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2) ZA → B is a gas-phase elementary reaction carried out in a PFR. Conversion of...
(3) The gas phase reaction 2A +B- C is carried out in an isothermal PFR without pressure drop. At the entrance, the feed contains 1/2 molar fraction of A, 1/3 molar fraction of B and 1/6 molar fraction of inert chemical I. The entrance temperature is 500K and the entrance pressure is 16.4 atm. If the conversion of A at the exit is 0.8, what is the conversion of B?
a catalytic reaction of gas phase A-R is carried out
in a PFR containing 0.01 kg of solid catalyst, feed rate, Fao =
1500mol / hour. the reactor is operated at 3.2 atm and 117 C.
kinetics data are shown in the following table
determine :
a. reaction order
b.weight of catalyst required of conversion is 35%
uToper 3 2 Run 0,040 0,038 0,060 0,080 0,100 0,084 CAins mol/liter 0,055 0,070 Caut mol/liter
The elementary gas phase reaction (A <--> 2B) is to be carried out in an adiabatic CSTR. The feed which is at a temperature of 27oC, consists of 80% of A and the remainder inerts. The volumetric flow rate entering the reactor at this temperature is 100 l/min. The concentration of A in the feed at 27oC is 0.5 mol/liter. For 80% of the adiabatic equilibrium conversion, calculate the required reactor volume. DATA: CpA=12 J/mol.K; CpB=10 J/mol.K; CpI=15 J/mol.K deltaHrxn=-75000...
Question 4. A gas phase reaction of the type A+B - C, is to be carried out isothermally in a PFR. A feed consisting of 90% of A and 10% of B enters the reactor at a temperature of 27 °C and 10 atm. The reaction is second order with respect to A and zero order with respect to B. The rate constant, ka, is 1.5 dm²/mol.s. a) Calculate the volume required to achieve 60% conversion of A for an...
The irreversible elementary gas-phase reaction A + B ) C + D is carried out isothermally at 305K in a packed bed reactor with 100 kg catalyst of particle size 8 mm. The entering pressure is 20 atm and the exit pressure is 2 atm. The feed rate is equal molar in A and B and the flow is in the turbulent flow regime, with FA0-10 mol/min and CA 0.4 mol/dm3. Currently 80% conversion is achieved. a) What would be...
3. The gas phase reaction A B -C, withkCACB, is to be carried out in a steady-state PFR with feed composition of 60% A. 40% B, 0% C and 0% inerts. In the 50 L reactor, 60% of the stoichiometrically limiting reactant is converted. It is desired to achieve 85% conversion of this reactant by placing a CSTR after the PFR. How large should the CSTR be? Consider constant pressure operation in both reactors.
a catalytic reaction of gas phase A-R is carried out
in a PFR containing 0.01 kg of solid catalyst, feed rate, Fao =
1500mol / hour. the reactor is operated at 3.2 atm and 117 C.
kinetics data are shown in the following table
determine :
a. reaction order
b.weight of catalyst required of conversion is 35%
uToper 3 2 Run 0,040 0,038 0,060 0,080 0,100 0,084 CAins mol/liter 0,055 0,070 Caut mol/liter
uToper 3 2 Run 0,040 0,038 0,060...
The elementary, reversible gas phase reaction A B is to be carried out in a CSTR with heat exchange. Pure A is fed to the reactor. The heat exchange coil in the reactor is maintained at 400K. The rate coefficient is known at 400K, but heat of reaction is unknown. Data: k1(400K) = 0.001 s.! V-1000L To=350K R-831 J/mol K h 5 mol's UA 1000 J/K Kea (450K-1 A) Calculate the conversion (X) if the steady state CSTR is operated...
The elementary gas reaction (CH2CO)2O + H2O2CH3COOH is carried outisothermally in a PFR with volume of 0.311 dm3 Comparethe conversion for each cases and (a) and (b); (a) first-order reaction (b) if it were a second-order reaction The following given information is given: Entering Volumetric flow rate v0= 0.0033 dm3/s Acetic Anhydride 7.8% (1M) Water 92.2% (51.2M) Elementary with k 1.95x10-4dm3/(mol.s)
The elementary gas-phase reaction A+B <----> 2C in P11-8B
is now continued and carried out in a packed bed reactor. The
entering molar flow rates are Fao=5 mol/s, Fbo= 2Fao, and Fi=2Fao
with Cao=0.2 mol/dm^3. The entering temperature is 325 K and a
coolant fluid is available at 300 K.
P12-9A Algorithm for reaction in a PBR with heat effects and pressure drop he elementary gas-phase reaction A+B 2C in P11-8B is now continued and carried out in packed-bed reactor....