If your flow is in Volume/Time, e.g. m3/s, and it's given per area, e.g. m2, you come up with the flow speed. An appopiate unit would be m/s
Example:
If your flow is 6 cubic meters per second, and this is given for 2 square meters, the flow has a speed of 3 meters per second.
Now the conversion to SI:
1 gpm = 6.30902e-5 m3/s
1 ft2 = 0.092903 m2
So 1 gpm per ft2 would give a flow speed of 6.79098e-4 m/s (0.68 millimeter per second)
If you don't have a volumetric flow, use the density of the material to convert it.
Flow rate cannot be converted into pressure units. So, you should give up the idea.
Write algorithms and draw a corresponding flow chart to convert a decimal number to binary equivalent?
A device used to measure the flow of liquids in pipelines and convert the results into proportional electric signals that can be transmitted to distant receivers or controllers. a velocity over a known surface area is measured and then it can be converted to volumetric flowrate or mass flowrate if the density of the fluid is known.
amperes
A cubic meter is a unit of volume, specifically 1,000 litres.Litres per minute is a unit of flow.Units of volume and units of flow do not correlate without some factor of time. The question is invalid. Please restate the question.
You can't. Pascals (pa) area messurement of pressure. CFM (cubic feet per minute) is a rate of flow. However, there is a device called a manometer which is used to measure either pressure(in pascals) or air flow in(in cubic feet). Most commonly used for blower door tests.
Flow rate cannot be converted into pressure units. So, you should give up the idea.
To calculate the flow rate in a pipeline, you can use the formula Q = A * V, where Q is the flow rate (volume per unit time), A is the cross-sectional area of the pipeline, and V is the velocity of the fluid in the pipeline. The units of flow rate are typically volume per unit time (e.g., cubic meters per second). You may need to know the density of the fluid flowing in the pipeline to convert the flow rate to a mass flow rate.
You can't convert those units. Milimeters of water (mmH2O) is a unit of pressure equal to about 13.6 mmHg. Cubic feet per minute is a measure of fluid flow.
"kg/hr" means "kilograms per hour" and "scfm" means "standard cubic feet per minute"Since the units are not compatible, we cant convert to that unit. The time units are consistent, but "kg" and "scf" aren't. "kg" measures mass while "scf" measures volume.Another way to prove this is:"kg/hr" measures mass flow while "scfm" measures volume flow.
The average velocity of water in a pipe depends on the flow rate of the water and the cross-sectional area of the pipe. It can be calculated by dividing the flow rate by the cross-sectional area. The units are typically expressed in meters per second.
To convert BTU (British Thermal Units) to CFM (Cubic Feet per Minute), you need to know the specific heat of the material being heated or cooled. The formula to convert is: CFM = (BTU/hr) / ((Temperature rise in °F) x (Specific heat of material)).
Heat flow is typically measured in units of watts (W) or joules per second (J/s).
The relationship between pressure and flow is given by Bernoulli's law. In an idealized system, the speed increases with the square of the increase in pressure. The flow rate would be given by multiplying the area of the outflow by the speed.
Multiply the velocity in cm/s by the cross section area of the flow in sq cm.
Linear flow rate can be calculated using the formula ( Q = A \cdot v ), where ( Q ) is the flow rate (volume per time), ( A ) is the cross-sectional area of the flow, and ( v ) is the average linear velocity of the fluid. To determine the flow rate, measure the cross-sectional area of the pipe or channel through which the fluid flows, and multiply it by the velocity of the fluid. Ensure that all units are consistent, typically using liters per second for flow rate, square meters for area, and meters per second for velocity.
To convert flow to pressure in a fluid system, you can use the Bernoulli's equation, which relates the flow rate, pressure, and velocity of the fluid. By manipulating this equation, you can calculate the pressure based on the flow rate in the system.