about 5 seconds.
280*7(7 gals per cu foot)=1960 gals/min.
1960/60(sec. per min.)=32.6 gals/sec.
160(tank size)/32.6=4.9 sec.
this is all theoretical. the supply line to feed such a pump would have to be huge!
It is probably the individual faucets. Take the screen off at the end of the spouts.
about the same as a gallon of water: 8+ lbs
A standard, 55 US gallon / 44 Imperial gallon drum would lead me to believe you would have a 550 US Gallon tank.
#2 fuel oil = 140,000 btu/gallon. Psi does not matter.
well, 100 gallons at 3000 psi is 3333 gallons at 90 psi, which is 443 cubic feet, or 110 minutes. However, most air tools are rated for cfm's at atmospheric pressure, which is 14.7 psi at the surface, so 2714 minutes. This is average usage, not continuous, but still quite a long time. Now, if you go down 33 feet, the pressure doubles, so you have to cut the time down - the actually calculation is hazy, as the ambient pressure doubles, but the pressure differential does not - however, you will need to increase the pressure going to the tool by 15 psi for every 30 feet of depth, or else it won't work right.
Its the height of the tower, not the size that determines pressure.
Gallon is volume, PSI is pressure. They're different things and don't translate.
It depends on the pressure and temperature of the gas.
1 US gallon weighs approx 0.0157 lbs at normal temperature and pressure.
If your pump is capable of making more pressure than it is now, you can turn up the pressure switch.
A millibar is a unit of pressure. Specifically, one thousandth of a bar. A gallon is a unit of volume. The two cannot be converted.
In flight planning we assume 6 pounds per gallon for fuel
To demonstrate atmospheric pressure.
Air pressure WILL crush objects. A standard experiment is to fill a 1 gallon can with water, and then closely fit a small diameter hose to the outlet. Invert the can, and if your hose was indeed sufficiently small, the water will drain out, and the can will collapse due to the air pressure from outside overcoming the strength of the can walls. Air pressure will not crush solid objects in general for they are already as dense as they can become.
BASIC FACTS ABOUT LP-GAS* Pounds per gallon 4.24 Specific gravity of gas 1.50 Specific gravity of liquid .504 Cu. ft. gas per gallon liquid 36.38 Cu. ft. gas per pound 8.66 BTU per gallon 91,502 BTU per pound 21,548 Dew point in degrees F -44 Vapor pressure at 0° F 31 Vapor pressure at 70° F 127 Vapor pressure at 100° F 196 Vapor pressure at 110° F 230 BASIC FACTS ABOUT LP-GAS* Pounds per gallon 4.24 Specific gravity of gas 1.50 Specific gravity of liquid .504 Cu. ft. gas per gallon liquid 36.38 Cu. ft. gas per pound 8.66 BTU per gallon 91,502 BTU per pound 21,548 Dew point in degrees F -44 Vapor pressure at 0° F 31 Vapor pressure at 70° F 127 Vapor pressure at 100° F 196 Vapor pressure at 110° F 230
10 pounds of water (molten ice) = 1 imperial gallon. (at standard atmospheric pressure and temperature).
Number of factors can cause the lowr miles per gallon - among the most common, low air pressure in the car's tires.