2. Interpretation of Batch Reactor Data
Completion requirements
2.1 Constant Volume Batch Reactor (CVBR)
Total Pressure Method (for gas phase reactions): \[aA + bB + \cdots \rightarrow rR + sS + \cdots\] The partial pressure of \(A\) (i.e., \(P_A\)) is given by \[P_A = C_A RT = P_{A0}-\frac{a}{\Delta n}(\pi - \pi_0)\] where
\(\Delta n\) = \((r+s+\cdots)-(a+b+\cdots\))
\(P_{A0}\) = partial pressure of \(A\) at initial time
\(\pi_0\) = initial total pressure
\(\pi\) = total pressure at time \(t\)
And, for product \(R\), we have \[P_R = C_R RT = P_{R0} + \frac{r}{\Delta n}(\pi-\pi_0)\] Caution: The ‘total pressure method’ is not to be used when
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the precise stoichiometry is not known, or
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more than one stoichiometric equation is required to represent the chemical reaction.