P₁ 480 kPa T₁ = 550 K Ex: A combustion chamber consists of tubular combustors of 15-cm diameter. Compressed air enters the tubes at 550 K, 480 kPa, and 80 m/s. Fuel with a heating value of 42,000 kJ/kg is injected into the air and is burned with an air-fuel mass ratio of 40. Approximating combustion as a heat transfer process to air, determine the V₁ = 80 m/s k = 1.4, Co temperature, pressure, velocity, and Mach number at the exit of the combustion chamber R= 0.287 kJ/kg. K P2, T2, V₂ Combustor tube = 1.005 kJ/kg K,

Ex: A combustion chamber consists of tubular combustors of 15-cm diameter. Compressed air enters the tubes at 550 K, 480 kPa, and 80 m/s. Fuel with a heating value of 42,000 kJ/kg is injected into the air and is burned with an air–fuel mass ratio of 40. Approximating combustion as a heat transfer process to air, determine the temperature, pressure, velocity, and Mach number at the exit of the combustion chamber

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Ex: A combustion chamber consists of tubular combustors of 15-cm diameter. Compressed air enters the tubes at 550 K, 480 kPa, and 80 m/s. Fuel with a heating value of 42,000 kJ/kg is injected into the air and is burned with an air-fuel mass ratio of 40. Approximating combustion as a heat transfer process to air, determine the V₁ = 80 m/s P₁ = 480 kPa T₁ = 550 K temperature, pressure, velocity, and Mach number at the exit of the combustion chamber P2, T2, V₂ Combustor tube k = 1.4, cp = 1.005 kJ/kg - K, R = 0.287 kJ/kg . K