Recommandé
Contenu connexe
Tendances
Tendances (20)
Similaire à Dimensionlessnumber in heat transfer
Similaire à Dimensionlessnumber in heat transfer (20)
Dernier
Dernier (20)
Dimensionlessnumber in heat transfer
- 2. GROUP MEMBERS: MUHAMMAD FEROZ 2017-CH-720 IHTASHAM MEHMOOD 2017-CH-719 ADEEL AKRAM 2017-CH-718 MUHAMMAD AKMAL 2017-CH-722
- 3. DIMENSIONAL ANALYSIS: • Dimensional analysis is a topic that deal with dimension. • There are two types of dimensions. • Fundamental dimension • Derived dimension • Dimensional analysis is use wo check the correction of given formula. • Two terms are add when the dimensions of both quantities is same.
- 5. Reynold’s Number (Re) It gives a measure of the ratio of inertial and viscous forces in fluid flow. It is often used to determine if the flow is either laminar or turbulent: • In laminar flow, viscous forces dominate. The flow paths are smooth, streamline and constant. • In turbulent flow, inertial forces dominate. The flow regime is unstable, generating eddies and vortices. The Kind of flow depends on value of Re • If Re < 2000 the flow is Laminar • If Re > 4000 the flow is turbulent • If 2000 < Re < 4000 it is called transition flow.
- 6. Prandtl Number (Pr) • The Prandtl number, Pr, is the ratio of kinematic viscosity to the thermal diffusivity. • It is used in many calculations involving heat transfer in flowingfluids. • it gives a measure of the relative thickness of the thermal and momentum boundary layers. Where, Cp = Fluid specific heat capacity μ = Dynamic viscosity k = Thermal conductivity
- 7. Nusselt Number (Nu) • The Nusselt Number, Nu, is the ratio of convective to conductive heat transfer in a fluid over a given length, l: • For heat transfer in pipes, the characteristic length is the pipediameter. • At a Nusselt number of around one means that convection and conduction areabout equal. Where, h = Heat transfer coefficient l = Characteristic length k = Thermal conductivity
- 8. Grashof Number: • The Grashof number is used to determine the heat transfer coefficient under free convection conditions. It is basically a ratio between the buoyancy forces and viscous forces.
- 9. Biot Number (Bi) • It the ratio of the heat transfer resistances inside of and at the surface of abody. • The Biot number (Bi) is used in heat transfer calculations. Where, h = Heat transfer coefficient l = Characteristic length kb = Thermal conductivity of the body
- 10. Fourier Number (Fo) • Ratio of rate of heat conduction to the rate of heat storage. • Used along with Biot number to solve transient state heat transfer problems. • For mass transfer by diffusion, Fourier number for MT isused. Where, α = Thermal Diffusivity t = Characteristic time L = Length through which conduction occurs D = Diffusivity
- 11. Lewis Number (Le) • Ratio of thermal diffusivity to mass diffusivity. • Fluid flow with simultaneous Heat & mass transfer by convection. • It is also ratio of Schmidt number to Prandtl number.
- 12. Mach Number (Ma) • The Mach Number, Ma, is the ratio of the fluid velocity to the velocity of sound inthat medium. • In Chemical Engineering, the Mach Number is commonly used in calculations involving high velocity gas flow. Where, u = Velocity of fluid a = Speed of sound in fluid medium
- 13. THANK U !