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Question 8.6: Steel wool is placed inside a cylinder filled with molecular...

Steel wool is placed inside a cylinder filled with molecular oxygen O_2, considered as an ideal gas. A piston ensures a constant pressure of the gas. The steel wool reacts with the molecular oxygen to form iron rust Fe_2O_3 ,

2 Fe+ \frac{3}{2} O_2 → Fe_2O_3 .

The reaction is slow, so that the gas remains at ambient temperature T_0. Determine the heat Q_{if}, the work W_{if} and the internal energy variation ΔU_{if} in terms of the enthalpy of reaction ΔH_{if} for a reaction involving two moles of iron.

Numerical Application:

ΔH_{if} = −830 kJ, T_0 = 25°C.

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Since the system is coupled to a work reservoir at constant pressure, according to the relation (4.61) the heat transfer Q_{if} is equal to the enthalpy of reaction,

Q_{if} = ΔH_{if}           (4.61)

Q_{if} = ΔH_{if} = −830 kJ.

According to relation (2.28), the work W_{if} performed on the ideal gas at constant pressure p_0 is given by,

W_{if} =\int_{i}^{f}{\delta W} = – \int_{V_i}^{V_f}{p(V)dV}   (reversible adiabatic process)     (2.28)

W_{if} = – \int_{V_i}^{V_f}{p_0 dV}  = -P_0 \int_{V_i}^{V_i -ΔV}{dV} = p_0 ΔV .

When two moles of iron are consumed 3/2 moles of molecular oxygen O_2 are oxidised, i.e. ΔN = 3/2. The change in volume of the molecular oxygen ΔV at constant pressure p_0 is expressed as,

p_0 ΔV = Δ N R T_0 .

Thus, the work W_{if} is recast as,

W_{if} = p_0 ΔV = Δ N R T_0 = 3, 715 kJ.

According to the first law (1.44), the internal energy variation ΔU_{if} is given by,

ΔU_{if} = W_{if} + Q_{if}           (closed system)                  (1.44)

ΔU_{if} = W_{if} + Q_{if} = 2, 885 kJ.

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