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6.4 For laminar flow over a flat plate, the local heat trans- fer coefficient h, is known to vary as x72, where x i...
1. For laminar flow over a flat plate, the local heat transfer coefficient, hx, is known to vary as hx~Cx-12 where C is...
1. For laminar flow over a flat plate, the local heat transfer coefficient, hx, is known to vary as hx~Cx-12 where C is a constant and x is the distance from the leading edge (x-0) of the plate. What is the ratio of the average coefficient between the leading edge and some location x on the plate (h,) to the local coefficient at x (h)? (15%)
1. For laminar flow over a flat plate, the local heat transfer coefficient, hx,...
For laminar flow over a flat plate, the local heat transfer coefficient hx =x-1/2 where x...
For laminar flow over a flat plate, the local heat transfer coefficient hx =x-1/2 where x is the distance from the leading edge (x-0) of the plate. What is the average heat transfer coefficient from the leading edge to location x
Air flows with a velocity of 20 m/s over a flat plate of length 2 m....
Air flows with a velocity of 20 m/s over a flat plate of length 2 m. The air properties are k = 0.030 W/mK, V = 20.92 x 10-6 m/s, Pr=0.700. a. What type(s) of flow (laminar/turbulent) exist on this plate? b. If the following relations are given for the laminar and turbulent local convection coefficients over the plate, haminar (x) = 20 houwbudemo (x) = .52 where x is the distance from the plate leading edge. Find the average...
The equation for the local heat transfer coefficient h, for a fluid flow of velocity Vin...
The equation for the local heat transfer coefficient h, for a fluid flow of velocity Vin the x direction over a specific constant temperature surface is Nuz = CRe: Prn where C and n are constants. Assume the fluid properties k, p, Pr, V, and Cp are constant and known. The heat transfer coefficient over the entire surface is governed by this equation. At a position x1 = 20 cm from the leading edge of the plate, the local heat...
8) Air flows over a flat plate at a velocity of 20 m/s and a temperature...
8) Air flows over a flat plate at a velocity of 20 m/s and a temperature of 20C. The surface temperature of the plate is 134C, and the length of the plate in the direction of flow is 1.5 m. Properties of air may be taken as A-0.030 W/m-C, Pr-0.700, and a/p 2.092E-5 m/s (5% ) What is the location from the leading edge, X, where the flow becomes turbulent Re (20)15 a l Ve30s T20 T LaLS 523 m...
clear handwriting please. Consider laminar flow, parallel flow past an isothermal plate of length L, providing...
clear handwriting please.
Consider laminar flow, parallel flow past an isothermal plate of length L, providing an average heat transfer coefficient of h. If the plate is divided into N smaller plates, each of length, Ly = L/N, determine an expression for the ratio of the heat transfer coefficient averaged over the N plates to the heat transfer coefficient averaged over the single plate, hun Known : Length of isothermal flat plate in parallel flow, L Find : Expression for...
Consider How over a flat plate for which it is desired to determine the average heat...
Consider How over a flat plate for which it is desired to determine the average heat transfer coefficient over the short span .x, tox-, hi--2, where (X2-xi)くし. 7 X1 x2 Provide three different expressions that can be used to evaluate /112 in terims of (a) the local coefficient at Cx2/2. (b the local coefficients at x and x2. and C the average coefficients at xi and x Indicate which of the expressions is approximate. Considering whether the flow is laminar,...
Problem 1: In an experiment, Mercury at film temperature of 127 C flows over a flat...
Problem 1: In an experiment, Mercury at film temperature of 127 C flows over a flat plate of length 500 mm and width of 20 mm. Results reveal that the velocity boundary layer thickness at the distance of 5 mm from the leading edge is 0.4 pim, and also th convection heat transfer coefficients in the laminar and turbulent regions (Rex.-2 x 10) take the form of GX İsit where x is measured in meters from the leading edge of...
1. Consider a laminar, incompressible flow over a flat plate where the velocity is given by...
1. Consider a laminar, incompressible flow over a flat plate where the velocity is given by Where η U 1 Show that the displacement thickness, momentum thickness, and shape factor may be expressed as 39 and H-2.69 Hint: First show that Ll
The top surface of a flat plate is maintained at a constant temperature of 115 °C....
The top surface of a flat plate is maintained at a constant temperature of 115 °C. Water at a temperature of 40 °C flows over the top surface. The temperature gradient at a particular location x-x1 from the leading edge of the plate has been experimentally determined to be -30 K/mm. For the top surface: a) Determine the local heat transfer coefficient at x =X1, (Note: For this application, material properties of the fluid are to be determined based on...
1. For laminar flow over a flat plate, the local heat transfer coefficient, hx, is known to vary as hx~Cx-12 where C is a constant and x is the distance from the leading edge (x-0) of the plate. What is the ratio of the average coefficient between the leading edge and some location x on the plate (h,) to the local coefficient at x (h)? (15%)
1. For laminar flow over a flat plate, the local heat transfer coefficient, hx,...
For laminar flow over a flat plate, the local heat transfer coefficient hx =x-1/2 where x is the distance from the leading edge (x-0) of the plate. What is the average heat transfer coefficient from the leading edge to location x
Air flows with a velocity of 20 m/s over a flat plate of length 2 m. The air properties are k = 0.030 W/mK, V = 20.92 x 10-6 m/s, Pr=0.700. a. What type(s) of flow (laminar/turbulent) exist on this plate? b. If the following relations are given for the laminar and turbulent local convection coefficients over the plate, haminar (x) = 20 houwbudemo (x) = .52 where x is the distance from the plate leading edge. Find the average...
The equation for the local heat transfer coefficient h, for a fluid flow of velocity Vin the x direction over a specific constant temperature surface is Nuz = CRe: Prn where C and n are constants. Assume the fluid properties k, p, Pr, V, and Cp are constant and known. The heat transfer coefficient over the entire surface is governed by this equation. At a position x1 = 20 cm from the leading edge of the plate, the local heat...
8) Air flows over a flat plate at a velocity of 20 m/s and a temperature of 20C. The surface temperature of the plate is 134C, and the length of the plate in the direction of flow is 1.5 m. Properties of air may be taken as A-0.030 W/m-C, Pr-0.700, and a/p 2.092E-5 m/s (5% ) What is the location from the leading edge, X, where the flow becomes turbulent Re (20)15 a l Ve30s T20 T LaLS 523 m...
clear handwriting please.
Consider laminar flow, parallel flow past an isothermal plate of length L, providing an average heat transfer coefficient of h. If the plate is divided into N smaller plates, each of length, Ly = L/N, determine an expression for the ratio of the heat transfer coefficient averaged over the N plates to the heat transfer coefficient averaged over the single plate, hun Known : Length of isothermal flat plate in parallel flow, L Find : Expression for...
Consider How over a flat plate for which it is desired to determine the average heat transfer coefficient over the short span .x, tox-, hi--2, where (X2-xi)くし. 7 X1 x2 Provide three different expressions that can be used to evaluate /112 in terims of (a) the local coefficient at Cx2/2. (b the local coefficients at x and x2. and C the average coefficients at xi and x Indicate which of the expressions is approximate. Considering whether the flow is laminar,...
Problem 1: In an experiment, Mercury at film temperature of 127 C flows over a flat plate of length 500 mm and width of 20 mm. Results reveal that the velocity boundary layer thickness at the distance of 5 mm from the leading edge is 0.4 pim, and also th convection heat transfer coefficients in the laminar and turbulent regions (Rex.-2 x 10) take the form of GX İsit where x is measured in meters from the leading edge of...
1. Consider a laminar, incompressible flow over a flat plate where the velocity is given by Where η U 1 Show that the displacement thickness, momentum thickness, and shape factor may be expressed as 39 and H-2.69 Hint: First show that Ll
The top surface of a flat plate is maintained at a constant temperature of 115 °C. Water at a temperature of 40 °C flows over the top surface. The temperature gradient at a particular location x-x1 from the leading edge of the plate has been experimentally determined to be -30 K/mm. For the top surface: a) Determine the local heat transfer coefficient at x =X1, (Note: For this application, material properties of the fluid are to be determined based on...
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