In chemical engineering, plug flow reactors (that is, those in which fluid flows from one end to the other with minimal mixing along the longitudinal axis) are often used to convert reactants into products. It has been determined that the efficiency of the conversion can sometimes be improved by recycling a portion of the FIGURE P8.2 Schematic representation of a plug flow reactor with recycle. In 1 + R ( 1 − X A f ) R ( 1 − X A f ) = R + 1 R [ 1 + R ( 1 − X A f ) ] Where X A f = the fraction of reactant A that is converted to product B. The optimal recycle rate corresponds to the minimum-sized reactor needed to attain the desired level of conversion. Use a numerical method to determine the recycle ratios needed to minimize reactor size for a fractional conversion of X A f = 0.9 .
In chemical engineering, plug flow reactors (that is, those in which fluid flows from one end to the other with minimal mixing along the longitudinal axis) are often used to convert reactants into products. It has been determined that the efficiency of the conversion can sometimes be improved by recycling a portion of the FIGURE P8.2 Schematic representation of a plug flow reactor with recycle. In 1 + R ( 1 − X A f ) R ( 1 − X A f ) = R + 1 R [ 1 + R ( 1 − X A f ) ] Where X A f = the fraction of reactant A that is converted to product B. The optimal recycle rate corresponds to the minimum-sized reactor needed to attain the desired level of conversion. Use a numerical method to determine the recycle ratios needed to minimize reactor size for a fractional conversion of X A f = 0.9 .
In chemical engineering, plug flow reactors (that is, those in which fluid flows from one end to the other with minimal mixing along the longitudinal axis) are often used to convert reactants into products. It has been determined that the efficiency of the conversion can sometimes be improved by recycling a portion of the
FIGURE P8.2
Schematic representation of a plug flow reactor with recycle.
In
1
+
R
(
1
−
X
A
f
)
R
(
1
−
X
A
f
)
=
R
+
1
R
[
1
+
R
(
1
−
X
A
f
)
]
Where
X
A
f
=
the fraction of reactant A that is converted to product B. The optimal recycle rate corresponds to the minimum-sized reactor needed to attain the desired level of conversion. Use a numerical method to determine the recycle ratios needed to minimize reactor size for a fractional conversion of
X
A
f
=
0.9
.
Probability and Statistics for Engineers and Scientists
Knowledge Booster
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, advanced-math and related others by exploring similar questions and additional content below.