Issue 15, 2024

Process intensified lauric acid self-ketonization and its economic and environmental impact on biolubricant base oil production

Abstract

Lubricant base oils, traditionally derived from non-renewable petroleum, contribute significantly to greenhouse gas emissions. In contrast, oils sourced from furfural and long-chain ketones through aldol condensation and hydrodeoxygenation present a renewable, cost-effective, and environmentally friendly alternative, offering superior cold flow properties. However, the production of long-chain ketones, a crucial component, currently relies on solvent dewaxing in refineries, which is costly and non-selective. One promising biobased approach involves self-ketonization of long-chain fatty acids derived from coconut or palm kernel oils. This method typically employs high boiling point solvents like dodecane or is done in a batch configuration, limiting its scale and industrial viability. This study addresses this bottleneck by eliminating solvents, transitioning to a continuous flow reactor, and achieving kilogram-scale production of long-chain ketones with exceptional selectivity (90%). The lab-scale setup can yield up to 25 kg of 12-tricosanone per month, utilizing earth-abundant MgO as a catalyst. The catalyst underwent slight deactivation due to carbonate formation. Catalyst stabilization, using mixed metal oxides, and regeneration via simple calcination in air are also discussed. Techno-economic analysis (TEA) indicates a 29% lower minimum selling price than the commercial synthetic poly alpha olefin (PAO). Life cycle assessment (LCA) evaluates the global warming potential (GWP) under different environmental assumptions. Under the carbon-neutral assumption for lauric acid production, an 8.9% reduction in GWP was achieved compared to petroleum-based lubricants.

Graphical abstract: Process intensified lauric acid self-ketonization and its economic and environmental impact on biolubricant base oil production

Supplementary files

Article information

Article type
Paper
Submitted
09 Apr 2024
Accepted
01 Jul 2024
First published
03 Jul 2024
This article is Open Access
Creative Commons BY license

Green Chem., 2024,26, 8818-8830

Process intensified lauric acid self-ketonization and its economic and environmental impact on biolubricant base oil production

T. Goculdas, Z. Yuliu, S. Sadula, W. Zheng, B. Saha, A. Nanduri, M. Ierapetritou and D. G. Vlachos, Green Chem., 2024, 26, 8818 DOI: 10.1039/D4GC01721H

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