Archive/High-Temperature Gasification of Chlorinated Hydrocarbons: Thermodynamic Calculation
High-Temperature Gasification of Chlorinated Hydrocarbons: Thermodynamic Calculation
Sergey M. Frolov, Nikita V. Apalkov, Fedor S. Frolov
16 juillet 2026
en

Abstract

Conventional thermal disposal of chlorinated hydrocarbon (CHC) waste poses high risks of dioxin, furan, chlorine, and phosgene formation, while plasma destruction remains energy-intensive. This work determines the optimal thermodynamic conditions for the allothermal, non-catalytic steam—carbon dioxide gasification of various CHCs utilizing high-temperature detonation gases (2450–2850 K) expanded to atmospheric pressure to achieve non-toxic, valuable syngas and commercial-grade hydrochloric acid. Thermodynamic modeling ensures complete soot- and hydrocarbon-free conversion with 100% carbon conversion efficiency, dry syngas yield up to 5.7 Nm3/kg, and cold gas efficiency reaching 138%. For highly chlorinated (above 70 wt.% chlorine) or unsaturated feedstocks, a co-feeding method using external hydrocarbons (C4H8O2 as an example) was validated to suppress the formation of major ecotoxicants like Cl2, COCl2, and C2Cl2. As for other chlorine-containing ecotoxicants, including highly toxic dioxins, their concentrations in the equilibrium gasification products remain negligibly small, even in the absence of dilution. Importantly, a solvent mass fraction of no more than 0.33 in the initial blend is sufficient to entirely achieve this toxic species suppression. For all considered CHCs (undiluted or diluted with C4H8O2), chlorine is shown to bind exclusively to hydrogen chloride (HCl), with all hazardous emissions remaining below the conditional 1 ppm safety limit. To achieve this, a chlorine capture algorithm was substantiated based on the dissolution of generated HCl within the residual steam condensate or externally delivered water upon cooling the gasification products to 293 K. The proposed technology offers an efficient and environmentally safe alternative to expensive plasma methods for toxic organic waste disposal.

IPC Classification

G06H01

Keywords

high-temperaturegasificationchlorinatedhydrocarbonsthermodynamiccalculationwasteconventionalthermaldisposalhydrocarbonposeshighrisksdioxinfuranchlorinephosgeneformationwhileplasmadestructionremainsenergy-intensive
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