Litcius/Paper detail

Comparative study on the flame retardancy of CO2 and N2 during coal adiabatic oxidation process

Xiyang Fang, Bo Tan, Haiyan Wang

2023International Journal of Coal Science & Technology13 citationsDOIOpen Access PDF

Abstract

Abstract To test the effectiveness of N 2 and CO 2 in preventing coal from spontaneously combusting, researchers used an adiabatic oxidation apparatus to conduct an experiment with different temperature starting points. Non-adsorbed helium (He) was used as a reference gas, and coal and oxygen concentration temperature variations were analyzed after inerting. The results showed that He had the best cooling effect, N 2 was second, and CO 2 was the worst. At 70℃ and 110℃, the impact of different gases on reducing oxygen concentration and the cooling effect was the same. However, at the starting temperature of 150℃, CO 2 was less effective in lowering oxygen concentration at the later stage than He and N 2 . N 2 and CO 2 can prolong the flame retardation time of inert gas and reduce oxygen displacement with an initial temperature increase. When the starting temperature is the same, N 2 injection cools coal samples and replaces oxygen more effectively than CO 2 injection. The flame retardancy of inert gas is the combined result of the cooling effect of inert gas and the replacement of oxygen. These findings are essential for using inert flame retardant technology in the goaf.

Topics & Concepts

Inert gasOxygenInertCoalChemistryAdiabatic processLimiting oxygen concentrationCombustionHeliumSyngasAdiabatic flame temperatureAdsorptionChemical engineeringAnalytical Chemistry (journal)Waste managementInorganic chemistryThermodynamicsOrganic chemistryCatalysisPhysicsCombustorEngineeringCoal Properties and UtilizationCoal and Its By-productsThermochemical Biomass Conversion Processes
Comparative study on the flame retardancy of CO2 and N2 during coal adiabatic oxidation process | Litcius