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Using conservation of mass: mass flow rate = ρ * V * A where ρ= density, V= velocity, and A= cross sectional area therefore since massin = massout therefore: (ρ*V*A)in = (ρ*V*A)out
It is explained by mass conservation, and water being an incompressible fluid. Imagine water going through a pipe with varying inside diameters Di's. Water will flow the fastest in the pipe section with the smallest diameter, and will flow the slowest in the widest section of the pipe. The product of the volumetric average velocity of the water flow v, times the cross section area A, is equal to the volumetric flow rate (vol/time) G. G = v∙A If you have a constant volumetric flow rate, if the area reduces to half, the velocity doubles. By the way, if you multiply the volumetric flow rate G by the liquid density ρ, you get the mass flow rate Q, (mass/time). Q = G∙ρ = ρ∙v∙A
When equivalence ratio increase, the actual air-fuel ratio decrease, which mean the mass flow rate of air is decrease. So, the volume flow rate of air is dercreasing and its mean the velocity is decreasing.
The relationship between radius and fluid flow rate is inversely proportional. As radius goes down, fluid flow rate goes up. The highest fluid flow rate will be at the lowest radius.
the ratio of the distillate mass flow rate to the mass flow rate of the steam used
The specific gravity of gasoline is approximately 0.701150 kg/min * (m^3/0.70*10^3 kg) * (1000 L /m^3) * (1 min / 60s) = 27 L / s
16LPM
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Yes there is an optimum flow rate. Kind of! The heat pump manufacturer will post on the internet or in the users guide what the maximum and mimimum flow rate through his heat pump should be. I take it that the optimum then, is anywhere within that range. My pump manufacturer prescribes 20 GPM to 70 GPM for the heat pump I will be using. Too low a flow causes the heat pump to overheat. Too high a flow is hard on system components. dburr
The flow rate may be defined by the quantity of a fluid which can be transportted through a hole with a given area in an unit of time.
please look at the packaging.
These have a inverse relation. You will need to know the discharge and the incoming pressure in order to find out the mass flow rate.
Flow meters are used to measure the linear, nonlinear, mass, or volumetric flow rate of a liquid or gas.
mass of mill charge divided by mass flow rate.
A mass flow controller is used to measure and control the flow of liquids and gases. It keeps the fluid or gas flowing consistently at the perfect rate of speed.
Refers to flow rate on something like a fuel pump for example