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Consider 100 m3 of atmospheric air which is an air-water vapor mixture at 100 kPa, 15°C, and 40% relative humidity
How much liquid water will condense out? You should include all the units which are needed to solve the given problem.Your steps and calculation should be clear
Consider 100 m3 of atmospheric air at 100 kPa, 25°C, and 80% relative humidity. Assume this is brought into a basement room where it cools to 15°C
Conditioned air at 13°C and 90 percent relative humidity is to be mixed with outside air at 34°C and 40 percent relative humidity at 1 atm.
Consider a 300 kJ/min refrigeration system that operates on an ideal vapor-compression refrigeration cycle with refrigerant-134a as the working fluid
Consider a 2-km-deep gas well containing a gas mixture of methane and ethane at a uniform temperature of 30°C. The pressure at the top of the well is 14 MPa
Consider a Carnot refrigeration cycle executed in a closed system in the saturated liquid-vapor mixture region using 0.8 kg of refrigerant-134a
Consider a Carnot refrigerator and a Carnot heat pump operating between the same two thermal energy reservoirs.
Consider a Carnot cycle executed in a closed system with 0.003 kg of air. The temperature limits of the cycle are 300 and 900 K
Carbon-dioxide gas at 3 MPa and 500 K flows steadily in a pipe at a rate of 0.4 kmol/s, Determine
Carbon dioxide gas enters a throttling valve at 5 MPa and 100°C and leaves at 100 kPa. Determine the temperature change during this process if CO2 is assumed
Consider a Carnot-cycle heat pump with R-22 as the working fluid. Heat is rejected from the R-22 at 100 F, during which process the R-22 changes from saturated
Consider a Carnot-cycle heat pump having 1 kg of nitrogen gas in a cylinder/piston arrangement.
Carbon monoxide gas (CO) contained within a piston cylinder assembly undergoes three processes in series.
Carnot heat engine receives 650 kJ of heat from a source of unknown temperature and rejects 250 kJ of it to a sink at 24°C. Determine
Rather than generating this from a pump and boiler, the setup used so the supply is extracted from the high-pressure turbine. Find the power the turbine
Cold water (cp = 4.18 kJ/kg -c °C) leading to a shower enters a thin-walled double-pipe counter-flow heat exchanger at 15°C at a rate of 0.60 kg/s
Combustion gases with k = 1.33 enter a converging nozzle at stagnation temperature and pressure of 400°C and 800 kPa, and are discharged
Combustion gases with a specific heat ratio of 1.3 enter an adiabatic nozzle steadily at 800°C and 800 kPa with a low velocity, and exit at a pressure of 85 kPa
Determine the fraction of heat used in the steam generator to preheat the liquid water from 20°C to the saturation temperature of 150°C
Cold water enters a steam generator at 20°C and leaves as saturated vapor at the boiler pressure. At what pressure will the amount of heat needed to preheat
Carbon dioxide at 330 K is pumped at a very high pressure, 10 MPa, into an oil-well. As it penetrates the rock/oil the oil viscosity is lowered so it flows out
Carbon dioxide at 15 MPa is injected into the top of a 5-km deep well in connection with an enhanced oil-recovery process.
Carbon (C) is burned with dry air. The volumetric analysis of the products is 10.06 percent CO2, 0.42 percent CO, 10.69 percent O2, and 78.83 percent N2.
Carbon dioxide (CO2) gas within a piston-cylinder assembly undergoes an expansion from a state where P1= 20 lbf/in2, V1= 0.5ft3 to a state