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Coupled Thermal Desorption–Thermal Plasma Methods for Diesel-Contaminated Soil Remediation and Syngas Production

Author

Listed:
  • Dovilė Gimžauskaitė

    (Plasma Processing Laboratory, Lithuanian Energy Institute, Breslaujos Str. 3, 44403 Kaunas, Lithuania)

  • Jūratė Žaltauskaitė

    (Department of Environmental Sciences, Vytautas Magnus University, Universiteto 10, 44248 Kaunas, Lithuania)

  • Justas Eimontas

    (Laboratory of Combustion Processes, Lithuanian Energy Institute, Breslaujos Str. 3, 44403 Kaunas, Lithuania)

  • Vilmantė Kudelytė

    (Laboratory of Combustion Processes, Lithuanian Energy Institute, Breslaujos Str. 3, 44403 Kaunas, Lithuania)

  • Mindaugas Aikas

    (Plasma Processing Laboratory, Lithuanian Energy Institute, Breslaujos Str. 3, 44403 Kaunas, Lithuania)

  • Rolandas Uscila

    (Plasma Processing Laboratory, Lithuanian Energy Institute, Breslaujos Str. 3, 44403 Kaunas, Lithuania)

  • Gintarė Sujetovienė

    (Department of Environmental Sciences, Vytautas Magnus University, Universiteto 10, 44248 Kaunas, Lithuania)

  • Austra Dikšaitytė

    (Department of Environmental Sciences, Vytautas Magnus University, Universiteto 10, 44248 Kaunas, Lithuania)

  • Liutauras Marcinauskas

    (Plasma Processing Laboratory, Lithuanian Energy Institute, Breslaujos Str. 3, 44403 Kaunas, Lithuania)

  • Irena Vaškevičienė

    (Laboratory of Heat-Equipment Research and Testing, Lithuanian Energy Institute, Breslaujos Str. 3, 44403 Kaunas, Lithuania)

Abstract

Diesel is a major soil contaminant that poses significant environmental risks, making its removal essential. This study investigates the synergistic application of thermal desorption (TD) and thermal plasma for the remediation of diesel-contaminated soil, while simultaneously converting desorbed contaminants into valuable gaseous products. Artificially contaminated soil (25 g/kg) was treated by TD at 250–300 °C and the resulting off-gas and volatilized diesel were subsequently processed in a thermal plasma system. Soil samples were characterized using CHNS, EDX, FTIR, and TGA/DTG analyses, while gas composition was determined using a gas analyzer. The results demonstrate that TD achieved diesel removal efficiencies of up to 86% at 300 °C and 65% at 250 °C. TD off-gas and volatilized diesel were predominantly converted into synthesis gas (H 2 + CO) in a thermal plasma environment, with H 2 and CO concentrations reaching up to 15.49 vol% and 7.61 vol%, respectively, depending on the plasma-forming gas, carrier gas flow rate, and remediation temperature. Thermal treatment of diesel-contaminated soil significantly altered key physicochemical properties, including reduced organic matter content, increased soil compaction, and temperature-dependent shifts in pH and nitrogen speciation (decreased NO 3 − -N and increased NH 4 + -N). These changes were accompanied by enhanced phosphorus availability, indicating substantial thermally induced transformation of soil nutrients. Phytotoxicity assessment using Lepidium sativum in a soil leachate-based bioassay indicated that higher treatment temperature (300 °C) increased toxicity and inhibited plant growth, whereas treatment at 250 °C resulted in lower phytotoxicity. These findings highlight the adaptability of the proposed combination of methods enabling effective soil remediation while supporting energy recovery.

Suggested Citation

  • Dovilė Gimžauskaitė & Jūratė Žaltauskaitė & Justas Eimontas & Vilmantė Kudelytė & Mindaugas Aikas & Rolandas Uscila & Gintarė Sujetovienė & Austra Dikšaitytė & Liutauras Marcinauskas & Irena Vaškeviči, 2026. "Coupled Thermal Desorption–Thermal Plasma Methods for Diesel-Contaminated Soil Remediation and Syngas Production," Sustainability, MDPI, vol. 18(10), pages 1-26, May.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:10:p:5210-:d:1948620
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