There are complex formulas for calculating an estimation of that but it generally gets to be empirical based on how fine the water droplets, flow rate, etc. The hotter the water coming in the quicker it gives up heat. The finer the droplets and how much air passes does the same. My experience with them are at the giant wind tunnels at NASA where the cooling towers are more like giant rain chambers, say 8 stories high, with boards throughout that scatter the drops; steaming water came in and cold water came out. But think of how cool as a percentage of heat loss above 40°F. Say it's 65% cooling above 32°F. 110°F water in: (110-32) x 65% = 50.7 degrees heat loss = 59.3°F 70°F water in : (70-32) x 65% = 24.7 degrees heat loss = 45.3°F
To what temperature can water be cooled by a cooling tower
same question
There are complex formulas for calculating an estimation of that but it generally gets to be empirical based on how fine the water droplets, flow rate, etc. The hotter the water coming in the quicker it gives up heat. The finer the droplets and how much air passes does the same.
My experience with them are at the giant wind tunnels at NASA where the cooling towers are more like giant rain chambers, say 8 stories high, with boards throughout that scatter the drops; steaming water came in and cold water came out.
But think of how cool as a percentage of heat loss above 40°F.
Say it's 65% cooling above 32°F.
110°F water in: (110-32) x 65% = 50.7 degrees heat loss = 59.3°F
70°F water in : (70-32) x 65% = 24.7 degrees heat loss = 45.3°F
What is its purpose?
Are the top distribution pipes supposed to spin?
yes, it helps with the whole principle of dispersing the water into fine droplets that easily give up their heat.
Bacana, sou técnico de Torre de resfriamento aqui no Brasil
. زنإ4
que hace-??? como funciona????
song counthing star
Wooow
I like it
If you want to buy this system?
كم الثمن اخويا
Les tubes ne tournent plus ...pourquoi?Merci