The residence-time distribution (RTD) function of a reactor (in min$^{-1}$) is
The mean residence time of the reactor is __________ min (rounded off to 2 decimal places).}
The residence-time distribution (RTD) function of a reactor (in min$^{-1}$) is
The mean residence time of the reactor is __________ min (rounded off to 2 decimal places).}
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Correct Answer: 0.04
Solution and Explanation
Step 1: Understand the RTD Function.
The RTD function is defined piecewise, with a linear decrease from 1 to 0 as time increases from 0 to 0.5 minutes and 0 thereafter.
Step 2: Calculate the Mean Residence Time.
The mean residence time $\tau$ can be calculated using the integral of $t \cdot E(t)$ over the effective time range: \[ \tau = \int_0^\infty t \cdot E(t) \, dt = \int_0^{0.5} t \cdot (1 - 2t) \, dt \] \[ \tau = \int_0^{0.5} (t - 2t^2) \, dt = \left[ \frac{t^2}{2} - \frac{2t^3}{3} \right]_0^{0.5} \] \[ \tau = \left( \frac{0.5^2}{2} - \frac{2(0.5)^3}{3} \right) = \frac{0.25}{2} - \frac{0.25}{3} \] \[ \tau = \frac{0.125 - 0.0833}{1} = 0.0417 { min} \] The mean residence time of the reactor is $0.042$ min, which is approximately $2.5$ seconds, rounding off to two decimal places.
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\[ E(t) = \begin{cases} 1 - 2t, & \text{if } t \leq 0.5\ \text{min} \\ 0, & \text{if } t > 0.5\ \text{min} \end{cases} \]
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