Biological upgrading of heavy oil cuts using native microbial consortia as an environmental-friendly technology in petroleum refineries

Farideh Ghaipanjeh; Zhila Ziaei Rad; Jalal Shayegan; Mohammad Pazouki; Azarmidokht Hosseinnia

Biological upgrading of heavy oil cuts using native microbial consortia as an environmental-friendly technology in petroleum refineries

Publish place: Advances in Environmental Technology، Vol: 8، Issue: 3

Publish Year: 1401

نوع سند: مقاله ژورنالی

زبان: English

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https://civilica.com/doc/1557188

شناسه ملی سند علمی:

JR_AET-8-3_004

تاریخ نمایه سازی: 30 آبان 1401

Abstract:

Refineries are amongst the most energy-intensive and polluting industries in the world. Biotechnology may serve as an alternative low-cost and environmental-friendly tool to the current costly, toxic and hazardous refining processes. In this study, the compositional redistribution of a heavy hydrocarbon cut is investigated under biological conversion using native microbial consortia. The native consortia were obtained by batch enrichment method applied on oil-polluted soil samples from oil refineries of Iran. The bioconversion experiments were conducted with ۲۰% and ۴۰% (v/v) of the heavy cut as the sole carbon source and ۱۰% (v/v) of the consortia broth in ۲۵۰ ml flasks containing a mineral medium. The samples kept at ۳۰°C stirring at ۱۲۰ rpm for one week. The biotreated hydrocarbons were then separated and analyzed for determination of saturate, aromatic and resin fractions using column chromatography and gravimetric measurements. The results showed that the amounts of saturates increased by ۶% to ۹۲% while the resins decreased by ۱۰% to ۷۰% in most cases, compared to the blank. The GC-Mass analysis of the saturate fractions also revealed an increase in the cyclic and branched alkanes and a decrease in the S-containing and N-containing compounds.

Keywords:

Biological upgrading , Biocracking , Bioconversion , Petroleum , Heavy oil cut

Authors

Farideh Ghaipanjeh

Environment Group. Department of Energy, Materials and Energy Research Center, Meshkin-Dasht, Karaj, Iran

Zhila Ziaei Rad

Environment Group. Department of Energy, Materials and Energy Research Center, Meshkin-Dasht, Karaj, Iran

Jalal Shayegan

Chemical Engineering Department, Sharif University of Technology, Tehran, Iran

Mohammad Pazouki

Environment Group. Department of Energy, Materials and Energy Research Center, Meshkin-Dasht, Karaj, Iran

Azarmidokht Hosseinnia

Environment Group. Department of Energy, Materials and Energy Research Center, Meshkin-Dasht, Karaj, Iran

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