Effects of inherent minerals on oily sludge pyrolysis: Kinetics, products, and secondary pollutants

[Display omitted] •The inherent solids and petroleum organics in OS pyrolysis exhibited interactions.•The pyrolytic products and pollutants were distinctly affected by mineral species.•CaO, MgO, Fe2O3, and Al2O3 obtained more pyrolysis gases and lower TPHs content.•Minerals inhibited pollutants at l...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2022-03, Vol.431, p.133218, Article 133218
Main Authors: Li, Jiantao, Zheng, Fa, Li, Qiushi, Farooq, Muhammad Zohaib, Lin, Fawei, Yuan, Dingkun, Yan, Beibei, Song, Yingjin, Chen, Guanyi
Format: Article
Language:English
Subjects:
Inherent minerals
Kinetics
Oily sludge
Pyrolysis
Total petroleum hydrocarbons (TPHs)
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Summary:[Display omitted] •The inherent solids and petroleum organics in OS pyrolysis exhibited interactions.•The pyrolytic products and pollutants were distinctly affected by mineral species.•CaO, MgO, Fe2O3, and Al2O3 obtained more pyrolysis gases and lower TPHs content.•Minerals inhibited pollutants at low temperature but opposite at high temperature. Considerable inherent minerals in oily sludge (OS) caused intricate effects on OS pyrolysis behaviors. This work investigated the effects of individual mineral on pyrolytic products and secondary pollutants by pyrolysis of artificial OS, which was prepared by assembling pure mineral chemicals (SiO2, CaO, MgO, Fe2O3, and Al2O3) with petroleum oil. Results showed that the effects of inherent minerals on OS pyrolysis tightly depended on pyrolysis temperature, where the thermal cracking and secondary reactions of heavy hydrocarbons were promoted at high temperature. Their effects also varied with inherent mineral species. The existence of SiO2 in OS had negligible influences on OS pyrolysis. CaO and MgO were favored for almost invariant quality of liquid product and the lowest total petroleum hydrocarbons (TPHs) content in solid residues. Because CaO and MgO weakened the stabilities of hydrogen bonds and hydroxyls groups and thus accelerating devolatilization of TPHs from OS. Fe2O3 and Al2O3 helped in the lower TPHs content in solid residues as well. Moreover, they were favored for more pyrolytic gases and long chain liquid product though the yield of liquid product decreased. It may attribute to the enhanced deoxidation and polymerization of Fe2O3 and Al2O3. Along with OS pyrolysis, inherent minerals tended to inhibit N/S/Cl-containing pollutants at the stage of dehydration and devolatilization (358 °C). This work might provide inspiration for getting insight into the OS pyrolysis behaviors and proposing clean fuel production strategies.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2021.133218