If the condensation occurs at the outside surface of the tubes, then the equation for the heat transfer coefficient cab be represented as which one of the following?

hVER=0.723\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)} ]^{0.25}\)

hVER=0.943\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

hVER=1.13\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)} ]^{0.25}\)

hVER=0.723\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)} ]^{0.25}\)

hVER=0.725\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L) }]^{0.25}\)

What is the expression for heat transfer coefficient for a horizontally placed condenser?

hHOR=0.943\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

hHOR=0.743\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

hHOR=0.723\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

hHOR=0.725\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

What is the expression for heat transfer coefficient for a vertically placed condenser?

hVER=0.743\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

hVER=0.943\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

hVER=0.743\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

hVER=0.723\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)} ]^{0.25}\)

hVER=0.725\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L) }]^{0.25}\)

Explore topic-wise MCQs in Heat Transfer.

This section includes 8 Mcqs, each offering curated multiple-choice questions to sharpen your Heat Transfer knowledge and support exam preparation. Choose a topic below to get started.

1.	If the condensation occurs at the outside surface of the tubes, then the equation for the heat transfer coefficient cab be represented as which one of the following?
A.	hVER=0.943\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)
B.	hVER=1.13\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)} ]^{0.25}\)
C.	hVER=0.723\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)} ]^{0.25}\)
D.	hVER=0.725\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L) }]^{0.25}\)
Answer» C. hVER=0.723\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)} ]^{0.25}\)

Discussion

2.	If the condensation occurs at the outside surface of the tubes, then the equation for the heat transfer coefficient does not change.
A.	True
B.	False
Answer» C.

Discussion

3.	An increase in number of tubes will lead to larger condensate thickness in the lower tubes leading to ____________ heat transfer coefficient
A.	Larger
B.	Smaller
C.	Zero
D.	Infinite
Answer» C. Zero

Discussion

4.	A large value of temperature difference will lead to more condensation and hence a __________ heat transfer coefficient
A.	Larger
B.	Smaller
C.	Zero
D.	Infinite
Answer» C. Zero

Discussion

5.	A high value of latent heat hfg means that the heat transfer coefficient would __________
A.	Increase
B.	Decrease
C.	Remains same
D.	Becomes zero
Answer» B. Decrease

Discussion

6.	As thermal conductivity kF increases, the heat transfer coefficient ________
A.	Increases
B.	Decreases
C.	Remains same
D.	Jumps to a high value
Answer» B. Decreases

Discussion

7.	What is the expression for heat transfer coefficient for a horizontally placed condenser?
A.	hHOR=0.943\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)
B.	hHOR=0.743\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)
C.	hHOR=0.723\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)
D.	hHOR=0.725\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)
Answer» E.

Discussion

8.	What is the expression for heat transfer coefficient for a vertically placed condenser?
A.	hVER=0.943\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)
B.	hVER=0.743\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)
C.	hVER=0.723\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)} ]^{0.25}\)
D.	hVER=0.725\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L) }]^{0.25}\)
Answer» B. hVER=0.743\([\frac{K^3 p^2 g h_{fg}}{μx(T_{sat} – T_L)}]^{0.25}\)

Discussion

Explore topic-wise MCQs in Heat Transfer.

If the condensation occurs at the outside surface of the tubes, then the equation for the heat transfer coefficient cab be represented as which one of the following?

If the condensation occurs at the outside surface of the tubes, then the equation for the heat transfer coefficient does not change.

An increase in number of tubes will lead to larger condensate thickness in the lower tubes leading to ____________ heat transfer coefficient

A large value of temperature difference will lead to more condensation and hence a __________ heat transfer coefficient

A high value of latent heat hfg means that the heat transfer coefficient would __________

As thermal conductivity kF increases, the heat transfer coefficient ________

What is the expression for heat transfer coefficient for a horizontally placed condenser?

What is the expression for heat transfer coefficient for a vertically placed condenser?