T(N)=352 please I need the answer urgent
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T(N)=352 please I need the answer urgent
Question 1 The following gas phase reaction produces ethanol...
T(N)=436 T= 436 c Question 1 The following gas phase reaction produces ethanol (C2H5OH) by catalytic...
T(N)=436
T=
436 c
Question 1 The following gas phase reaction produces ethanol (C2H5OH) by catalytic hydrogenation of acetaldehyde (CH3CHO). The reaction reaches equilibrium at a temperature of T= T(N) and a pressure of 3 bar: CH,CHO (g)+ H2 (g)C,H,OH (g) The reactive system initially contains 1.5 moles of Hydrogen (H2) for each mole of acetaldehyde (CH3CHO). The mixture is assumed to be an ideal gas. T(N) is the temperature corresponding to the student number as shown in the attached...
The following gas phase reaction takes place in the presence of steam as inert (1) in...
The following gas phase reaction takes place in the presence of steam as inert (1) in a packed bed reactor operating adiabatically. A B+C -ra = k PA k [Pn-F Popc] kmol \kgcath) PA, PB, Pc : Partial pressure of the species in atm Equilibrium constant K can be taken as constant at a value of 0.4 atm at the studied temperature and forward reaction rate constant k, log k = 4- 5000 T(K) k: kmol atm.kgcath Using the data...
QUESTION 1 [ 10 MARKS) The gravimetric analysis of a gas mixture is 50% N, 40%...
QUESTION 1 [ 10 MARKS) The gravimetric analysis of a gas mixture is 50% N, 40% CO2 and 10% CH4 with a temperature of 407C and pressure of 1 bar. Calculate, 1.1 the partial pressure of each component, in bar. 1.2 the molar mass for the gas mixture, in kg/kmol. 1.3 the mass by 4 m of mixture, in kg. QUESTION 2 [ 10 MARKS) A vessel having a volume of 3 m'initially contains a mixture of Triatomic at 21°C,...
Please, answer the following question with clear steps and hand writing. And please, take a clear...
Please, answer the following question with clear steps and hand
writing. And please, take a clear picture of the answer.
I. A nonvolatile liquid contains 5.0 mol % methane and is being stripped by a gas in a stripping tray tower to reduce the methane content to 0.2%. The temperature is held constant at 422 K by internal heating in the tower at 2.026x105 Pa pressure. A total of 11.42 kmol of gas is used for 300 kmol of total...
4.66. Methanol is formed from carbon monoxide and hydrogen in the gas-phase reaction CO 2H2 CH3OH...
4.66. Methanol is formed from carbon monoxide and hydrogen in the gas-phase reaction CO 2H2 CH3OH (A) (B) (C) The mole fractions of the reactive species at equilibrium satisfy the relation 1 = Ke(T where P is the total pressure (atm), Ke the reaction equilibrium constant (atm2), and T the temperature (K). The equilibrium constant Ke equals 10.5 at 373 K, and 2.316 x 10-4 at 573 K. A semilog plot of Ke (logarithmic scale) versus 1/T (rectangular scale) is...
Please answer the question number 8. For a virial gas (to second order) this is not...
Please answer the question number 8.
For a virial gas (to second order) this is not so obvious since: (partialdifferential E/partialdifferential V)_T = RT^2/V^2 dB/dT where B = B(T) is the second virial coefficient. Show that in order to be consistent with the second law of thermodynamics B(T) = g/T, where e, and g are constants. As you might know, the melting point of ice is 0 degree C. The heat capacity at constant pressure of ice is 37.8 J/mole-K,...
THERMODYNAMICS Please answer the following question below 8. Consider 1 mole of a monatomic ideal gas...
THERMODYNAMICS
Please answer the following question below
8. Consider 1 mole of a monatomic ideal gas undergoing the changes of state indicated on the Pressure-Temperature diagram below. 4 3 0 100 200 300 400 Temperature, K a. Calculate AU, q, w, and AH for the step AB b. Calculate AU, q, w, and AH for the step BC C. Can you prove a general and very simple expression for ΔΗ for an isothermal change of state of an ideal gas?
1. (14 pts) Consider the following unbalanced gas-phase exothermic reaction, N2 + O2 = NO2 This...
1. (14 pts) Consider the following unbalanced gas-phase exothermic reaction, N2 + O2 = NO2 This is a reaction involved in the production of smog. The heat of formation of NO2 from the elements is A He = 33.18 kJ/mol. This is an endothermic process. The 4, Gof NO2 is 51.31 kJ/mol. a) Balance the reaction. b) Calculate the equilibrium constant at room temperature (300 K). c) If we assume that in our atmosphere the partial pressure of oxygen is...
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:...
please answer all or none of thses i need your help are you up for the...
please answer all or none of thses i need your help are you up
for the challenge!!!
For #10-M 3: Consider the gas phase equilibrium, 2 NO2(g)+ 40(g) N20s(g). The enthalpy change for this reaction is -170 kJ and the equilibrium constant is 2.5 at 150 °C. 10. For the above reaction, if N2(g) is added at a constant total pressure of 5 bar, (A) the equilibrium will move to the left and K will decrease the equilibrium will move...
T(N)=436
T=
436 c
Question 1 The following gas phase reaction produces ethanol (C2H5OH) by catalytic hydrogenation of acetaldehyde (CH3CHO). The reaction reaches equilibrium at a temperature of T= T(N) and a pressure of 3 bar: CH,CHO (g)+ H2 (g)C,H,OH (g) The reactive system initially contains 1.5 moles of Hydrogen (H2) for each mole of acetaldehyde (CH3CHO). The mixture is assumed to be an ideal gas. T(N) is the temperature corresponding to the student number as shown in the attached...
The following gas phase reaction takes place in the presence of steam as inert (1) in a packed bed reactor operating adiabatically. A B+C -ra = k PA k [Pn-F Popc] kmol \kgcath) PA, PB, Pc : Partial pressure of the species in atm Equilibrium constant K can be taken as constant at a value of 0.4 atm at the studied temperature and forward reaction rate constant k, log k = 4- 5000 T(K) k: kmol atm.kgcath Using the data...
QUESTION 1 [ 10 MARKS) The gravimetric analysis of a gas mixture is 50% N, 40% CO2 and 10% CH4 with a temperature of 407C and pressure of 1 bar. Calculate, 1.1 the partial pressure of each component, in bar. 1.2 the molar mass for the gas mixture, in kg/kmol. 1.3 the mass by 4 m of mixture, in kg. QUESTION 2 [ 10 MARKS) A vessel having a volume of 3 m'initially contains a mixture of Triatomic at 21°C,...
Please, answer the following question with clear steps and hand
writing. And please, take a clear picture of the answer.
I. A nonvolatile liquid contains 5.0 mol % methane and is being stripped by a gas in a stripping tray tower to reduce the methane content to 0.2%. The temperature is held constant at 422 K by internal heating in the tower at 2.026x105 Pa pressure. A total of 11.42 kmol of gas is used for 300 kmol of total...
4.66. Methanol is formed from carbon monoxide and hydrogen in the gas-phase reaction CO 2H2 CH3OH (A) (B) (C) The mole fractions of the reactive species at equilibrium satisfy the relation 1 = Ke(T where P is the total pressure (atm), Ke the reaction equilibrium constant (atm2), and T the temperature (K). The equilibrium constant Ke equals 10.5 at 373 K, and 2.316 x 10-4 at 573 K. A semilog plot of Ke (logarithmic scale) versus 1/T (rectangular scale) is...
Please answer the question number 8.
For a virial gas (to second order) this is not so obvious since: (partialdifferential E/partialdifferential V)_T = RT^2/V^2 dB/dT where B = B(T) is the second virial coefficient. Show that in order to be consistent with the second law of thermodynamics B(T) = g/T, where e, and g are constants. As you might know, the melting point of ice is 0 degree C. The heat capacity at constant pressure of ice is 37.8 J/mole-K,...
THERMODYNAMICS
Please answer the following question below
8. Consider 1 mole of a monatomic ideal gas undergoing the changes of state indicated on the Pressure-Temperature diagram below. 4 3 0 100 200 300 400 Temperature, K a. Calculate AU, q, w, and AH for the step AB b. Calculate AU, q, w, and AH for the step BC C. Can you prove a general and very simple expression for ΔΗ for an isothermal change of state of an ideal gas?
1. (14 pts) Consider the following unbalanced gas-phase exothermic reaction, N2 + O2 = NO2 This is a reaction involved in the production of smog. The heat of formation of NO2 from the elements is A He = 33.18 kJ/mol. This is an endothermic process. The 4, Gof NO2 is 51.31 kJ/mol. a) Balance the reaction. b) Calculate the equilibrium constant at room temperature (300 K). c) If we assume that in our atmosphere the partial pressure of oxygen is...
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:...
please answer all or none of thses i need your help are you up
for the challenge!!!
For #10-M 3: Consider the gas phase equilibrium, 2 NO2(g)+ 40(g) N20s(g). The enthalpy change for this reaction is -170 kJ and the equilibrium constant is 2.5 at 150 °C. 10. For the above reaction, if N2(g) is added at a constant total pressure of 5 bar, (A) the equilibrium will move to the left and K will decrease the equilibrium will move...
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