1. Calculate the specific enthalpy (kJ/mol) of CO2 (g, 800°C, 1 atm) CO. (g, 300°C, 1 atm) 2. The heat capacity of liquid water is 4.186 J/(g °C) and that of isopropanol is 2.403 J/(g-°C). If they are...


1. Calculate the specific enthalpy (kJ/mol) of CO2 (g, 800°C, 1 atm) CO. (g, 300°C, 1<br>atm)<br>2. The heat capacity of liquid water is 4.186 J/(g °C) and that of isopropanol is 2.403<br>J/(g-°C). If they are equally mixed in a beaker, estimate the heat capacity of the<br>mixture in J/(g-°C)<br>3. Atmospheric air at 150°C is heated to 600°C and 130 kPa prior entering a heat<br>exchanger. Calculate the specific enthalpy of air in kJ/mol<br>The physical property tables<br>ii) Heat capacity data<br>i)<br>

Extracted text: 1. Calculate the specific enthalpy (kJ/mol) of CO2 (g, 800°C, 1 atm) CO. (g, 300°C, 1 atm) 2. The heat capacity of liquid water is 4.186 J/(g °C) and that of isopropanol is 2.403 J/(g-°C). If they are equally mixed in a beaker, estimate the heat capacity of the mixture in J/(g-°C) 3. Atmospheric air at 150°C is heated to 600°C and 130 kPa prior entering a heat exchanger. Calculate the specific enthalpy of air in kJ/mol The physical property tables ii) Heat capacity data i)

Jun 11, 2022
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