What is the heat flux (W/m2) to an object when subjected to convection heat transfer environment...

For a body, the convection heat transfer coefficient to the adjacent air is 33 W/(m2.°C), and...

For a body, the convection heat transfer coefficient to the adjacent air is 33 W/(m2.°C), and the radiative heat transfer coefficient from this body to another body is 36 W/(m2.°C). If the temperature of the first body and the adjacent air is 188 °C and 22 °C, respectively, determine the temperature of the second body so that the heat transferred by convection is equal in magnitude to the heat transferred by radiation

Consider a surface of area 26 m2 at which the convection and radiation heat transfer coefficients...

Consider a surface of area 26 m2 at which the convection and radiation heat transfer coefficients are 13.05 W/m2·K and 20.39 W/m2·K, respectively. Assume the medium and the surrounding surfaces are at the same temperature. Determine the single equivalent heat transfer coefficient (in W/m2·K). (Round the final answer to two decimal places.)

Determine the hydrodynamic and thermal entry lengths as well as the convection heat transfer coefficient for...

Determine the hydrodynamic and thermal entry lengths as well as the convection heat transfer coefficient for the flow of (a) air and (b) water at a velocity of 2 m/s in an 8 cm diameter and 7 m long tube when the tube is subjected to a uniform heat flux from all surfaces. Use fluid properties at 300 K.

The heat flux, q, is 6000 W/m2 at the surface of an electrical resistance heater. The...

The heat flux, q, is 6000 W/m2 at the surface of an electrical resistance heater. The heater temperature is 120C when it is cooled by air at 70C. (a) What is the average convective heat transfer coefficient, ? (b) What will the heater temperature be if q is reduced to 2000 W/m2?

1. A thick metal plate (alpha = 3.5 x 10-6 m2/s and k = 0.7 W/m-K),...

1. A thick metal plate (alpha = 3.5 x 10-6 m2/s and k = 0.7 W/m-K), initially at a uniform temperature of 100oC, is suddenly exposed to a convection environment of water at 20oC, giving a very large convection coefficient. a. Sketch the surface heat flux, q", as a function of time b. Using an explicit numerical scheme with a time step of 60 s, calculate the time required for the temperature to change 80 mm from the surface.

It's a heat transfer question. A stainless steel fin with a constant base temperature (900K) and...

It's a heat transfer question. A stainless steel fin with a constant base temperature (900K) and with an insulated end. Apply convection at all cylindrical surfaces except the base and the tip. The convection coefficient, h = 50 W/(m2·K), and fluid temperature of T∞ = 300K. Plot the temperature distribution along the center axis line (T vs x). Include a contour plot across the cross section of the fin. Assume zero contact resistance between the sections. K=19.8W/m-k Cp=557J/Kg-K Rho= 7900Kg/m^3...

71 mm thick horizontal plate made of an opaque material of thermal conductivity k= 25 W/m-K....

71 mm thick horizontal plate made of an opaque material of thermal conductivity k= 25 W/m-K. At the bottom, water flows at a temperature of T∞,w = 25C, whereas air flows at the top of the plate at T∞,a = 710 C having convection coefficient of ha= 71 W/m2-K. Assuming a diffused top of the plate that receives an irradiated flux of 7100W/m2, of which 30% is reflected back. The top and bottom surface temperatures are maintained at 43 C...

4. Answer the below questions: i. When the convection heat transfer between a solid surface and...

4. Answer the below questions: i. When the convection heat transfer between a solid surface and the adjacent fluid will be by pure conduction? ii. Why Its not recommended to use steam in same direction versus products in heating/coolig by heat exchangers?

Determine the total rate of heat transfer from a person standing in a breezy room at...

Determine the total rate of heat transfer from a person standing in a breezy room at 20 ̊C if the exposed surface area and the average outer surface temperature of the person are 1.2 m2 and 29 ̊C, respectively, and the convection heat transfer coefficient is 5 W/(m2- ̊C). The Stefan-Boltzmann constant is 5.67 x 10-8 W/(m2- K4) and human skin emissivity is 0.95.

You want to limit the heat flux density (heat intensity) by a wall to 10 W...

You want to limit the heat flux density (heat intensity) by a wall to 10 W / (m2). The outside temperature is 4 ° C and the internal temperature 37 ◦C. How thick should a steel wall (λ = 17, 3 W / (m · K)) be to meet requirements? How thick must a mineral wool disk (λ = 0, 038 W / (m · K) be) to give the same greatest heat intensity? Disregard the heat transfer rates between...