I need the energy balance problem procedure. I already have the answer, which is $(209$ kg of water per hour released into the atmosphere and $21$ kg of sodium chloride per hour obtained$).$ But I need the procedure.

An industrial process design is carried out with a starting temperature of $25\backslash$deg C where $5000$ Liters of Hydrochloric Acid are used weekly with a contraction of $37\%($m$/$m$)$ and this hydrochloric acid solution has a density of $1,184$ kg$/$L$.$ If the process is based on: reacting the hydrochloric acid solution with a $2$ M sodium hydroxide solution to produce sodium chloride, taking into account that the amount of $2$ M sodium hydroxide solution is just what is necessary for the entire reaction. hydrochloric acid, thanks to the innovative design of the reactor and its operating conditions, $100\%$ efficiency in the chemical reaction can be assumed. After the two streams pass through the reactor and react, the entire contents of the reactor are taken to a drying process where the water is separated from the sodium chloride. Calculate the amount of evaporated water released into the atmosphere in Kilograms per hour. Its outlet temperature is $100$ degrees Celsius. Determine Kilograms of sodium chloride per hour. Calculate the heat of the water released, given that the solutions used have a low concentration; the specific heat is considered to be equivalent to that of water $(4\mathrm{.}18$ J$/$g$.$C$).$ Note that the density of $1\mathrm{.}09$ g$/$mL is the density of the $2$M sodium hydroxide solution. The reaction produced inside the reactor is a neutralization reaction where the products are a neutral salt and water.