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Chemical Engineering Exam  >  Chemical Engineering Tests  >  Test: Correlation For Convective Transport - Chemical Engineering MCQ

Test: Correlation For Convective Transport - Chemical Engineering MCQ


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10 Questions MCQ Test - Test: Correlation For Convective Transport

Test: Correlation For Convective Transport for Chemical Engineering 2024 is part of Chemical Engineering preparation. The Test: Correlation For Convective Transport questions and answers have been prepared according to the Chemical Engineering exam syllabus.The Test: Correlation For Convective Transport MCQs are made for Chemical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Correlation For Convective Transport below.
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Test: Correlation For Convective Transport - Question 1
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Assume the following thermos-physical properties of air
D = 0.256 * 10 -4 m2/s
µ = 1.86 * 10 -5 kg/m s
= 1.005 k J/kg degree Celsius
= 0.701
p =1.165 kg/m3
Find the value of Schmidt number

Detailed Solution for Test: Correlation For Convective Transport - Question 1

Explanation: Sc = µ/p D.

Test: Correlation For Convective Transport - Question 2
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Air at 30 degree Celsius temperature flows at 45 m/s past a wet flat plate of length 0.5 m. Estimate the value of mass transfer coefficient. Assume that the water vapor content of air initially is negligible and take the following thermos-physical properties of air
D = 0.256 * 10 -4 m2/s
µ = 1.86 * 10 -5 kg/m s
= 1.005 k J/kg degree Celsius
= 0.701
p =1.165 kg/m3

Detailed Solution for Test: Correlation For Convective Transport - Question 2

Explanation: h = 0.0296 (Re) -0.2 (V)/ (Sc) 0.667.

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Test: Correlation For Convective Transport - Question 3
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Consider the above problem, find out the value of Reynolds number 

Detailed Solution for Test: Correlation For Convective Transport - Question 3

Explanation: Re = V l p/ µ.

Test: Correlation For Convective Transport - Question 4
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 Assume the following thermos-physical properties of air
D =0.82 * 10 -6 m2/s
v = 15.5 * 10 -6 m2/s
Find the value of Schmidt number
Detailed Solution for Test: Correlation For Convective Transport - Question 4

Explanation: Schmidt number = v/D = 1.89.

Test: Correlation For Convective Transport - Question 5
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Air at 1 atm and 25 degree Celsius temperature, flows inside a 3 cm diameter tube with a velocity of 5.25 m/s. Determine mass transfer coefficient for iodine transfer from the air stream to the weak surface. Assume the following thermos-physical properties of air
D =0.82 * 10 -6 m2/s
v = 15.5 * 10 -6 m2/s
Detailed Solution for Test: Correlation For Convective Transport - Question 5

Explanation: h = (Sherwood number) D/d =0.0176 m/s.

Test: Correlation For Convective Transport - Question 6
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Consider the above problem, find the value of Sherwood number
Detailed Solution for Test: Correlation For Convective Transport - Question 6

Explanation: Sherwood number = -0.023 (Re) 0.83 (Sc) 0.44 = 64.44.

Test: Correlation For Convective Transport - Question 7
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The empirical correlation for local mass transfer coefficient for laminar boundary layer flow past a flat plate is given by 
Detailed Solution for Test: Correlation For Convective Transport - Question 7

Explanation: Sh = h ml/D = .332 (Re) 0.5 (Sc) 0.33.

Test: Correlation For Convective Transport - Question 8
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 The empirical correlation for local mass transfer coefficient for turbulent boundary layer flow past a flat plate is given by 
Detailed Solution for Test: Correlation For Convective Transport - Question 8

Explanation: Sh = h ml/D.

Test: Correlation For Convective Transport - Question 9
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 The expression for average mass transfer coefficient is 
Detailed Solution for Test: Correlation For Convective Transport - Question 9

Explanation: Sh = h ml/D = 0.664 (Re) 0.5 (Sc) 0.33.

Test: Correlation For Convective Transport - Question 10
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Sherwood number is a function of
Detailed Solution for Test: Correlation For Convective Transport - Question 10

Explanation: It is a function of Reynolds number and Schmidt number.

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