- #1
peet_dk
- 10
- 0
Hello
I have some flue gas coming from a smokestack into the air. The flue gas contains a lot of water, and when it goes into the sky on a cold winter morning, the relative humidity will rise to 100%, and then there will be a problem with water dripping down.
But… When the dripping water is not at problem, if the wind speed is high enough, because the water then will be scattered out.
By using the Mollier h-x diagram I know the kg. water per hour that will drip down.
But does anyone know a “rule of thumb” or something like that, to get a picture of when it will be a problem, and when area that the water will dripping down at will be large enough, so it isn’t a problem.
I have some flue gas coming from a smokestack into the air. The flue gas contains a lot of water, and when it goes into the sky on a cold winter morning, the relative humidity will rise to 100%, and then there will be a problem with water dripping down.
But… When the dripping water is not at problem, if the wind speed is high enough, because the water then will be scattered out.
By using the Mollier h-x diagram I know the kg. water per hour that will drip down.
But does anyone know a “rule of thumb” or something like that, to get a picture of when it will be a problem, and when area that the water will dripping down at will be large enough, so it isn’t a problem.
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