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Question 7.14: Problem: Calculate the specific volume of steam at a tempera...

Problem: Calculate the specific volume of steam at a temperature of 600 °C and pressure of 10 MPa using (a) steam tables, (b) the ideal gas equation and (c) the generalised compressibility charts.

Find: Specific volume of steam ν.

Known: Temperature T = 600 °C = 873.15 K, pressure P = 10 MPa.

Governing Equations:

Ideal gas equation                    Pν=RT

Compressibility factor            Z=\frac{Pν}{R_uT}

Properties: For water, gas constant R = 0.4615 kJ / kgK (Appendix 1), critical temperature T_C = 647.3 K and critical pressure P_C = 22.09 MPa (Table 7.1).

Table 7.1 Critical temperature (T_c), pressure (P_c) and volume (v_c) of common substances.
Substance Formula Temperature, T_c (K) Pressure, P_c (MPa) Volume, v̄_c (m^3 /kmol)
Air 132.5 3.77 0.0883
Ammonia NH_3 405.5 11.28 0.0724
Argon Ar 151 4.86 0.0749
Carbon dioxide CO_2 304.2 7.39 0.0943
Helium He 5.3 0.23 0.0578
Methane CH_4 191.1 4.64 0.0993
Nitrogen N_2 126.2 3.39 0.0899
Oxygen O_2 154.8 5.08 0.078
Water H_2O 647.3 22.09 0.0568
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(a) From the superheated steam tables (Appendix 8c) at T = 600 °C and P = 10 MPa, specific volume ν = 0.038 37 kg / m³.
(b) From the ideal gas equation,

\nu = \frac{RT}{P}=\frac{0.4615 \times 10^3 \ J/kgK \times 873.15 \ K}{10 \times 10^6 \ Pa}= 0.040 \ 296 \ m^3/kg.

(c) Using the generalised compressibility charts (Appendix 10), with reduced temperature

T_r= \frac{T}{T_c}=\frac{873.15 \ K}{647.3 \ K} =1.348 \ 95 =1.35

and reduced pressure

P_r= \frac{P}{P_c}= \frac{10 \ MPa}{22.09 \ MPa} = 0.452 \ 69=0.45,

then the compressibility factor Z = 0.95.

P=Z\frac{RT}{P}=0.95 \times \frac{0.4615 \times 10^3 \ J/kgK \times 873.15 \ K}{10 \times 10^6 \ Pa}=0.038 \ 281 m^3/kg.

Answer: The specific volume calculated using (a) superheated steam tables is 0.0384 kg / m³ , (b) ideal gas equation is 0.0403 kg / m³ and (c) generalised compressibility charts is 0.0383 kg / m³.

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