A stream of water vapor flowing at a rate of 425 mol/h is brought from 700.0...

A stream of water vapor flowing at a rate of 240.0 mol/h is brought from 700.0...

A stream of water vapor flowing at a rate of 240.0 mol/h is brought from 700.0 °C and 10 bar to 100.0 °C and 1 atm. Find Estimate the required cooling rate (a positive number in kW) three ways. Use five significant figures in your calculations. (i) from the steam tables ____ kW (ii) using heat capacity data in Table B.2 ____ kW (iii) using the enthalpy function of APEx (or Table B.8) ____ kW

A stream of water vapor flowing at a rate of 260.0 mol/h is brought from 600.0°C...

A stream of water vapor flowing at a rate of 260.0 mol/h is brought from 600.0°C and 10 bar to 400.0°C and 1 atm. Estimate the required cooling rate (a positive number in kW) three ways. Use five significant figures in your calculations. (i) from the steam tables Entry field with incorrect answer kW (ii) using heat capacity data in Table B.2 Entry field with incorrect answer kW (iii) using the enthalpy function of APEx (or Table B.8) Entry field...

A stream of water vapor flowing at a rate of 250 mol/h is brought from 600C...

A stream of water vapor flowing at a rate of 250 mol/h is brought from 600C to 100C. Estimate the required cooling rate (kW) using heat capacity data in Table B.2

saturated steam at 300 C is used to heat countercurrently flowing stream of methanol vapor from...

saturated steam at 300 C is used to heat countercurrently flowing stream of methanol vapor from 65C to 260 C in and adiabatic heat exchanger. The flow rate of the methanol is 5500 standard liters per minute, and the steam condenses and leaves the heat exchanger as liquid water at 90 C. A) calculate the required flow rate of the entering steam in m^3/min. B) Calculate the rate of heat transfer from the water to the methanol (kW).

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...

Problem #1 Saturated steam at 300°C is used to heat a counter-currently flowing stream of methanol...

Problem #1 Saturated steam at 300°C is used to heat a counter-currently flowing stream of methanol vapor from 65°C to 260°C in an adiabatic heat exchanger. The flow rate of the methanol is 5500 standard liters per minute (at STP), and the steam condenses and leaves the heat exchanger as liquid water at 90°C. a) Draw a diagram of the process. b) Calculate the required flow rate of the entering steam in m3/min. c) Calculate the rate of heat transfer...

Saturated steam at 350 C is used to heat a countercurrent stream of methanol vapor from...

Saturated steam at 350 C is used to heat a countercurrent stream of methanol vapor from 70C to 300C in an adiabatic heat exchanger. The flow rate of methanol is 6000 L (STP) / min, and the steam condenses and leaves the exchanger as liquid water at 80C. a) Calculate the necessary flow of the incoming steam in m 3 / min. b) Calculate the heat flux transferred from water to methanol (kW).

You are required to design an absorption column. A gas stream is 92 mol% N2 and...

You are required to design an absorption column. A gas stream is 92 mol% N2 and 8 mol% CO2. We wish to absorb the CO2 into water. The inlet water is pure and is at 25°C and 1 atm. If the liquid flow rate is 1.5 times the minimum liquid flow rate, how many equilibrium stages are required to absorb 65% of the CO2? The system is considered concentrated. Choose a basis of 100 mol/h of entering gas. Find the...

Saturated water vapor leaves a steam turbine at a flow rate of 1.47 kg/s and a...

Saturated water vapor leaves a steam turbine at a flow rate of 1.47 kg/s and a pressure of 0.51 bar. The vapor is to be completely condensed to saturated liquid in a shell-and-tube heat exchanger that uses city water as the cold fluid. The water enters the thin-walled tubes at 17oC and is to leave at 57.6 oC. Assuming an overall heat transfer coefficient of 2000 W/m2K, determine the required heat exchanger surface area and the water flow rate. cp,c...

Using Raoult's law for water and Henry's law for nitrogen, calculate the pressure and gas-phase composition...

Using Raoult's law for water and Henry's law for nitrogen, calculate the pressure and gas-phase composition (mole fractions) in a system containing a liquid that is 1.200 mole% N2 and 98.80 mole% water in equilibrium with nitrogen gas and water vapor at 50.0°C. The Henry's law constant for nitrogen in water is recommended by NIST to be well represented by kH = 0.000625 exp[1300 (1/T – 1/298.15)] mol N2 / (kg H2O bar), where T is measured in Kelvin a)...