Superheated water vapor at 662 F and 232.1 psia is left to cool down at constant...

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of...

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of water at 100 kPa and half of the mass is in the liquid phase. An electric resistance heater placed in the tank is now turned on and kept on until all the liquid in the tank is vaporized (state 2). Determine (a) the initial specific volume in m3/kg, (b) the final specific entropy in kJ/kg.K and (c) change of entropy in kJ/K.

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of...

Initially (state 1) a well-insulated rigid tank contains 20 kg of a saturated liquid-vapor mixture of water at 100 kPa and half of the mass is in the liquid phase. An electric resistance heater placed in the tank is now turned on and kept on until all the liquid in the tank is vaporized (state 2). Determine (a) the initial specific volume in m3/kg, (b) the final specific entropy in kJ/kg.K and (c) change of entropy in kJ/K.

A 0.1-m3 rigid tank contains saturated liquid-vapor mixture of water, initially at 150 kPa and 52...

A 0.1-m3 rigid tank contains saturated liquid-vapor mixture of water, initially at 150 kPa and 52 percent quality. Heat is now transferred to the tank until the system becomes superheated vapor and the pressure reaches 300 kPa. Determine (a) the total mass of the mixture in the tank and (b) the amount of heat transferred.

Wet air containing 4.0 mole% water vapor at 76°F and 14.8 psia is passed through a...

Wet air containing 4.0 mole% water vapor at 76°F and 14.8 psia is passed through a column of calcium chloride pellets. The pellets absorb 97% of the water and none of the other constituents of the air. The column packing was initially dry and had a mass of 3.40 kg. Following 5.0 hours of operation, the pellets are reweighed and found to have a mass of 3.52 kg. Calculate the molar flow rate (mol/h) of the feed gas and the...

use steam tables--- A 2.5-ft3 tank of water at 160 psia and 363.5 o F has...

use steam tables--- A 2.5-ft3 tank of water at 160 psia and 363.5 o F has how many cubic feet of liquid water in it? Assume that you start with 1lb of H 2 0. Could it contain 5 lb of H 2 O under these conditions? b. What is the volume change when 2 lb of H 2 0 at 1000 psia and 20 o F expands to 245 psia and 460 o F? c. Ten pounds of wet...

A cylinder-piston device contains a mass of 2.4 kg of liquid-vapor mixture water with 70% titer...

A cylinder-piston device contains a mass of 2.4 kg of liquid-vapor mixture water with 70% titer at 50 bar. The system goes through a process of cooling to constant pressure until the obtaining compressed liquid with 14 ºC of subcooling. Evaluate: (i) The initial and final temperatures of the process. (ii) The specific enthalpy at the beginning of the process. (iii) The change in total volume during the process. (iv) The amount of heat removed from the system during the...

A certain amount of H2O vapor (gas) is condensed isothermally and reversibly to liquid water at...

A certain amount of H2O vapor (gas) is condensed isothermally and reversibly to liquid water at 100ºC, where the liquid occupied a volume of 675 cm3 . The standard enthalpy of vaporization of water at 100ºC is 40.66 kJ mol-1, the density of liquid water at 100ºC is 0.958 g/cm3 . Find w, q, U, and H for this condensation process. (You may assume that the volume of liquid H2O is negligible compared to that of H2O vapor, and that...

A certain amount of H2O vapor (gas) is condensed isothermally and reversibly to liquid water at...

A certain amount of H2O vapor (gas) is condensed isothermally and reversibly to liquid water at 100oC, where the liquid occupied a volume of 675 cm3. The standard enthalpy of vaporization of water at 100oC is 40.66 kJ mol-1, the density of liquid water at 100oC is 0.958 g/cm3. Find w, q, U, and H for this condensation process. (You may assume that the volume of liquid H2O is negligible compared to that of H2O vapor, and that the vapor...

Water of mass 2 kg in a closed, rigid tank is initially in the form of...

Water of mass 2 kg in a closed, rigid tank is initially in the form of a twophase liquid-vapor mixture. The initial temperature is 50° C. The mixture is heated until the tank contains only saturated vapor at 110° C. (i) Find the initial pressure, in kPa. (ii) Find the work for the process, in kJ. (iii) Find the heat transfer for the process, in kJ.

Two kg water at 120°C with a quality of 25% has its temperature raised 20°C in...

Two kg water at 120°C with a quality of 25% has its temperature raised 20°C in a constant volume process. According to the thermodynamic tables in your textbook, what is the new specific entropy (in kJ/(kg?K))? -another qustion-: Consider the same ammonia heat engine as problems 6-5 and 6-6, which has the following reversible steps: 1 ? 2 Isothermal heating of saturated liquid @ 60°C to superheated vapor 2 ? 3 Adiabatic expansion to saturated vapor at -20°C 3 ?...