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Air at 358C, 1 atm, and 50% relative humidity enters a dehumidifier operating at steady state. Determine the heat transfer from the moist air, in kJ per kg of dry air.
Determine the power used by the pumps, the power produced by the cycle, the rate of heat transfer in the re-heater, and the thermal efficiency of the system.
Saturated water is heated by a 0.001m radius copper wire. The system is at 1 atm. The temperature of the wire is Twire. Find the point of Interception between natural convection and boiling.
If the design stress is one-half the yield strength and the value of Y is 1.0, determine whether or not a critical flaw for this plate is subject to detection.
A piston-cylinder device, connected to a feeding line by a valve, contains air at 7oC and 210 kPa. Determine the heat transfer during this process.
At the end of the process, only 6.8 kg of R-134a remains inside the tank. How much mass has left the tank through the safety valve during the entire process?
For flow over a prescribed geometry, what are the independent parameters that determine local and average values of these quantities?
What is the definition of the Prandtl Number? How does its value affect relative growth of the velocity and thermal boundary layers for laminar flow over surface?
Determine the axial force and deformation of the diameter due to temperature rise. Let E = 120 GPa and co-efficient of linear thermal expansion = 0.0000168 per°C.
Determine value of force when the rod begins to yield. Solve the problem two ways using the (a) Tresca theory (Maximum shearing stress theory) and (b) von Mises theory (Maximum distortion energy the
Define the terms in this expression; also, sketch, label and describe the potential energy curve which describes this condition.
Air at 35C, 1 atm and 50% relative humidity enters a dehumidifier operating at steady state. Determine the heat transfer from the moist air, in KJ per Kg of dry air.
Determine the rate of heat transfer from the bottom surface of the engine block by convection and radiation as the car travels at a velocity of 80 km/h.
Determine the magnitude ratio and the phase lag for the system when subjected to a sinusoidal forcing having a 100 hz frequency. What, if anything is the problem using this system for this applicati
Ddetermine the resultant normal and frictional force acting on the man's feet at the ground. Neglect the weight of the hose and the water within it. γw = 62.4 lb/ft3.
Show the cycle on a T-s diagram, and determine (a) the net power output of the power plant, and (b) the thermal efficiency of the cycle.
A steam power plant operates as a reheat Rankine cycle. Steam enters the high pressure turbine (isentropic efficiency 90%) at 8 Mpa and 500°C. Determine exergy destruction from each heat transfer
If the equilibrium surface temperature of the bulb is 350°C and the inlet temperature (the room air) is at 20.0°C, then determine the outlet temperature of the cooling air.
Determine the temperature of the discharged air (assuming other viscous losses to be negligible). Considering the rise in internal energy (which is also considered a loss), determine the efficiency
Calculate the power of the engine. Calculate the standard deviation of the power. Calculate the random and systematic uncertainty of the power.
What is the velocity of the fluid at the measurement point in units of feet/second assuming standard atmospheric conditions?
Determine outside air flow under the following outside air condition to minimize the cooling coil energy consumption.
Estimate the SO2 concentration of the exiting gases in ppm(v) dry basis. Assume that there is no HCl in the gases, and that the limestone is 96% CaCO3(MW of 100) and 4% inerts.
Kinetic and potential engergy effects can be ignored. Determine the rate at which entropy is produced, in kJ/K per kmol of mixing exiting.