Engineering, 13.10.2020 03:01 livingfamyboys35

A jet engine is designed for maximum thrust on a test stand (static thrust) of 53kN. The tests are conducted at 25°C and 1 atm ambient conditions. The engine has a inlet mass flow rate of 77 kg/s at designed static thrust. Assume that the nozzle is perfectly expanded to begin with and check if that assumption may have a problem. The fuel used in the engine is Kerosene, which produces 46 MJ/kg of fuel combusted. Assume the engine design is such that the maximum allowable turbine temperature of 1500K is reached. Required:
a. Assuming stoichiometric fuel-air ratio, compute the nozzle exit velocity.
b. The gases enter the turbine at relatively low velocity, and assume this is zero for this calculation. Assuming isentropic expansion across the turbine and nozzle, what is the exit temperature of the exhaust gases. The exhaust gases contain the mass fractions of CO2, H20 and N2 in the stoichiometric ratio (See class notes). Assume that the R for the exhaust gases is close to that of air and gamma is a constant.
c. What is the Mach No of the exhaust gases? What does this tell you about the assumption of pe=pa?
d. What is the temperature rise of the air due to the stoichiometric combustion of Kerosene? Is the stoichiometric burning of Kerosene viable? Why or why not?
e. Usually in real operation, engines are operated in a lean fuel-air mixture. Assuming a lean fuel-air mixture, with a fuel-air ratio of 0.02, what is the compressor pressure ratio and efficiency of the Brayton cycle for the engine?

Answers: 2

Show answers

Another question on Engineering

Engineering, 03.07.2019 14:10

If the thermal strain developed in polyimide film during deposition is given as 0.0044. assume room temperature is kept at 17.3 c, and thermal coefficient of expansion for the film and the substrate are 54 x 10^-6c^-1 and 3.3 x 10^-6c^-1respectively. calculate the deposition temperature.

Answers: 3

Answer

Engineering, 04.07.2019 18:10

Abrake has a normal braking torque of 2.8 kip in and heat-dissipating cast-iron surfaces whose mass is 40 lbm. suppose a load is brought to rest in 8.0 s from an initial angular speed of 1600 rev/min using the normal braking torque; estimate the temperature rise of the heat dissipating surfaces.

Answers: 3

Answer

Engineering, 04.07.2019 18:20

A3-mm-thick panel of aluminum alloy (k 177 w/m-k, c 875 j/kg-k and ? = 2770 kg/m) is finished on both sides with an epoxy coating that must be cured at or above t,-150°c for at least 5 min. the production line for the curing operation involves two steps: (1) heating in a large oven with air at ts,0-175°c and a convection coefficient of h, 40 w/m2. k, and (2) cooling in a large chamber with air at 25°c and a con- vection coefficient of he 10 w/m2.k. the heating portion of the process is conducted over a time interval te which exceeds the ime required to reach 150°c by 5 min (h = r + 300 s). the coating has an emissivity of ? = 0.8, and the temperatures of the oven and chamber walls are 175 and 25°c, respectively. if the panel is placed in the oven at an initial temperature of 25°c and removed from the chamber at a safe-to-touch tempera ture of 37°c, what is the total elapsed time for the two-step curing operation?

Answers: 3

Answer

Engineering, 04.07.2019 19:10

What is a monomer? how do they form a ploymer from the view point of chemical bonding?

Answers: 1

Answer

You know the right answer?

A jet engine is designed for maximum thrust on a test stand (static thrust) of 53kN. The tests are c...

Questions