Questions

When can you use continuity equation fluids?

When can you use continuity equation fluids?

The equation of continuity applies to any incompressible fluid. Since the fluid cannot be compressed, the amount of fluid which flows into a surface must equal the amount flowing out of the surface.

Which are the mandatory conditions for applying the continuity equation in a pipe flow?

Assumption of Continuity Equation The fluid flowing in the tube is non-viscous. The flow is incompressible. The fluid flow is steady.

Does the continuity equation apply to viscous fluids?

The more viscous the fluid, the larger the pressure drop need to obtain the same volumetric flow rate, or the same average velocity V. The only (and short) answer to the question is yes – if you are talking about volumetric flow rate and incompressible flow: it is a direct consequence of the continuity equation.

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What is common assumption for fluid flow problems by continuity equation?

What is the most common assumption while dealing with fluid flow problems using continuity equation? Explanation: In majority of the fluid flow problems, flow is assumed to be steady. 6.

What is continuity equation write conditions for continuity equation?

The continuity equation says that if charge is moving out of a differential volume (i.e., divergence of current density is positive) then the amount of charge within that volume is going to decrease, so the rate of change of charge density is negative.

What is continuity equation and what are its implications related to fluid power?

The continuity equation in fluid dynamics describes that in any steady state process, the rate at which mass leaves the system is equal to the rate at which mass enters a system. u = flow velocity vector field.

What is the order of continuity equation for steady two dimensional flow?

In a two dimensional flow, the component of the velocity along the X-axis and the Y-axis are u = ax2 + bxy and v = cxy +dy2.

Why is the continuity equation important?

The continuity equation is important for describing the movement of fluids as they pass from a tube of greater diameter to one of smaller diameter. the flow rate describes the volume of fluid that passes a particular point per unit time (like how many liters of water per minute are coming out of a pipe).

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What is v2 2 in the equation for a control volume in space?

What is v2/2 in the equation for a control volume in space? Explanation: According to the first law of thermodynamics, the equation for control volume in space is derived. v2/2 in the equation for a control volume in space is the kinetic energy per unit mass.

Which of the following is the expression for continuity equation?

Continuity equation: It is the conservation of mass flow rate. For incompressible fluid density will be constant thus continuity equation will be: A1V1 = A2V2.

What is significance of continuity equation?

Is the continuity equation valid for compressible fluids?

The continuity equation applies to all fluids, compressible and incompressible flow, Newtonian and non-Newtonian fluids. It expresses the law of conservation of mass at each point in a fluid and must therefore be satisfied at every point in a flow field.

What is the continuity equation in fluid flow?

Continuity Equation Fluids Flow. The continuity equation is simply a mathematical expression of the principle of conservation of mass. For a control volume that has a single inlet and a single outlet, the principle of conservation of mass states that, for steady-state flow, the mass flow rate into the volume must equal the mass flow rate out.

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What is the continuity equation in piping?

Continuity equation represents that the product of cross-sectional area of the pipe and the fluid speed at any point along the pipe is always constant. This product is equal to the volume flow per second or simply the flow rate.

What is the continuity equation for multiple inlets and outlets?

The continuity equation for this situation is expressed by Equation 3-5. For a control volume with multiple inlets and outlets, the principle of conservation of mass requires that the sum of the mass flow rates into the control volume equal the sum of the mass flow rates out of the control volume.

What is the law of Conservation of mass in fluid dynamics?

The equation proves the law of conservation of mass in fluid dynamics. Also, if the fluid is incompressible, the density will remain constant for steady flow. So, ρ1 =ρ2. This equation can be written in general form as: Now, if R is the volume flow rate, the above equation can be expressed as: