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When operating at 35?C and 1.01 bars at take-off conditions, the unit must supply 200 kW electrical loads. Calculate the airflow required for the gas turbine and the SFC?
For operation at steady state, determine the maximum theoretical rate that power can be developed, in horsepower.
How much axial pre-compression is required so that buckling will occur after a temperature rise of 50 degree C? Assume that the Euler equation is applicable.
If the compressor consumes 450 W of power and the COP the refrigerator is 1.2, determine (a) the mass flow rate of the refrigerant and (b) the rate of heat rejected to the kitchen air.
Determine the maximum stress and the difference in tube diameter before shrinkage Also sketch the stress distribution across the combined tube
A 4 kW motor is driving an oil pump with an efficiency of 95% down a 10 mm diameter pipe. If the velocities of the fluid down the pipe is 1.8 m/s. What is the flow rate that the pump delivers?
A 200mm DN pipeline has to deliver 80m³/h of water at a discharge pressure of 5,550kPa. Approximately how many pump stations would be needed for a pipeline 300km long?
Glycerin with viscosity of 1.5 kg/m-s in a vertical 53-mm diameter pipe flows with a centerline velocity of 1.0 m/s. Determine the (a) head loss and (b) pressure drop in a 6-m length of the pipe. Gl
Evaluating the electricity generated at 8 cents per kWh, determine the value of the power produced, in $/day, for operation at steady state and in the absence of internal
Determine the power input, in kW, and the isentropic compressor efficiency. In addition, show the principal states and processes on a T-S diagram.
If you make 100 tones of ice per month (1 month = 30 days), what is the minimum power requirement of your refrigeration unit? Give your answer in units of horsepower (Note: 1 ton = 2,000 lbm)
The unit must apply 200kW electrical load. Calculate the airflow required for the gas turbine and the specific fuel consumption.
Assuming the following component efficiencies, and ISA conditions, calculate the propelling nozzle area required, the net thrust developed and the SFC?
A twisting moment (torque) T is now applied to the ends of the vessel. Find the value of T at which compressive stresses will start to appear in the vessel wall.
A circular tube must support an axial load of 60 kN in tension and a torque of 1.0 kNm. What is the safety factor against yielding if the wall thickness is 2.5 mm?
What is the minimum power requirement of your refrigeration unit? Giveyour answer in units of horsepower. (Note:1 ton = 2,000 lbm).
Draw a schematic and indicate your choice of system. What is the entropy change of the universe as a result of this process in SI units?
Design a transmission that will be compact and quiet. Design the transmission assuming 1200 hours of operation in each of the same direction output speeds and 250 hours of operation in the reverse
Employing the ideal gas model for the gas, determine the final temperature, in R, the final pressure, in atm, and the amount of entropy produced, in Btu/R.
Determine the rate of entropy production, in kW/K, for an enlarged system including the tank and enough of the nearby surroundings for the heat transfer to occur at 17 degrees C.
Determine the value of the power produced, in $/day, for operation at steady state and in the absence of internal irreversibilities.
Determine the temperature at the turbine exit, in Degree's F. In addition, show the principal states and processes on a T-S diagram.
What would be the exit temperature take into account the change in inside heat transfer resistance due to the flow rate change?
You have a kiln where theinterior is a cube with an edge length of 30 cm. Estimate the surface temperature of the vertical walls next to the still air in degrees C.