Question 11.13: Using the compressibility charts, find the pressure exerted ...
Using the compressibility charts, find the pressure exerted by 8.20 lbm of carbon monoxide in a 1.00 ft³ rigid tank at –78.0°F.
From Table C.12a, we find that
T_c = 240. \text{R}
p_c = 507 \text{psia}
and
v_c = \frac{1.49 \text{ft³/lbmole}}{28.011 \text{lbm/lbmole}} = 0.053 \text{ft³/lbm}
Also, from Table C.13a, we find that R = 0.0709 \text{Btu/lbm.R}. Then, we have
T_R = \frac{T}{Tc} = \frac{−78.0 + 460.}{240.} = 1.60
and
v =\frac{1.00 \text{ ft³}}{8.20 \text{lbm}} = 0.122 \text{ft³/lbm}
with
v′_c = \frac{RT_c}{p_c} = \frac{[0.0709 \text{Btu/(lbm.R)]}(240. \text{R})(778.16 \text{ft.lbf/Btu})}{(507 \text{lbf /in²})(144 \text{in²/ft²})} = 0.181 \text{ ft³/lbm}
so that
v′_R = \frac{v}{v′_c} = \frac{0.122}{0.181} = 0.67 (notice that we do not use the actual critical specific volume v_c here)
Using T_R = T/T_c = 1.60 and v′_R = v/v′_ c = 0.67, we find from Figure 11.6 that
p_R = \frac{p}{p_c} = 2.10 and Z = 0.850
Then, we can calculate
p = p_cp_R = 507 (2.10) = 1070 \text{psia}
