Enthalpy Change of Water
Completion requirements
Liquid water at 100oC and 1 bar has an internal energy (on an arbitrary scale) of 419 kJ/kg and a specific volume of 1.044 cm3/g.
(a) What is its enthalpy?
(b) The water is brought to the vapor state at 200oC and 800 kPa, where its enthalpy is 2838.6 kJ/kg and its specific volume is 260.79 cm3/g. Calculate ΔU and ΔH for the process.
Calculations:
(a) Enthalpy = U + PV
= 419 + 100 kPa x 1.044 x 10-3 m3/kg = 419 + 0.1044 = 419.1044 kJ/kg
(b)Internal energy of water vapor at 200oC and 800 kPa = H - PV
= 2838.6 - PV = 2838.6 - 800 x 260.79 x 10-3 = 2838.6 - 208.632 = 2629.968 kJ/kg
ΔU = 2629.968 - 419 = 2211.968 kJ/kg
ΔH = 2838.6 - 419.1044 = 2419.4956 kJ/kg
Last modified: Saturday, 23 March 2024, 7:10 PM