The production of dihydrogen gas via water-gas shift reaction of given below :
`CO(g) + H_(2)O(g) underset("catalyst")overset(Delta)to CO_(2)(g) + H_(2)(g)`
The `CO_(2)` gas is removed by scrubbing with solution of

For the reaction, CO(g) + H_(2)O(g) rarr CO_(2)(g) + H_(2)(g) , at a given temperature, the equilibrium amount of CO_(2) (g) can be increased by:

For the reaction CO(g) +H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) at a given temperature the equilibrium amount of CO_(2) (g) can be increased by

Mg_(3)N_(2)overset(H_(2)O)rarr A("gas") overset(CuO)underset(Delta)rarr B+C(g) +H_(2)O, C(g) can be obtained by heating:

Dihydrogen gas used in Haber's process is produced by reacting methane from natural gas with high temperature steam. The first stage of the two 2 stage reaction involves the formation of CO and H_(2) . In second stage, CO formed in first stage is reacted with more steam in water gas shift reaction, CO(g)+H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) If a reaction vessel at 400^(@)C is charged with an equimolar mixture of CO and steam such that p_(CO)=p_(H_(2)O)=4.0 bar, what will be the partial pressure of H_(2) at equilibrium? K_(p)=10.1 at 400^(@)C .