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For isothermal, isobaric, catalytic gas-phase oxidation. C2H4 02 → C2H40 reaction follows the following reaction rate...
The following first-order gas-phase reaction occurs in an isothermal, isobaric PFR reactor: A->2B. There is 60%...
The following first-order gas-phase reaction occurs in an isothermal, isobaric PFR reactor: A->2B. There is 60% A and 40% inert in the initial feed. If the volumetric flow rate at the outlet of the reactor is 1.3 times of the one at entrance, calculate the conversion rate of the reactor. Assume ideal gas law (PQ = NRT)
Ethylene oxide is produced by the catalytic oxidation of ethylene: C2H4 (g) + 1/2 O2 (g)...
Ethylene oxide is produced by the catalytic oxidation of ethylene: C2H4 (g) + 1/2 O2 (g) --> C2H4O (g) An undesired competing reaction is the combustion of ethylene to CO2. The feed to a reactor contains 2 mol C2H4/mol O2. The conversion and yield in the reactor are respectively 25% and 0.70 mol C2H4O produced/mol C2H4 consumed. A multiple-unit process separates the reactor outlet stream components: C2H4 and O2 are recycled to the reactor, C2H4O is sold, and CO2 and...
An isothermal (170 °C) isobaric (6 atm) catalytic gas-phase reaction is carried out in a fluidized...
An isothermal (170 °C) isobaric (6 atm) catalytic gas-phase reaction is carried out in a fluidized CSTR: Assume that the reaction is elementary. The feed (benzene and hydrogen) is stoichiometric with θ。= 50-. The rate constant defined wrt benzene is 53 mol / (kgcat * min * atm) at 300 K with activation energy of 80 kJ/mol. What catalyst weight is required to reach 80% conversion? Hint: Use ideal gas law to relate pressure to concentrations (note the units of...
Problem 4.78 Ethylene Oxide Production Ethylene oxide is produced by the catalytic oxidation of ethylene 2C2Н4...
Problem 4.78 Ethylene Oxide Production Ethylene oxide is produced by the catalytic oxidation of ethylene 2C2Н4 + 02 - 2C,Ндо An undesired competing reaction is the combustion of ethylene C2H43022CO22H20 The feed to the reactor (not the fresh feed to the process) consists of 3.00 moles of ethylene per mole of oxygen The single-pass conversion the reactor products. ethylene to either ethylene oxide or carbon dioxide is 20.0 %, and for every 100.0 moles of ethylene consumed in the reactor,...
. (5pt) Ethylene oxide is produced by the catalytic oxidation of cthylenc C3H4 + O2 →...
. (5pt) Ethylene oxide is produced by the catalytic oxidation of cthylenc C3H4 + O2 → C2H40 An undesired competing reaction is the combustion of ethylene CO2 + H2O C2H4 + O2 The feed to the reactor contains 4 moles of ethylene per mole of oxygen, while the oxygen contains 0.4% inerts. The single pass conversion of ethylene is 15% and for every 100 moles of ethylene consumed in the reactor, 80 moles of ethylene oxide emerges in the reactor...
Question # 3 (10 points) The isothermal, isobaric elementary gas phase reaction A+B -+ 2C is...
Question # 3 (10 points) The isothermal, isobaric elementary gas phase reaction A+B -+ 2C is performed in a Plug Flow Reactor. The feed contains A-20% and B=80%. The total feed flows at 100 mol/min and 5 m/min. The rate constant, k-0.16m/(mol. min). Calculate the volume of the reactor at 70% conversion of component A for the following cases: a- Case 1: Assume B is an excess reactant b- Case 2: B is NOT an excess reactant C- Compare the...
The following elementary gas phase reaction A+2B—>C+D Feed is A/B= 1/3 mol A/I =4/1 (mole basis)...
The
following elementary gas phase reaction
A+2B—>C+D
Feed is A/B= 1/3 mol A/I =4/1 (mole basis)
is to be carried out in an isothermal CSTR. Given that:
T=500C
P=5 atm
Ea=15500cal/gmol
A=1.5e4
K=A*exp^(-Ea/RT)
Qo= 100 L/s
Reactor volume= 20,000L
a) what are the exit molar flow rates? Fa, Fb, Fc, Fd,
Fi
b) what is the exit volumetric flow rate Q?
2. The following elementary irreversible gas-phase reaction: A+2B >C+D Is to carried out in an isothermal CSTR. Given that:...
An isothermal (170 °C) isobaric (6 atm) catalytic gas-phase reaction is carried out in a fluidized CSTR: Assume that the reaction is elementary. The feed (benzene and hydrogen) is stoichiometric with θ。= 50-. The rate constant defined wrt benzene is 53 mol / (kgcat * min * atm) at 300 K with activation energy of 80 kJ/mol. What catalyst weight is required to reach 80% conversion? Hint: Use ideal gas law to relate pressure to concentrations (note the units of...
Problem 4.78 Ethylene Oxide Production Ethylene oxide is produced by the catalytic oxidation of ethylene 2C2Н4 + 02 - 2C,Ндо An undesired competing reaction is the combustion of ethylene C2H43022CO22H20 The feed to the reactor (not the fresh feed to the process) consists of 3.00 moles of ethylene per mole of oxygen The single-pass conversion the reactor products. ethylene to either ethylene oxide or carbon dioxide is 20.0 %, and for every 100.0 moles of ethylene consumed in the reactor,...
. (5pt) Ethylene oxide is produced by the catalytic oxidation of cthylenc C3H4 + O2 → C2H40 An undesired competing reaction is the combustion of ethylene CO2 + H2O C2H4 + O2 The feed to the reactor contains 4 moles of ethylene per mole of oxygen, while the oxygen contains 0.4% inerts. The single pass conversion of ethylene is 15% and for every 100 moles of ethylene consumed in the reactor, 80 moles of ethylene oxide emerges in the reactor...
Question # 3 (10 points) The isothermal, isobaric elementary gas phase reaction A+B -+ 2C is performed in a Plug Flow Reactor. The feed contains A-20% and B=80%. The total feed flows at 100 mol/min and 5 m/min. The rate constant, k-0.16m/(mol. min). Calculate the volume of the reactor at 70% conversion of component A for the following cases: a- Case 1: Assume B is an excess reactant b- Case 2: B is NOT an excess reactant C- Compare the...
The
following elementary gas phase reaction
A+2B—>C+D
Feed is A/B= 1/3 mol A/I =4/1 (mole basis)
is to be carried out in an isothermal CSTR. Given that:
T=500C
P=5 atm
Ea=15500cal/gmol
A=1.5e4
K=A*exp^(-Ea/RT)
Qo= 100 L/s
Reactor volume= 20,000L
a) what are the exit molar flow rates? Fa, Fb, Fc, Fd,
Fi
b) what is the exit volumetric flow rate Q?
2. The following elementary irreversible gas-phase reaction: A+2B >C+D Is to carried out in an isothermal CSTR. Given that:...
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