A proposed process requires a superheated vapor n-Hexane at a flow rate of n- Hexane is 0.25 [mol/s] and a pressure of 1.0 atm and a temperature of 30 [C]. The current flash vaporization unit has a 10 kW electric heating element. Prove that this heating element is sufficient to generate a superheated vapor and calculate the outlet temperature of the vapor. Include a reference temperature and an enthalpy path for all streams relative to that reference temperature.

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Please label variables by name and include all directions such as enthalpy path

A proposed process requires a superheated vapor n-Hexane at a flow rate of n-
Hexane is 0.25 [mol/s] and a pressure of 1.0 atm and a temperature of 30 [C]. The
current flash vaporization unit has a 10 kW electric heating element. Prove that this
heating element is sufficient to generate a superheated vapor and calculate the outlet
temperature of the vapor. Include a reference temperature and an enthalpy path for
all streams relative to that reference temperature.
Transcribed Image Text:A proposed process requires a superheated vapor n-Hexane at a flow rate of n- Hexane is 0.25 [mol/s] and a pressure of 1.0 atm and a temperature of 30 [C]. The current flash vaporization unit has a 10 kW electric heating element. Prove that this heating element is sufficient to generate a superheated vapor and calculate the outlet temperature of the vapor. Include a reference temperature and an enthalpy path for all streams relative to that reference temperature.
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