Solution:
Saline hydrides [i.e.,LiH, NaH etc.] respond with water to shape hydrogen gas
Furthermore, a base. The synthetic condition to address this response is
$M H_{(g)}+H_{2} O_{(a q)} \rightarrow M O H_{(a q)}+H_{2(g)}$
This response acts brutal and furthermore fire is created from this.
Dioxygen loads lighter than $\mathrm{CO}_{2} . \mathrm{CO}_{2}$ is ordinarily utilized as fire quencher as it covers the fire like cover and represses the dioxygen supply, in this way splashing the fire.
It tends to be utilized in this situation too. It loads higher than di hydrogen and viable in disengaging the consuming surface from dioxygen and dihydrogen.