Question
Pls step by step,clearly. I need it right solution. 500 kg/h containing 10% NaOH by weight at 101.3 kPa atmospheric pressure atmosphere Aqueous NaOH solution
Pls step by step,clearly. I need it right solution.
500 kg/h containing 10% NaOH by weight at 101.3 kPa atmospheric pressure atmosphere Aqueous NaOH solution at flow rate until it contains 50 wt% NaOH in a standard type evaporator. evaporated. The boiling temperature of the solution in the evaporator is 379 K of the evaporator. The heat capacity of the superheated water vapor coming out of the separator is 1.926 kJ/kg.K. Since the temperature difference (T) applied in the evaporation process is 29 K, appropriate assumptions have been made. by doing;
a) The pressure (Psep) in the separator part of the evaporator and the applied vacuum (kPa), b) Boiling point elevation of the evaporated solution, c) the pressure of saturated steam used for heating (kPa), and d) Calculate the enthalpy (kJ/kg) of the superheated solvent vapor leaving the evaporator.
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Elements Of Chemical Reaction Engineering
Authors: H. Scott Fogler
4th Edition
0130473944, 978-0130473943
