the amount required to fill the line = (Π/4)*D^2*L where D is the inside dia of the pipeline & L is the length, in your case this amounts to
2281.101 m3 of water.
If you know the temperature, pressure and volume of the vessel, you can calculate the amount of moles through the Ideal gas law. PV = nRT That is assuming you have ideal conditions. If not, a variance of the ideal gas law can be used in order to get the moles of your gas.
To find the final temperature, we can use the ideal gas law. First, calculate the initial specific volume of the mixture using the quality of the saturated steam. Then, use the equation of state to find the final specific volume at the new pressure. Finally, determine the final temperature using the final specific volume and the new pressure.
Increasing the volume of the vessel at constant pressure will allow for more space for the reactant molecules to move, leading to more collisions and potentially increasing the rate of reaction. However, for gaseous reactions, increasing the volume can also decrease the pressure which may affect the reaction under specific conditions.
Yes, when blood volume decreases, the blood pressure tends to increase. This is because a lower volume of blood circulating in the blood vessels leads to a higher force exerted on the vessel walls, resulting in an increase in blood pressure.
The volume of 200 gallons of propane at 20 degrees will depend on the pressure at which the propane is stored. Propane expands and contracts with temperature and pressure changes, so you would need to know the pressure in order to calculate the volume accurately.
To calculate the weight of an empty pressure vessel, you can determine the volume of the vessel and then multiply it by the density of the material from which the vessel is made. This will give you the mass of the vessel, which you can then convert to weight by multiplying it by the acceleration due to gravity.
how do calculate the volume of a Vertical vessel in m3/hr?
If you know the temperature, pressure and volume of the vessel, you can calculate the amount of moles through the Ideal gas law. PV = nRT That is assuming you have ideal conditions. If not, a variance of the ideal gas law can be used in order to get the moles of your gas.
what is the formula for calculating volume of preesure vessels with dishe ends
When water freezes in an enclosed vessel, it expands and exerts pressure on the vessel walls. This pressure depends on factors such as the volume of water, rate of freezing, and strength of the vessel. Generally, this can lead to the vessel cracking or bursting if the pressure becomes too high.
You wll also need to know its radius as well as its volume
there is not enough information. 4 cubic meter of air at 24degC does not define how much air there is, as we don't know the pressure. One thing we do know is that the pressure will double as you are cutting the volume in half (Boyle's law)
You cannot. If you know the volume, temperature and pressure of a pencil, you will be no closer to knowing its mass!
To find the pressure inside the vessel, first calculate the number of moles of each gas using the ideal gas law equation PV = nRT. Then, add up the total moles of gas in the vessel. Next, use the mole fraction of each gas to determine the partial pressure of each gas. Finally, sum the partial pressures to get the total pressure in the vessel.
The volume should not change if the cylinder is rigid.
There is either a leak in the vessel, or the temperature is changing. Or both.
To find the final temperature, we can use the ideal gas law. First, calculate the initial specific volume of the mixture using the quality of the saturated steam. Then, use the equation of state to find the final specific volume at the new pressure. Finally, determine the final temperature using the final specific volume and the new pressure.