A pure H2O is to be heated from 150 °C to 200 °C at a pressure...

Saturated steam at a gauge pressure of 3.00 bar is to be used to heat a...

Saturated steam at a gauge pressure of 3.00 bar is to be used to heat a stream of ethane. The ethane enters a heat exchanger at 16°C and 1.5 bar gauge pressure at a rate of 895 m3/min and is heated at constant pressure to 93°C. The steam condenses and leaves the exchanger as a liquid at 24.0°C. The specific enthalpy of ethane at the given pressure is 941 kJ/kg at 16°C and 1073 kJ/kg at 93°C.   You may take...

8.33 kg of steam at temperature of 150 ∘C has 2.23×107 J of heat removed from...

8.33 kg of steam at temperature of 150 ∘C has 2.23×107 J of heat removed from it. Determine the final temperature and phase of the result once the heat has been removed if the heat is removed at constant pressure during the gas phase. For this problem, use the specific heat (at constant pressure) for water as 1850 J/kg∘C , the latent heat of vaporization as 2.256×106 J/kg , the specific heat of liquid water as 4186 J/kg∘C , the...

Methane enters a heat e xchanger at a volumetric flow rate of 145.0 m 3 /min,...

Methane enters a heat e xchanger at a volumetric flow rate of 145.0 m 3 /min, at an absolute pressure of 1.013 bar and temperature of 15.0°C. At these conditions, the specific enthalpy of methane is - 23.181 kJ/kg. The methane leaves the heat exchanger at an absolute pressure of 1.0 13 bar and temperature of 60.0°C. The corresponding specific enthalpy at these conditions is 78.656 kJ/kg. The methane is heated by a stream of saturated steam entering the heat...

8.33 kg of steam at temperature of 150 ∘C has 2.23×107 J of heat removed from...

8.33 kg of steam at temperature of 150 ∘C has 2.23×107 J of heat removed from it. Determine the final temperature and phase of the result once the heat has been removed if the heat is removed at constant pressure during the gas phase. For this problem, use the specific heat (at constant pressure) for water as 1850 J/kg∘C , the latent heat of vaporization as 2.256×106 J/kg , the specific heat of liquid water as 4186 J/kg∘C , the...

A gas contained in a closed rigid container is heated from initial temperature and pressure of...

A gas contained in a closed rigid container is heated from initial temperature and pressure of 270C and 2 bar to a final pressure of 12 bar. Calculate final temperature, Work done, Heat transfer and change in Internal Energy. (Take Cv as 0.873 kJ/kg K. and Mass of the gas = 1kg)

Thermodynamics If you get a number from a table can you please show me a picture...

Thermodynamics If you get a number from a table can you please show me a picture of where you got it from because that's what i'm mainly confused about. 1. Steam enters an insulated turbine at 100 bar, 400oC. At the exit, the pressure and quality are 200 kPa and 0.54, respectively. Determine the power produced (kW) by the turbine if the mass flow rate is 2.09 kg/s. (ans= 2,931.8) 2. Steam enters a turbine at 8000 kPa, 440oC. At...

1) Water is heated by steam in a heat exchanger. The water comes in at .4...

1) Water is heated by steam in a heat exchanger. The water comes in at .4 MPa and 10°C and leaves at 110°C. flow rate of the water is 2 kg/s. 0.5 kg of steam comes in at a pressure of 0.6 MPa at 300°C, determine the exit temperature and state of the steam and rate of condensation if any

An oil stream flowing at a rate of 60 m3 /h (?oil = 952.9 kg/m3 ),...

An oil stream flowing at a rate of 60 m3 /h (?oil = 952.9 kg/m3 ), at temperature of 10°C is to be heated to 175°C+/-0.5°C in a heat exchanger using high pressure saturated steam. (a) With the aid of the steam tables appended to this paper determine the minimum pressure required of a saturated steam stream to achieve this result? [5%] (b) If the actual temperature of the condensing steam is to be 15°C?0.5°C above the minimum what is...

Saturated steam at 200 C, 1000 kg/h is used to boil toluene in a heat exchanger....

Saturated steam at 200 C, 1000 kg/h is used to boil toluene in a heat exchanger. The toluene enters at 50 C, 1 bar, 3500 kg/h and leaves as vapor at 1 bar. The steam condensate leaving is saturated water at 200 C. Calculate the exit toluene temperature.

Water, initially saturated vapor at 14.6 bar, fills a closed, rigid container. The water is heated...

Water, initially saturated vapor at 14.6 bar, fills a closed, rigid container. The water is heated until its temperature is 200°C. For the water, determine the heat transfer, in kJ/kg. Kinetic and potential energy effects can be ignored.