Inlet Velocity in Nozzle given Inlet Area of Nozzle Calculator

✖Volumetric Flow Rate is the volume of fluid which passes per unit time.ⓘ Volumetric Flow Rate [V_Flow]			+10% -10%
✖Inlet Area is defined as the inlet area of the given vessel.ⓘ Inlet Area [A_inlet]			+10% -10%

✖Inlet Velocity is defined as the velocity of fluid going in the vessel or nozzle.ⓘ Inlet Velocity in Nozzle given Inlet Area of Nozzle [U_inlet]

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Formula

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Inlet Velocity in Nozzle given Inlet Area of Nozzle

Formula

`"U"_{"inlet"} = "V"_{"Flow"}/"A"_{"inlet"}`

Example

`"1.857585m/s"="6m³/s"/"3.23m²"`

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Inlet Velocity in Nozzle given Inlet Area of Nozzle Solution

STEP 0: Pre-Calculation Summary

Formula Used

Inlet Velocity = Volumetric Flow Rate/Inlet Area
U_inlet = V_Flow/A_inlet
This formula uses 3 Variables

Variables Used

Inlet Velocity - (Measured in Meter per Second) - Inlet Velocity is defined as the velocity of fluid going in the vessel or nozzle.
Volumetric Flow Rate - (Measured in Cubic Meter per Second) - Volumetric Flow Rate is the volume of fluid which passes per unit time.
Inlet Area - (Measured in Square Meter) - Inlet Area is defined as the inlet area of the given vessel.

STEP 1: Convert Input(s) to Base Unit

Volumetric Flow Rate: 6 Cubic Meter per Second --> 6 Cubic Meter per Second No Conversion Required
Inlet Area: 3.23 Square Meter --> 3.23 Square Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

U_inlet = V_Flow/A_inlet --> 6/3.23

Evaluating ... ...

U_inlet = 1.85758513931889

STEP 3: Convert Result to Output's Unit

1.85758513931889 Meter per Second --> No Conversion Required

FINAL ANSWER

1.85758513931889 ≈ 1.857585 Meter per Second <-- Inlet Velocity

(Calculation completed in 00.020 seconds)

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Created by Ayush gupta

University School of Chemical Technology-USCT (GGSIPU), New Delhi

Ayush gupta has created this Calculator and 300+ more calculators!

Verified by Prerana Bakli

University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA

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< 10+ Fluid Kinematics Calculators

Acceleration in X Direction given Average Velocity in Nozzle

Go Acceleration in X Direction = (Outlet Velocity-Inlet Velocity)/(Length of Nozzle/Average Velocity)

Inlet Diameter given Inlet Velocity of Fluid in Nozzle

Go Inlet Diameter of Nozzle = sqrt((4*Volumetric Flow Rate)/(pi*Inlet Velocity))

Acceleration in X Direction in Nozzle given Inlet and Outlet Velocity

Go Acceleration in X Direction = ((Outlet Velocity^2)-(Inlet Velocity^2))/(2*Length of Nozzle)

Inlet Velocity in Nozzle given Inlet Diameter of Nozzle

Go Inlet Velocity = (4*Volumetric Flow Rate)/(pi*(Inlet Diameter of Nozzle^2))

Average Velocity given Inlet and Outlet Velocity

Go Average Velocity = (Outlet Velocity+Inlet Velocity)/2

Outlet Velocity given Average Velocity

Go Outlet Velocity = (2*Average Velocity)-Inlet Velocity

Inlet Velocity given Average Velocity

Go Inlet Velocity = (2*Average Velocity)-Outlet Velocity

Inlet Area of Nozzle given Diameter of Nozzle

Go Inlet Area = pi*((Inlet Diameter of Nozzle^2)/4)

Inlet Velocity in Nozzle given Inlet Area of Nozzle

Go Inlet Velocity = Volumetric Flow Rate/Inlet Area

Inlet Area given Inlet Velocity of Fluid in Nozzle

Go Inlet Area = Volumetric Flow Rate/Inlet Velocity

Inlet Velocity in Nozzle given Inlet Area of Nozzle Formula

Inlet Velocity = Volumetric Flow Rate/Inlet Area
U_inlet = V_Flow/A_inlet

What is Fluid Mechanics?

Fluid dynamics is “the branch of applied science that is concerned with the movement of liquids and gases”. It involves a wide range of applications such as calculating force & moments, determining the mass flow rate of petroleum through pipelines, predicting weather patterns, understanding nebulae in interstellar space, and modelling fission weapon detonation.

What is Fluid Kinematics?

Fluid kinematics is the branch of fluid mechanics in which the study of the different fluid flows is carried out but without the help of the causing parameters. Fluid Kinematics deals with the motion of fluids, such as displacement, velocity, acceleration, and other aspects. Kinematics is the branch of classical mechanics that describes the motion of bodies and systems without consideration of the forces that cause the motion. there are various types of flow: steady and unsteady flow, compressible and incompressible, uniform and non-uniform, rotational and irrotational.

How to Calculate Inlet Velocity in Nozzle given Inlet Area of Nozzle?

Inlet Velocity in Nozzle given Inlet Area of Nozzle calculator uses Inlet Velocity = Volumetric Flow Rate/Inlet Area to calculate the Inlet Velocity, The Inlet Velocity in Nozzle given Inlet Area of Nozzle formula is defined as the the ratio of volumetric flow rate of the incoming fluid to the inlet area of the nozzle. There is a direct analogy between systems versus control volumes in thermodynamics and Lagrangian versus Eulerian descriptions in fluid dynamics. The equations of motion for fluid flow (such as Newton’s second law) are written for a fluid particle, which we also call a material particle. If we were to follow a particular fluid particle as it moves around in the flow, we would be employing the Lagrangian description, and the equations of motion would be directly applicable. For example, we would define the particle’s location in space in terms of a material position vector. Inlet Velocity is denoted by U_inlet symbol.

How to calculate Inlet Velocity in Nozzle given Inlet Area of Nozzle using this online calculator? To use this online calculator for Inlet Velocity in Nozzle given Inlet Area of Nozzle, enter Volumetric Flow Rate (V_Flow) & Inlet Area (A_inlet) and hit the calculate button. Here is how the Inlet Velocity in Nozzle given Inlet Area of Nozzle calculation can be explained with given input values -> 1.857585 = 6/3.23.

FAQ

What is Inlet Velocity in Nozzle given Inlet Area of Nozzle?

The Inlet Velocity in Nozzle given Inlet Area of Nozzle formula is defined as the the ratio of volumetric flow rate of the incoming fluid to the inlet area of the nozzle. There is a direct analogy between systems versus control volumes in thermodynamics and Lagrangian versus Eulerian descriptions in fluid dynamics. The equations of motion for fluid flow (such as Newton’s second law) are written for a fluid particle, which we also call a material particle. If we were to follow a particular fluid particle as it moves around in the flow, we would be employing the Lagrangian description, and the equations of motion would be directly applicable. For example, we would define the particle’s location in space in terms of a material position vector and is represented as U_inlet = V_Flow/A_inlet or Inlet Velocity = Volumetric Flow Rate/Inlet Area. Volumetric Flow Rate is the volume of fluid which passes per unit time & Inlet Area is defined as the inlet area of the given vessel.

How to calculate Inlet Velocity in Nozzle given Inlet Area of Nozzle?

The Inlet Velocity in Nozzle given Inlet Area of Nozzle formula is defined as the the ratio of volumetric flow rate of the incoming fluid to the inlet area of the nozzle. There is a direct analogy between systems versus control volumes in thermodynamics and Lagrangian versus Eulerian descriptions in fluid dynamics. The equations of motion for fluid flow (such as Newton’s second law) are written for a fluid particle, which we also call a material particle. If we were to follow a particular fluid particle as it moves around in the flow, we would be employing the Lagrangian description, and the equations of motion would be directly applicable. For example, we would define the particle’s location in space in terms of a material position vector is calculated using Inlet Velocity = Volumetric Flow Rate/Inlet Area. To calculate Inlet Velocity in Nozzle given Inlet Area of Nozzle, you need Volumetric Flow Rate (V_Flow) & Inlet Area (A_inlet). With our tool, you need to enter the respective value for Volumetric Flow Rate & Inlet Area and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Inlet Velocity?

In this formula, Inlet Velocity uses Volumetric Flow Rate & Inlet Area. We can use 2 other way(s) to calculate the same, which is/are as follows -

Inlet Velocity = (4*Volumetric Flow Rate)/(pi*(Inlet Diameter of Nozzle^2))
Inlet Velocity = (2*Average Velocity)-Outlet Velocity

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