Answer:
[tex]x_H=0.882[/tex]
[tex]x_N=0.118[/tex]
Explanation:
In this reactor, oleic and linoleic acid react with hydrogen to form stearic acid. This reactions can be represented by:
Oleic: [tex]C_{18}H_{34}O_2 (l) + H_2 (g) \longrightarrow C_{18}H_{36}O_2 (l)[/tex]
Linoleic: [tex]C_{18}H_{32}O_2 (l) + 2 H_2 (g) \longrightarrow C_{18}H_{36}O_2 (l)[/tex]
Having this reactions in mind, the first thing is to determine the moles of hydrogen required:
Base of caculation: 1 mol of sunflower oil
For oleic acid: [tex]n_{Holeic}=\frac{1 mol H_2}{1 mol oleic}*\frac{0.27 mol oleic}{1 mol oil}*\frac{335 mol oil}{hr}[/tex]
[tex]n_{Holeic}=frac{90.45 mol H_2}{hr}[/tex]
For linoleic acid: [tex]n_{Hlinoleic}=\frac{2 mol H_2}{1 mol linoleic}*\frac{0.59 mol linoleic}{1 mol oil}*\frac{335 mol oil}{hr}[/tex]
[tex]n_{Holeic}=frac{395.3 mol H_2}{hr}[/tex]
[tex]n_{Htotal}=\frac{90.45 mol H_2}{hr}+\frac{395.3 mol H_2}{hr}[/tex]
[tex]n_{Htotal}=frac{485.75 mol H_2}{hr}[/tex]
Applying the excess:
[tex]n_{Htotal}=frac{485.75 mol H_2}{hr}*1.65=801.48 mol[/tex]
Nitrogen: [tex]n_N= 801.48 mol*\frac{0.05 mol N}{0.95 mol}[/tex]
[tex]n_N= 42.2 mol N[/tex]
After the reactions:
[tex]n_H=801.48 mol-485.75mol=315.73 mol[/tex]
and the nitrogen is inert.
Purge stream:
[tex]n_total=42.2+315.73 mol=357.93 mol[/tex]
[tex]x_H=\frac{315.73mol}{357.93mol}=0.882[/tex]
[tex]x_N=\frac{42.2mol}{357.93mol}=0.118[/tex]
