화학공학소재연구정보센터
Energy, Vol.116, 592-600, 2016
High-methane gasification of fuels from waste - Experimental identification
The paper presents experimental research on innovative technology of RDF fuel produced from combustible waste (other than hazardous) gasification. The gasification process was performed in the compact bed, in the laboratory tubular gas generator with a power of 5 kW. In the first place RDF fuel, not enriched with methane, was gasified with addition of Bio-CONOx. Next, cogasification was performed with 10, 15 and 20% addition of methane-forming formulation. The results indicated that the addition of Bio-CONOx to the fuel resulted in an increase in the content of CH4 in the syngas (8% - without addition of Bio-CONOx to 18% CH4 with 20% addition of Bio-CONOx). At the same time there was an increase in shares of other combustible components of syngas (CO and H-2). Enriching fuel with the additive Bio-CONOx increased the calorific value of the syngas LHV from 4 MJ/Nm(3) (RDF) to 9 MJ/Nm(3) (RDF fuel with 20% addition of Bio-CONOx). Studies have shown that the increase in efficiency of the gasification process has been obtained by setting the process conditions in a tubular reactor, i.e. temperature decomposition: 400-450 degrees C in the layer of fuel and 800-850 degrees C in the gas zone above the layer of fuel. Such temperature distribution in the layer of fuel favors exothermic process of hydrogenation of CO and CO2 to CH4 form and evaporation and decomposition of fat fraction contained in methane forming supplement. At high temperatures over a layer of fuel (in the atmosphere of unreacted oxygen), some organic vapours (greases and tars) were burnt, and some underwent cracking. (C) 2016 Elsevier Ltd. All rights reserved.