Abstract In coal mine fire rescues, if the abnormal increase of gas concentration occurs, it is the primary thing to analyze the reasons and identify sources of the abnormal forming, which is also the basis of judge the combustion state of fire area and formulate proper fire reliefs. Nowadays, related researches have recognized the methane explosion as the source of high concentration of $ H_{2} $ formation, but there are few studies about the conditions and reaction mechanism of gas explosion generating high concentration of $ H_{2} $.Therefore, this paper uses the chemical kinetic calculation software, ChemKin, and the 20L spherical explosion experimental device to simulate the generating process and formation conditions of $ H_{2} $ in gas explosion. The experimental results show that: the decomposition of water vapor is the main base element reaction (R84) which leads to the generation of $ H_{2} $.The free radical H is the key factor to influence the formation of $ H_{2} $ generated from gas explosion. With the gradual increase of gas explosion concentration, the explosive reaction becomes more incomplete, and then the generating quantity of $ H_{2} $ increases gradually. Experimental results of 20L spherical explosion are consistent with the change trend about simulation results, which verifies the accuracy of simulation analysis. The results of explosion experiments show that when gas concentration is higher than 9%, the incomplete reaction of methane explosion increases which leads to the gradual increase of $ H_{2} $ formation.
Numerical Simulation and Experimental Study on Formation of High Concentration of $ H_{2} $ Generated by Gas Explosion
Polish Maritime Research ; 23 , s1
2016
Aufsatz (Zeitschrift)
Unbekannt
DOAJ | 2016
|3-D numerical simulation of underwater explosion bubble
British Library Online Contents | 1996
|3-D numerical simulation of underwater explosion bubbles
British Library Online Contents | 1996
|Numerical Simulation of Excrescence Generated Transition
Online Contents | 2014
|Numerical Simulation of Excrescence Generated Transition
British Library Conference Proceedings | 2013
|