A gaseous mixture consisting of 60% by volume of SO2 and 40% by volume of O2 is introduced into a furnace at 1200K. Assuming the total pressure to be 1 atm, Find out the composition of the gas after it attains equilibrium in the furnace

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Asked: November 2, 20202020-11-02T13:07:08+05:30 2020-11-02T13:07:08+05:30In: Thermodynamics & Rate Processes

A gaseous mixture consisting of 60% by volume of SO2 and 40% by volume of O2 is introduced into a furnace at 1200K. Assuming the total pressure to be 1 atm, Find out the composition of the gas after it attains equilibrium in the furnace

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C Patel Metallurgy · Answer 1 · 2020-11-27T16:20:50+05:30

The answer might be like: 50 % SO3 25 % O2 25 % SO2 As at that temperature SO2 + 0.5o2 =SO3 So according to mole balance there shall be formation of SO3 from two reactants and finally the mixture will be as I mentioned.

The answer might be like:

50 % SO3

25 % O2

25 % SO2

As at that temperature SO2 + 0.5o2 =SO3

So according to mole balance there shall be formation of SO3 from two reactants and finally the mixture will be as I mentioned.

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A gaseous mixture consisting of 60% by volume of SO2 and 40% by volume of O2 is introduced into a furnace at 1200K. Assuming the total pressure to be 1 atm, Find out the composition of the gas after it attains equilibrium in the furnace

1 Answer

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