Modeling and optimization of mixing conditions for petroleum sludge modified bitumen using response surface methodology

•The synergistic effects of mixing conditions were modeled using RSM.•The addition of PS induces flexibility in bitumen.•PSMB complied with the storage stability and PI requirements of bitumen.•PS was found as an alternative material to partly replace the bitumen. This study investigates the feasibi...

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Published in:Construction & building materials 2020-12, Vol.264, p.120701, Article 120701
Main Authors: Memon, Abdul Muhaimin, Hartadi Sutanto, Muslich, Napiah, Madzlan, Khan, Muhammad Imran, Rafiq, Waqas
Format: Article
Language:English
Subjects:
Bitumen modification
Mixing conditions
Petroleum sludge
Response surface methodology
Storage stability
Waste materials
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cited_by cdi_FETCH-LOGICAL-c321t-6d8388c5f8a0558192dc9b57dcdd7ba2ae2b4b2427a858be15da535b8f86bba83
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creator Memon, Abdul Muhaimin
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description •The synergistic effects of mixing conditions were modeled using RSM.•The addition of PS induces flexibility in bitumen.•PSMB complied with the storage stability and PI requirements of bitumen.•PS was found as an alternative material to partly replace the bitumen. This study investigates the feasibility of adding petroleum sludge (PS) in bitumen to reduce the reliance on petroleum-based bitumen. This objective was achieved by modeling and optimizing the mixing conditions of petroleum sludge modified bitumen (PSMB) using response surface methodology (RSM) and physical characterization. The synergistic effects of mixing temperature and speed improved the stiffness of PSMB, while the mixing time first decreases and then increases the stiffness of PSMB. Under optimal mixing conditions, the PSMB complied with the storage stability and penetration index criteria for bitumen modification. With these findings, PS can partly substitute the bitumen and reduce the risk of waste accumulation in petroleum refineries.
doi_str_mv 10.1016/j.conbuildmat.2020.120701
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subjects Bitumen modification
Mixing conditions
Petroleum sludge
Response surface methodology
Storage stability
Waste materials
title Modeling and optimization of mixing conditions for petroleum sludge modified bitumen using response surface methodology
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