The equation for the local heat transfer coefficient h, for a fluid flow of velocity Vin...
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
6.4 For laminar flow over a flat plate, the local heat trans- fer coefficient h, is known to vary as x72, where 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 to the local coefficient at x? -1/2 6.4 For laminar flow over a flat plate, the local heat trans- fer coefficient h, is known to...
A) Determine the convection heat transfer coefficient for the flow of air. [W/m2·°C] B) Determine the convection heat transfer coefficient for water. [W/m2·°C] The velocity of the fluid is 9 m/s in an 8-cm diameter and 7-m-long tube when the tube is subjected to uniform heat flux from all surfaces. Use fluid properties at 25°C. Water or Air D 8 cm L=7 m Given: The properties of air at 25°C are: k 0.02551 W/m."C v 1.562 10-5 m2/s Pr =...
(a) (iWhen is heat transfer through a fluid by conduction or by convection? For what case is the rate of heat transfer higher? How does the convection heat transfer coefficient differ from the thermal conductivity of a fluid? (ii) Explain the physical significance of Nusselt number (ii) By definition, discuss hydraulic diameter. Obtain an expression for hydraulic diameter of a circular tube of diameter, D (b) The local atmospheric pressure in Gboko, Benue State Nigeria (elevation 1610 m), is 834...
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...
Heat transfer stream velocity is 34 m/s. the plate is the end of the plate: the surface of Air lr 120 C is fowing over the top surface of a 5.3-m long: 2.5-m width fnat plate. The air ity is 34 m/s, the plate is subjected to constant heat flux of 153 W/mi. Determine st ae (a)the friction coefficient, (b) the convection heat transfer coefficient, and (c) temperature. Also evaluate the surface temperature at x- 0.5 m of the plate?...
Hot carbon dioxide exhaust gas at 1 atm is being cooled by flat plates. The gas at 220°C flows in parallel over the upper and lower surfaces of a 1.4-m-long flat plate at a velocity of 1.8 m/s and the flat plate surface temperature is maintained at 80°C. The properties of CO2 at Tf = (220°C + 80°C)/2 = 150°C are k = 0.02652 W/m∙K, ν = 1.627 × 10−5 m2/s, and Pr = 0.7445. Determine the local convection heat...
I need Q5 Heat transfer Problem(.) In an experiment, it is found that the local convection coefficient on a flat plate of length L is given by: (10 marks) h,-o923 (k/x){(V. ?.?)/p)as, where k, V, p, and ? are constants. Determine the average convection coefficient over the plate h Problem (5) (10 marks) Milk is flowing with a mass flow rate m 0.6 kg/s, in a pipe with internal diameter - 3 cm. Its initial temperature is 50 °C and...
Problem 3 Consider a slab of thickness L as illustrated in the figure below. A fluid at a temperature T., with a heat transfer coefficient hi flows over the surface at x = 0, and another fluid at a temperature To2 with heat transfer coefficient h2 flows over the surface at x = L of the plate. (a) Develop an expression for the heat flow O through an area A of the plate. (b) Calculate the heat transfer rate through...