents correlations…
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Taxonomy
TopicsConcrete and Cement Materials Research · Landfill Environmental Impact Studies · Thermochemical Biomass Conversion Processes
