In a sealed chamber with no loss of mass, five pounds of water plus sufficient heat will produce five pounds of steam. The mass of the water remains the same, regardless of its state. Freeze it, and you'd have five pounds of ice instead.
8000#/hr
138 pounds!
63,844.1 pounds.
Approximately 8.3 pounds.
To make 37000 pounds of steam, you would need 37000 pounds of water. This is because steam is simply water in the gas phase, so the weight of the steam would be equal to the weight of the water used to generate it.
it takes 2 pounds of it
In a sealed chamber with no loss of mass, five pounds of water plus sufficient heat will produce five pounds of steam. The mass of the water remains the same, regardless of its state. Freeze it, and you'd have five pounds of ice instead.
1gal = 4qt 8qt x 1gal/4qt = 2 gal
1gal = 4qts 11qts = 1gal/4qts = 2.75gal = 2gal and 3qts
The number of pounds in a gallon of water changes with temperature. At 100 degrees Celsius, there is about 8 lbs. per gallon of water. So with one thousand lbs. of steam, we would have around 125 gallons of water.
One pound of steam condenses back to one pound of liquid water. Since one gallon of water weighs 8.337 pounds, simply divide the weight of the condensate by 8.337 to find out how many gallons of condensate you have.
16 cups
3 qt 3 qt
20mi = 1gal 555mi x (1gal/20mi) = 27.27gal
8 pints in 1 gal.
To change 5 pounds of ice at 20°F to steam at 220°F, you would first need to heat the ice to its melting point, then heat the water to its boiling point, and finally convert the water to steam. The total heat required can be calculated using the specific heat capacities of ice, water, and steam, as well as the heat of fusion and vaporization. The specific calculations would depend on the specific heat capacities and heat of fusion/vaporization values provided.