volumetric flow meter are used in application where density changes,it means volume of the substance is changing.For e.g. in natural gas pipe line pressure varies,so as the density.
The difference between inertia and mass is that inertia is the resistance to move. And mass is the amount of matter that something is made of.
mass
when you have the vescosity to react with the liquid or the substance in the being of the making Volumetric flow is L^3/T, a cubic length divided by time (cubic meters per second, for example.) Velocity is L/T (meters per second or miles per hour). To get velocity from volumetric flow, you divide the volumetric flow by the cross-sectional area (L^2) of whatever the liquid is flowing through. If you have .5 ft^3/s of water flowing through a pipe with a 1.5 inch diameter, convert 1.5 inches to feet: 1.5/12 = .125 ft, then find the cross-sectional area: (pi/4)(.125^2) = .01227 ft^2. Then .5 ft^3/s by the area and get 40.7 ft/s, which is about 27.75 mph.
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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.
the mass air flow sensor detects the flowing of mass air into the engine while the mass air flow meter detects the amount of mass air flowing into the ingine.
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
Mass production for companies: such as chipsets, lcd panels, spare parts Flow production for end users: such as mobile phones, tv's.
what is difference between mass spectrograph and mass spectrum
AnswerVolumetric analysis or titration is a common laboratory method of chemical analysis which can be used to determine the concentration of a known reactant; volumetry is a quantitative method of analysis.Qualitative analysis is used to separate and detect elements, functional groups, molecules etc. in a sample substance, without specifying concentration.
The difference between inertia and mass is that inertia is the resistance to move. And mass is the amount of matter that something is made of.
I do not know the answer.The difference between mass and capacity is that capacity is how much something can hold and mass is the weight of an object.
mass
nLPM stands for Normal Liters per Minute. This is actually a mass flow rate because it describes the amount of gas that would have the indicated LPM volumetric flow rate AT 1 atmosphere pressure and 0 degrees C. The actual volumetric flow rate (LPM) at any other temperature or pressure condition must be adjusted according to the ratios of absolute temperatures and (inversely) absolute pressures.
NM3:NM3 stands for Normal meter cube and especially this unit is used gas/vapour application. NM3 is a constant value under the Varying Pressure and Temperature.NM3 is calculated if the Density and Mass of the gas/vapour is known.For Eg : In a pipeline, If Air is flowing at the rate of 1000M3/hr at the Pressure of 5Barg and at the temperature of 30degC, then Density of Air can be arrived from the corresponding pressure and temp which is 6.9Kg/m3. Then Mass flow rate of Air will be obtained by multiplying the arrived density with the Volumetric Flow rate i.e Rho X V = 6.9X1000=6900Kgs/Hr.Normal Flow rate of Air = Mass Flow rate / (Mol.wt of Air / 22.4) = 5349 Nm3/HrM3:M3 stands for Metre cube and this unit is used in Solid, Liquid and gas application. Meter cube is used to quantify the matter in Volume.In the above mentioned example, Flow rate of Air is mentioned as 1000M3/hr which is the Volumetric Unit.
when you have the vescosity to react with the liquid or the substance in the being of the making Volumetric flow is L^3/T, a cubic length divided by time (cubic meters per second, for example.) Velocity is L/T (meters per second or miles per hour). To get velocity from volumetric flow, you divide the volumetric flow by the cross-sectional area (L^2) of whatever the liquid is flowing through. If you have .5 ft^3/s of water flowing through a pipe with a 1.5 inch diameter, convert 1.5 inches to feet: 1.5/12 = .125 ft, then find the cross-sectional area: (pi/4)(.125^2) = .01227 ft^2. Then .5 ft^3/s by the area and get 40.7 ft/s, which is about 27.75 mph.