Question

A heating unit is made in the form of a vertical tube of 50 mm outside diameter and 1.2 m height. The tube is fitted with 20 steel fins of rectangular section with height 40 mm and thickness 2.5 mm. The temperature at the base of fin is 75 degree Celsius, the surrounding air temperature is 20 degree Celsius and the heat transfer coefficient between the fin as well as the tube surface and the surrounding air is 9.5 W/m² K. If thermal conductivity of the fin material is 55 W/m K, find the amount of heat transferred from the tube with fin

a.

1234 .98 W

b.

1004.84 W

c.

6539.83 W

d.

3829.46 W

Posted under Heat Transfer

Answer: (b).1004.84 W

Interact with the Community - Share Your Thoughts

Uncertain About the Answer? Seek Clarification Here.

Understand the Explanation? Include it Here.

Q. A heating unit is made in the form of a vertical tube of 50 mm outside diameter and 1.2 m height. The tube is fitted with 20 steel fins of rectangular section with height 40 mm and...

Similar Questions

Explore Relevant Multiple Choice Questions (MCQs)

Q. The fins would be effective for heat conduction if the ratio P k/h A C is

Q. Consider the following statements pertaining to heat transfer through fins

(i) They must be arranged at right angles to the direction of flow of working fluid

(ii) The temperature along the fin is variable and accordingly heat transfer rate varies along the fin elements

(iii) Fins are equally effective irrespective whether they are on the hot side or cold side of the fluid

(iv) Fins are made of materials that have thermal conductivity higher than that of wall

Identify the correct statements

Q. An increase in fin effectiveness is caused by high value of

(i) Convective coefficient

(ii) Thermal conductivity

(iii) Circumference

(iv) Area

Identify the correct statement

Q. Choose the correct option regarding fin efficiency and fin effectiveness

Q. The handle of a saucepan, 30 cm long and 2 cm in diameter, is subjected to 100 degree Celsius temperature during a certain cooking operation. The average unit surface conductance over the handle surface is 7.35 W/m² degree in the kitchen air at 24 degree Celsius. The cook is likely to grasp the last 10 cm of the handle and hence the temperature in this region should not exceed 38 degree Celsius. What should be the thermal conductivity of the handle material to accomplish it? The handle may be treated as a fin insulated at the tip

Q. Let us assume a square section fin split longitudinally and used as two fins. This will result in

Q. Mark the false statement regarding effectiveness of fin

Q. The convective coefficient in boilers and condenser is

Q. In thermometer heat is dissipated from which end?

Q. The thermometric well is treated as a fin of

Q. Thermometric well apparatus doesn’t consists of

Q. For what purpose we use thermometric well?

Q. In thermometric well, the error can be minimized by

(i) The value of parameter ml slows down by some quantity.

(ii) Lagging of the tube so that conduction of heat along its length is arrested

Identify the correct option

Q. Suppose there are two reservoirs A and B. Let TA and TB be the temperatures of respective reservoirs. At any instant say TA = TB. In this case maximum temperature occurs at

Q. The relevant boundary conditions in case of heat transfer from a bar connected to two heat sources at different temperatures are

Q. “The tube that is used in thermometric well is considered as a hollow fin and the temperature distribution is obtained by using the relation applicable to infinitely long fin”. Choose the correct option

Q. “The diameter of well does not have any effect on temperature measurement by the thermometer”. Choose the correct option

Q. Which fin yields the maximum heat flow per unit weight?

Q. Heat dissipation by every segment of the fin is

Q. “If a fin of a constant cross section is used, there would be wastage of material”. Chose the correct option.

Recommended Subjects

Are you eager to expand your knowledge beyond Heat Transfer? We've handpicked a range of related categories that you might find intriguing.

Click on the categories below to discover a wealth of MCQs and enrich your understanding of various subjects. Happy exploring!