4- For the irreversible gas phase reaction A 2B The following correlation was determined from laboratory data. The initial concentration of A is 0.2 gmol/litre. 10-8 = 3 -TA m3.s For X < 0.5; mol 10-8 = 3 + 10(X – 0.5) -TA m3.s For X > 0.53; тol The volumetric flow rate is 5 m/s. a. Over what range of conversions are the plug-flow reactor and CSTR volumes identical? b. What conversion will be achieved in a CSTR that has a volume of 90 L? c. What plug-flow reactor volume is necessary to achieve 70% conversion? d. What CSTR reactor volume is required if effluent from the plug-flow reactor in part (c) is fed to a CSTR to raise the conversion to 90%? e. If the reaction is carried out in a constant-pressure batch reactor in which pure A is fed to the reactor, what length of time is necessary to achieve 40 % conversion?

4- For the irreversible gas phase reaction A— 2B The following correlation was determined from laboratory data. The initial concentration of A is 0.2 gmol/litre. 1p+8 md.s For X 0.5; =3+10(X - 0.5) ~Ti mol The volumetric flow rate is 5 m¥s. a. Over what range of conversions are the plug-flow reactor and CSTR volumes identical? b. What conversion will be achieved in a CSTR that has a volume of 90 L? c. What plug-flow reactor volume is necessary to achieve 70% conversion? d. What CSTR reactor volume is required if effluent from the plug-flow reactor in part (c) is fed to a CSTR to raise the conversion to 90%? e. If the reaction is carried out in a constant-pressure batch reactor in which pure A is fed to the reactor, what length of time is necessary to achieve 40 % conversion?

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4- For the irreversible gas phase reaction A → 2B The following correlation was determined from laboratory data. The initial concentration of A is 0.2 gmol/litre. m3.s 3 mol 10-8 For X < 0.5; -TA %3D 10-8 = 3 + 10(X – 0.5) -rA m3.s For X > 0.5; mol The volumetric flow rate is 5 m/s. a. Over what range of conversions are the plug-flow reactor and CSTR volumes identical? b. What conversion will be achieved in a CSTR that has a volume of 90 L? c. What plug-flow reactor volume is necessary to achieve 70% conversion? d. What CSTR reactor volume is required if effluent from the plug-flow reactor in part (c) is fed to a CSTR to raise the conversion to 90%? e. If the reaction is carried out in a constant-pressure batch reactor in which pure A is fed to the reactor, what length of time is necessary to achieve 40 % conversion?