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Your assigned value of y is _2L (You will lose 1 pt if this is blank)....
thermodynamics Your assigned value of y is _2___ (You will lose 1 pt if this is...
thermodynamics
Your assigned value of y is _2___ (You will lose 1 pt if this is blank). Methane (CH) is burned with (110 + 0.3 y)% of theoretical air. (Hence, if y = 10 the methane is burned with 113% theoretical air). The mixture enters the combustion chamber at 25°C. a) Find the Air/Fuel ratio for this mixture: AF = (+ 0.03) b) Find the adiabatic flame temperature for the mixture. Tadiabitic flame = OC (+ 20°C) c) Find the...
In your grades section of Blackboard, you will find a column: "data Q5"". These columns contain...
In your grades section of Blackboard, you will find a column: "data Q5"". These columns contain the value y. Your assigned value of y is _5_ (You will lose 1 pt if this is blank). Methane (CH4) is burned with (110 +0.3 y)% of theoretical air. (Hence, if y = 10 the methane is burned with 113% theoretical air). The mixture enters the combustion chamber at 25°C. 1) Find the Air/Fuel ratio for this mixture: AF = (+0.03) 2) Find...
Methane (CH4) is burned with 110.9 % of theoretical air. The mixture enters the combustion chamber...
Methane (CH4) is burned with 110.9 % of theoretical air. The mixture enters the combustion chamber at 25°C. 1) Find the Air/Fuel ratio for this mixture: AF = (+ 0.03) 2) Find the adiabatic flame temperature for the mixture. Tadiabitic flame = OC (+ 20°C) 3) Find the mole fraction of the N2 in the exhaust. YN2 =
For calculating an "adiabatic flame temperature" it is customary to assume that the reactants (input) are...
For
calculating an "adiabatic flame temperature" it is customary to
assume that the reactants (input) are at the reference temperature
(298 K or 537 oR).
Psi is equal to 3
Your assigned value of wis (You will lose 1 pt if this is blank). Methane (CH) is burned with (110 +0.3 )% of theoretical air. (Hence, if y = 3 the methane is burned with 110.9% theoretical air). The mixture enters the combustion chamber at 25°C. A) Find the Air/Fuel...
1.f) Methane gas (CH4) enters a combustion chamber at a rate of 3 kg/sec at a...
1.f) Methane gas (CH4) enters a combustion chamber at a rate of 3 kg/sec at a temperature of 25 °C. A 200% theoretical air is supplied at a temperature of 400K. At the middle of methane combustion process (i.e., after 50% of methane gas is burnt), liquid propane (C3H8) at 25°C is injected at a rate that produces neither CO nor O2 in the flue gases. Assume steady state and adiabatic process at 1 atm, calculate the following i. The...
Enter your assigned value for Y and C: y = 47 5 = 8 (You will...
Enter your assigned value for Y and C: y = 47 5 = 8 (You will lose 1 pt. if missing). 2) Hot air enters a heat exchanger at 350°C and exits at (130+y). The heat extracted is used to boil (0.2 + 4/300) kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m2). Assume...
Enter your assigned value for Y and C: y = 47 5 = 8 (You will...
Enter your assigned value for Y and C: y = 47 5 = 8 (You will lose 1 pt. if missing). 2) Hot air enters a heat exchanger at 350°C and exits at (130+y). The heat extracted is used to boil (0.2 + 4/300) kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m2). Assume...
thermodynamics
Your assigned value of y is _2___ (You will lose 1 pt if this is blank). Methane (CH) is burned with (110 + 0.3 y)% of theoretical air. (Hence, if y = 10 the methane is burned with 113% theoretical air). The mixture enters the combustion chamber at 25°C. a) Find the Air/Fuel ratio for this mixture: AF = (+ 0.03) b) Find the adiabatic flame temperature for the mixture. Tadiabitic flame = OC (+ 20°C) c) Find the...
In your grades section of Blackboard, you will find a column: "data Q5"". These columns contain the value y. Your assigned value of y is _5_ (You will lose 1 pt if this is blank). Methane (CH4) is burned with (110 +0.3 y)% of theoretical air. (Hence, if y = 10 the methane is burned with 113% theoretical air). The mixture enters the combustion chamber at 25°C. 1) Find the Air/Fuel ratio for this mixture: AF = (+0.03) 2) Find...
Methane (CH4) is burned with 110.9 % of theoretical air. The mixture enters the combustion chamber at 25°C. 1) Find the Air/Fuel ratio for this mixture: AF = (+ 0.03) 2) Find the adiabatic flame temperature for the mixture. Tadiabitic flame = OC (+ 20°C) 3) Find the mole fraction of the N2 in the exhaust. YN2 =
For
calculating an "adiabatic flame temperature" it is customary to
assume that the reactants (input) are at the reference temperature
(298 K or 537 oR).
Psi is equal to 3
Your assigned value of wis (You will lose 1 pt if this is blank). Methane (CH) is burned with (110 +0.3 )% of theoretical air. (Hence, if y = 3 the methane is burned with 110.9% theoretical air). The mixture enters the combustion chamber at 25°C. A) Find the Air/Fuel...
1.f) Methane gas (CH4) enters a combustion chamber at a rate of 3 kg/sec at a temperature of 25 °C. A 200% theoretical air is supplied at a temperature of 400K. At the middle of methane combustion process (i.e., after 50% of methane gas is burnt), liquid propane (C3H8) at 25°C is injected at a rate that produces neither CO nor O2 in the flue gases. Assume steady state and adiabatic process at 1 atm, calculate the following i. The...
Enter your assigned value for Y and C: y = 47 5 = 8 (You will lose 1 pt. if missing). 2) Hot air enters a heat exchanger at 350°C and exits at (130+y). The heat extracted is used to boil (0.2 + 4/300) kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m2). Assume...
Enter your assigned value for Y and C: y = 47 5 = 8 (You will lose 1 pt. if missing). 2) Hot air enters a heat exchanger at 350°C and exits at (130+y). The heat extracted is used to boil (0.2 + 4/300) kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m2). Assume...
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