Such a small amount of water will require small amounts of chlorine. Not a good idea to use Clorox bleach. Purchase a test kit and thru repeat testing will you know what it takes for your pool at any given time. Vague, but there is no given formula for every situation.
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Its easier to give you figures for 10,000 gallons...then divide accordingly.
Keep in mind its important to keep PH 7.2-7.6 and Alkalinity between 50-100 recommended if this is for a pool application.
At 12.5% sodium hypochlorite (which is concentration for bleach bought from pool store) 11oz per 10,000 gallons will add 1PPM chlorine to your water. To shock 52-100oz per 10,000 gal. depending on severity of the water.
If the concentration is lower (6%) like it is with store bought bleach like Chlorox then dosage will have to be doubled. Like 20oz per 10,000 gallons of water for 1PPM. To shock with grocery store bleach you are looking at 1 gallon (128oz) per 10,000 gallons of water.
One last thought...your CYA Cyanic Acid levels will affect how often chlorine dissipates in your pool. Its best to test daily until you get a feel for your pools personality and how often you will need to add.
Hope this helps. : )
I have found out that I can add clorox, baking power, and borox to my 8000 gallon pool instead of buying all the chemicals but I am not sure how much to use can you help me?
1gallon
Using regular chlorine bleach (5% solution) at a rate of 6.5 ounces of bleach per 1000 gallons of water gives a chlorination level of 2ppm per 1000 gallons. To get the rate for 2500 gallons, multiply 6.5 by 2 to get 13 ounces for 2000 gallons, then divide 6.5 by 2 to get 3.25 ounces (the amount of bleach needed to treat 500 gallons) and add that to the 13 ounces to get a total of 16.25 ounces of chlorine bleach per 2500 gallons of waterat a level of 2ppm.For a swimming pool, you would likely want a 3ppm chlorine to water ratio (24.375 ounces bleach per 2500 gallons water).
According to the EPA website, drinking water can be sterilized with 2 drops of household bleach (Clorox) per liter. That's 7 drops per gallon, and in your particular case that's 105 drops for the 15 gallons. 2 ozs is a lot more than 105 drops, I'm pretty sure so let's go at this a different way. The above recommendation is using a ratio of 1:4000 (Clorox to water). 1 gallon has 128 ounces -- 15 gallons has almost 2000 ounces. So 2 ounces would be a ratio of 1:1000 -- that's 4 times too strong based on these guidelines. For 15 gallons a safer amount would be 1/2 ounce of Clorox. But will 2 ozs harm the dog? I don't know what the upper bounds are...doesn't matter how big the dog is -- it's the ratio of Clorox to water. Clorox will evaporate more quickly so maybe the concentration doesn't stay that high if you don't retreat it often.
if 1000 gallons cost 3.04 then 1000 ÷ 1000 gallons cost 3.04 ÷ 1000 → 1 gallon costs 0.00304 units.
may be 1000 trillion gallons of water in a tsunamis wave
it can hold anywhere from 750-1000 gallons of water
This pipe will hold 23,500.7 gallons of water.
The average price of water is $1.50/1000 gallons. (http://www.drinktap.org/kidsdnn/Portals/5/story_of_water/html/costs.htm) (2270/1000) * $1.50 = $3.41 for 2270 gallons
1 cubic foot = 7.48051948 US Gallons = 6.22883288 Imperial Gallons Therefore, 1000 cubic feet = 7480.51948 US Gallons = 6228.83288 Imperial Gallons
1,000 liters is 264.17 US gallons.
A 1,000 cubic foot tank holds up to 7,480 US gallons of water.
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Gallons of what? Different liquids have different weights. A gallon of water weighs 3.7854118 kilograms. A gallon of milk weighs 3.89 kilgrams. A gallon of gasoline weighs 2.835 kilograms. A gallon of ethanol weighs 2.987 kg. A gallon of mercury weighs 51.2165976 kilograms.