Obtaining humic substances from a carbonaceous industrial residue

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Authors

  • Victor Alejandro Suárez-Toriello C. CONACYT-CIATEC, Omega 201, Industrial Delta, 37545 León, GTO, México
  • Z. Y. Méndez-Martínez CIATEC, A.C., Omega 201, Industrial Delta, 37545 León, GTO, México.
  • J. I. Cervantes-Arista CIATEC, A.C., Omega 201, Industrial Delta, 37545 León, GTO, México
  • M. F. López-Núñez Universidad de Guanajuato, Noria Alta s/n, 36050 Guanajuato, GTO, México
  • Liliana Villafaña-López CIATEC, A.C., Omega 201, Industrial Delta, 37545 León, GTO, México
  • Juan José Quiroz- Ramírez C. CONACYT-CIATEC, Omega 201, Industrial Delta, 37545 León, GTO, México
  • Ricardo Guerra-Sánchez CIATEC, A.C., Omega 201, Industrial Delta, 37545 León, GTO, México

DOI:

https://doi.org/10.56845/rebs.v2i1.17

Keywords:

oxidation, soluble organic compounds, coke

Abstract

In the refining of bio- and petro-oils, solid carbonaceous residues are obtained whose final destination is combustion. It is possible to take advantage of these residues through the oxidation technique in an aqueous medium, producing soluble oxygenated organic compounds, analogous to humic substances: humic acids, fulvic acids and humins (Ashtari, et al., 2016). Humic substances possess a large amount of phenolic and carboxylic groups, which provide them with characteristics for crop development. These include colloidal action on clays, ion exchange capacity, chelating action for metal capture and stimulation of soil micro-fauna and -flora. Additionally, they can be used in the formulation of lubricants, adsorbents and fuels (Martinez et al., 2013). This work explores the transformation of the carbonaceous residue of heavy oil coking, through its oxidation in an aqueous medium for the production of soluble organic compounds, with potential application in soil improvement and other applications, in such a way that it contributes to increase sustainability in the hydrocarbon production chain.

References

Ashtari, M., Carbognani, L., Lopez, F., Eldood, A., & Pereira, P. (2016). New Pathways for Asphaltenes Upgrading Using the Oxy- Cracking Process. Energy Fuels, 30(6), 4596–4608.

Martinez, C.M., Alvarez, L.H., Celis, L.B., & Cervantes, F.J. (2013). Humus-reducing microorganisms and their valuable contribution in environmental processes. Appl. Microbiol. Biotechnol, 97(24), 10293–1030

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Published

2020-06-08

How to Cite

Suárez-Toriello, V. A., Méndez-Martínez, Z. Y., Cervantes-Arista, J. I., López-Núñez, M. F., Villafaña-López, L., Quiroz- Ramírez, J. J., & Guerra-Sánchez, R. (2020). Obtaining humic substances from a carbonaceous industrial residue. Renewable Energy, Biomass & Sustainability, 2(1), 4. https://doi.org/10.56845/rebs.v2i1.17

Issue

Vol. 2 No. 1 (2020)

Section

Original Articles

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This work is licensed under a Creative Commons Attribution 4.0 International License.