Chemical Engineering Exam  >  Chemical Engineering Questions  >  Estimate the heat transfer from a 40 W incand... Start Learning for Free
Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient is
Nu = 0.60 (Gr Pr) 0.25
Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the sphere
  • a)
    4.71 W
  • b)
    5.71 W
  • c)
    6.71 W
  • d)
    7.71 W
Correct answer is option 'D'. Can you explain this answer?
Verified Answer
Estimate the heat transfer from a 40 W incandescent bulb at 125 degree...
Explanation: Q = h A d t = 7.71 W.
View all questions of this test
Most Upvoted Answer
Estimate the heat transfer from a 40 W incandescent bulb at 125 degree...
Estimation of Heat Transfer from Incandescent Bulb

Given parameters:
- Power of bulb (P) = 40 W
- Temperature of bulb (T1) = 125°C
- Temperature of air (T2) = 25°C
- Diameter of bulb (D) = 50 mm

Step 1: Calculation of Grashof Number (Gr)

Gr = (gβΔT D^3)/(ν^2)
where,
g = acceleration due to gravity = 9.81 m/s^2
β = coefficient of thermal expansion of air = 1/T1
ΔT = temperature difference = T1 - T2
ν = kinematic viscosity of air at mean film temperature
D = diameter of bulb

Assuming the mean film temperature to be (T1 + T2)/2 = 75°C, we can calculate the kinematic viscosity of air using the Sutherland's equation:
ν = (1.458e-6 T^1.5)/(T + 110.4)
where T is the absolute temperature in Kelvin

ν = (1.458e-6 * 348.15^1.5)/(348.15 + 110.4) = 1.321e-5 m^2/s

Substituting the values in the Grashof number equation:
Gr = (9.81 * 1/T1 * (125 - 25) * (0.05)^3)/(1.321e-5)^2
Gr = 1.84e+11

Step 2: Calculation of Prandtl Number (Pr)

Pr = ν/α
where α is the thermal diffusivity of air at mean film temperature

Using the Sutherland's equation for α:
α = (1.83e-5 * T^1.5)/(T + 120)
where T is the absolute temperature in Kelvin

α = (1.83e-5 * 348.15^1.5)/(348.15 + 120) = 2.23e-5 m^2/s

Substituting the values in the Prandtl number equation:
Pr = 1.321e-5/2.23e-5
Pr = 0.593

Step 3: Calculation of Nusselt Number (Nu)

Nu = 0.60 * (Gr Pr)^0.25

Substituting the values:
Nu = 0.60 * (1.84e+11 * 0.593)^0.25
Nu = 71.46

Step 4: Calculation of Heat Transfer Coefficient (h)

h = Nu * k/D
where k is the thermal conductivity of air at mean film temperature

Using the Sutherland's equation for k:
k = (2.44e-2 * T^1.5)/(T + 273)
where T is the absolute temperature in Kelvin

k = (2.44e-2 * 348.15^1.5)/(348.15 + 273) = 2.07e-2 W/(m K)

Substituting the values in the heat transfer coefficient equation:
h = 71.46 * 2.07e-2/0.05
h = 29.50 W/(m^2 K)

Step 5: Calculation of Heat
Explore Courses for Chemical Engineering exam

Similar Chemical Engineering Doubts

Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer?
Question Description
Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer? for Chemical Engineering 2024 is part of Chemical Engineering preparation. The Question and answers have been prepared according to the Chemical Engineering exam syllabus. Information about Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer? covers all topics & solutions for Chemical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer?.
Solutions for Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer? in English & in Hindi are available as part of our courses for Chemical Engineering. Download more important topics, notes, lectures and mock test series for Chemical Engineering Exam by signing up for free.
Here you can find the meaning of Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer?, a detailed solution for Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer? has been provided alongside types of Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice Estimate the heat transfer from a 40 W incandescent bulb at 125 degree Celsius to 25 degree Celsius in quiescent air. Approximate the bulb as a 50 mm diameter sphere. The approximate correlation for the convection coefficient isNu = 0.60 (Gr Pr)0.25Where the different parameters are evaluated at the mean film temperature, and characteristics length is the diameter of the spherea)4.71 Wb)5.71 Wc)6.71 Wd)7.71 WCorrect answer is option 'D'. Can you explain this answer? tests, examples and also practice Chemical Engineering tests.
Explore Courses for Chemical Engineering exam
Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev