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At which point the valve is closed. Determine the flow work of the helium in the supply line and the final temperature of the helium in the tank.
If the actual flow rate consumed by the motor is 0.005 m3/s and the actual torque delivered by the motor is 200 N/m, find volumetric efficiency.
A 6" (nominal pipe size) schedule 40 steel pipe has a chamfered entrance and 300 ft. long. If the fluid is water at 60 Deg.F, what is the total loss of head length?
Work out the overall combustion reaction for stoichiometric combustion of 1 mole of LPG with air, and determine the stoichiometric F/A and A/F ratios.
Calculate the fuel-air equivalence ratio at which this engine is operating. Is it possible to calculate the fuel's molecular weight with the given information?
Air at the rate of 18 kg/s is drawn into the compressor of a jet engine at 55 kPa and -23C and is compressed reversibly and adiabatically to 276 kPa.
To what elevation, in m, would a 1000-kg mass have to be raised from zero elevation relative to the reference environment for its exergy to equal the exergy increase of the slab?
An engineer claims to be able to compress 0.100 kg of water vapor at 200°C and 0.100 MPa in a piston-cylinder arrangement in an isothermal and adiabatic process. Show whether the process is ther
A 1.000 ft^3 glass bottle is initially evacuated then has 1.000 g of water added that eventually comes to equilibrium at 70.000°F. What is the work done during the compression.
Assume that the volume of the connecting line is negligible compared to the volume in the tanks, and that the connecting line is well-insulated also. Calculate the entropy generation (kJ/K) for the
Calculate the change in entropy (Btu/R) for the CO2 for the above process. Comment on whether or not process 1-2 is possible for an adiabatic system.
Refrigerant-134a enters the expansion valve of a refrigeration system at 160psia as a saturated liquid and leaves at 30psia. Determine the temperature and internal energy changes across the valve.
The average daily usage is 10,000gal. If water is added to the tank at an average rate of 5000[exp(-t/20days)] gallons per day, where t is time in days, for how many days will the tank contain water?
Saturated vapor at 400 Kia flowing in a line is taken out through a valve to 100 kpa. What is the temperature (in C) as it leaves the valve assuming no changes in kinetic energy and no heat transfe
What is the rate at which heat is being transferred from the high temperature reservoir to this heat engine? What is the upper limit on the thermal efficiency of this heat engine?
The tube surface temperaure is maintained at 60 F. Air exits the tube at 70F. Determine the length of tube required to accomlish this process. Work in English units.
Find (a) the work output of the heat engine, (b) the efficiency of the heat engine, (c) the temperature of the low temperature reservoir for the refrigerator, in degrees Celsius, and (d) the COP of
If an actual heat pump requires 10 kW of power input for the same temperatures and same heat supplied from -7 , determine the actual COP and the actual heat rejected to the 29 reservoir, in kJ/s.
A 4cm outer diameter and 3cm inner diameter, circular shaft supports a 200N load and is supported at two points which are 2-m apart.
If this steel is loaded sinusoidally with an alternating stress of 150 MPa, what is the maximum stress that can be applied to the specimen without failure?
Determine (a) the pressure drop, (b) the rate of energy addition to the water, and (c) the daily cost of electrical energy for pumping.
A centrifugal pump is installed in the line to move the water. What pressure rise must the pump deliver so that the volume flow rate will be Q= 50 L/s.
Using the Kelvin - Planck statement of the second law of thermodynamics, demostrate the following corollaries all reversible refrigeration cycles operating between the same two reserviors have the sam
After 48 hours, the concentration of carbon 3.5 mm below the surface of the metal is 0.3 wt% C. At what temperature was the furnace operating?
A sheet of 0.001" thick BCC iron foil separates a high hydrogen content gas from a low hydrogen content gas at 725 degree C. Determine the concentration gradient of hydrogen and the flux of the hydrog