JakaT
Industrial
- May 14, 2022
- 1
Hello
I have a mass balance problem.
We have a cooling tower with two states: state A is witouth blowdown ( just evaporation ), state B ( with blowdown ) I will post next time.
In state A the volume flow of make up water is 2 m3/h with chlorine level 2 ppm ( free chlorine ). Evaporation is 2 m3/h. System volume is 30 m3.
Circulation pump rate ( water flow through the tower ) is 500 m3/h. Free chlorine flasoff ( stripoff ) through the tower is 1,5%. For the sake of calculation we will say that chlorine demand of system water and pipe walls is 0.
Circulating pumps are OFF, an we fill the system with the make up water ( 2 ppm Chlorine ).
So at time 0 the free chlorine level in system water is 2 ppm, than we turn on the circulating pumps.
How to calculate the free chlorine level after 1, 2,3... hours?
The only loss of chlorine is trough the tower, so if I calculate Circulation rate X concentration X flashoff factor, I get mass loss of chlorine per time, BUT the concentration is lower every next passage throuh the tower and I am not quite shure how to deal with that
I have a mass balance problem.
We have a cooling tower with two states: state A is witouth blowdown ( just evaporation ), state B ( with blowdown ) I will post next time.
In state A the volume flow of make up water is 2 m3/h with chlorine level 2 ppm ( free chlorine ). Evaporation is 2 m3/h. System volume is 30 m3.
Circulation pump rate ( water flow through the tower ) is 500 m3/h. Free chlorine flasoff ( stripoff ) through the tower is 1,5%. For the sake of calculation we will say that chlorine demand of system water and pipe walls is 0.
Circulating pumps are OFF, an we fill the system with the make up water ( 2 ppm Chlorine ).
So at time 0 the free chlorine level in system water is 2 ppm, than we turn on the circulating pumps.
How to calculate the free chlorine level after 1, 2,3... hours?
The only loss of chlorine is trough the tower, so if I calculate Circulation rate X concentration X flashoff factor, I get mass loss of chlorine per time, BUT the concentration is lower every next passage throuh the tower and I am not quite shure how to deal with that
