1 TAME synthesis problem Tert-Amyl Methyl Ether (TAME) is an ...
1 TAME synthesis problem Tert-Amyl Methyl Ether (TAME) is an ...
1 TAME synthesis problem Tert-Amyl Methyl Ether (TAME) is an ...
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Some results<br />
For both cases, <strong>is</strong>othermal <strong>an</strong>d non-<strong>is</strong>othermal, the feed concentrations were the same:<br />
C<br />
C<br />
C<br />
C<br />
IN<br />
2M<br />
1B<br />
IN<br />
2M<br />
2B<br />
IN<br />
MeOH<br />
IN<br />
<strong>TAME</strong><br />
=<br />
=<br />
=<br />
= 0<br />
3.<br />
33<br />
3.<br />
33<br />
6.<br />
66<br />
mol / L<br />
mol / L<br />
mol / L<br />
These concentrations lead to a feed mole ratio MeOH/<strong>is</strong>oamylenes, RM/IA, of 1.0.<br />
a) Figures R.1, R.2 <strong>an</strong>d R.3 represent the concentration profiles for a 10 m 3 <strong>is</strong>othermal PFR, operating<br />
at 323 K, 343 K <strong>an</strong>d 363 K, <strong>an</strong>d a flow of 40 L/min.<br />
C (mol/L)<br />
7<br />
6<br />
5<br />
4<br />
3<br />
2<br />
1<br />
0<br />
Isothermal: T = 323 K<br />
RM/IA = 1, Q = 40 L/min<br />
0 0.2 0.4 0.6 0.8 1<br />
X<br />
2M1B 2M2B MeOH <strong>TAME</strong><br />
Fig. R.1: Concentration profiles for a 10 m 3 <strong>is</strong>othermal PFR operating at 323 K.<br />
12