(2018) Journal of CO2 Utilization_The enhanced thermolysis of heavy oil contaminated soil using CO2 for soil remediation and energy recovery
Lee T., Nam I.-H., Kim J.-H., Zhang M., Jeong T.Y., Baek K., Kwon E.E.
(Elsevier Ltd) Journal of CO2 Utilization ISSN: 22129820 Vol.28 Issue. Article No. DOI: 10.1016/j.jcou.2018.10.017
The enhanced thermolysis of heavy oil contaminated soil using CO2 as reaction medium for the simultaneous soil remediation and energy recovery was investigated. To avoid any complexities arising from the heterogeneous matrix of soil, heavy oil contaminated soil was artificially mimicked by means of homogenizing sand and bunker C (the mass ratio of sand to oil was adjusted as 10). The TGA (thermo-gravimetric analysis)/DTG (differential thermogram)/DSC (differential scanning calorimeter) tests of bunker C oil in N2 and CO2 revealed that all physical aspects ruling mass loss, thermal degradation rate, and energy input were not affected by reaction medium (CO2). However, all pyrogenic products were noticeably modified in the thermal degradation of bunker C oil contaminated soil in the CO2 environment under the ambient pressure. In detail, shifting carbon distribution from the liquid products to the gaseous products (syngas) in the presence of CO2 was observed. Also, the thermal degradation of bunker C oil contaminated soil led to carbon fixation onto soil, but the surface morphologies of charring material was modified in the presence of CO2. Considering that no leaching of any chemical species from charring material, pyrolysis of heavy oil could be a viable option to remediate and stabilize heavy oil contaminated soil while recovering energy. Employing CO2 as reaction medium in the thermolysis of heavy oil contaminated soil could provide a strategic means for the soil remediation contaminated with organic pollutants by means of modifying all pyrogenic products without an additional energy input. © 2018 Elsevier Ltd. All rights reserved.
This study was supported by Korea Institute of Geoscience and Mineral Resources (KIGAM) Basic Research Project (No. 18-3413 ).
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