Heat Transfer

Questions in Exam 7-11

A. Conduction

Conduction Through a Plane Wall

Thermal Resistance (R) 1: Cylindrical Wall Conduction Resistance (C/W)

Total Thermal Resistance 2

Thermal Resistance (R) 3: Composite Plane Wall

Thermal Resistance (R) 4: Composite Plane Wall

Thermal Resistance (R) 5: Composite Plane Wall

Thermal Resistance (R) 6: Composite Plane Wall

Thermal Resistance (R) 7: Composite Plane Wall

Convection Pin Fins (Heat Rate)

B. Convection

Convection

Wall Surface Temperature using Convection

Convection Term: Prandtl Number

Laminar Flow/Reynolds Number

Reynolds Number via Hydraulic Number

Minimum Heat Flux

Natural (Free) Convection - Vertical Flat Plate in Large Body of Stationary Fluid

C. Radiation

Radiation Intensity

Radiation: Rate of Energy 1

Radiation: Rate of Energy 2

Radiation: Rate of Energy 3 (Heat Flux)

Radiation: Rate of Energy 4 (Energy Emitted in an hour)

Radiation Statements and Types of Bodies

Shape Factor (View Factor, Configuration Factor) Relations

Radiation between Two Bodies: Body Small Compared to its Surroundings

Net Energy Exchange by Radiation between Two Black Bodies 1 (Plate)

Net Energy Exchange by Radiation between Two Black Bodies 2 (Enclosed Box)

Net Energy Exchange by Radiation between Two Black Bodies 3 (Thin-Walled Cylinder)

Net Energy Exchange by Radiation between Two Diffuse-Gray Surfaces that Form an Enclosure

D. Transient Processes

Biot Number 1: Formula

Biot Number 2

Temperature Variation of the Body with Time (Constant Fluid Temperature): Solve for Body Temperature

Temperature Variation of the Body with Time (Constant Fluid Temperature): Solve for Time

E. Heat Exchanges

Heat Exchange

Log Mean Temperature Difference (LMTD) (Counterflow)

Log Mean Temperature Difference (LMTD) (Parallel Flow)

Area for Counterflow Heat Exchanger

Area for Counterflow Heat Exchanger with Correction Factor

A. Conduction

Conduction Through a Plane Wall

19.6.pdf

Conduction Through a Plane Wall

Thermal Resistance (R) 1: Cylindrical Wall Conduction Resistance (C/W)

19.9.pdf

Cylindrical Wall Conduction Resistance

Total Thermal Resistance 2

19.5.pdf

Thermal Resistance

Thermal Resistance (R) 3: Composite Plane Wall

Ncees question 79.pdf

Conduction and Thermal Resistance (R)

Thermal Resistance (R) 4: Composite Plane Wall

19.1.pdf

heat transfer per area

Thermal Resistance (R) 5: Composite Plane Wall

19.3.pdf

Heat Transfer per Unit

Thermal Resistance (R) 6: Composite Plane Wall

19.2.pdf

Conduction for the unknown temp

Thermal Resistance (R) 7: Composite Plane Wall

19.8.pdf

Composite Plane Wall

Convection Pin Fins (Heat Rate)

19.11.pdf

Convection fins

B. Convection

Convection

Ncees question 80.pdf

Convection

Wall Surface Temperature using Convection

20.5.pdf

Surface Temperature

Convection Term: Prandtl Number

20.3.pdf

Laminar Flow/Reynolds Number

with Fluid Flow Characterization

20.4.pdf

Reynolds Number via Hydraulic Number

20.2.pdf

Reynolds Number with DH

Minimum Heat Flux

20.9.pdf

Minimum Heat Flux

Natural (Free) Convection - Vertical Flat Plate in Large Body of Stationary Fluid

20.8.pdf

Natural Free Convection (Vertical Flat Plate

C. Radiation

Radiation Intensity

21.4.pdf

Radiation: Rate of Energy 1

21.9.pdf

Rate of Energy

Radiation: Rate of Energy 2

21.8.pdf

Rate of Energy 2

Radiation: Rate of Energy 3 (Heat Flux)

21.7.pdf

Radiation Heat Flux

Radiation: Rate of Energy 4 (Energy Emitted in an hour)

21.10.pdf

Energy Emitted in a Hour

Radiation Statements and Types of Bodies

21.1.pdf

Shape Factor (View Factor, Configuration Factor) Relations

Ncees question 81.pdf

Radiation between Two Bodies: Body Small Compared to its Surroundings

21.3.pdf

Body Small Compared to its Surroundings

Net Energy Exchange by Radiation between Two Black Bodies 1 (Plate)

21.6.pdf

Net Energy Exchange 2

Net Energy Exchange by Radiation between Two Black Bodies 2 (Enclosed Box)

Ncees question 82.pdf

Net Energy Exchange by Radiation

Net Energy Exchange by Radiation between Two Black Bodies 3 (Thin-Walled Cylinder)

21.2.pdf

Net Radiation Exchange

Net Energy Exchange by Radiation between Two Diffuse-Gray Surfaces that Form an Enclosure

21.5.pdf

Net Energy Exchange by Radiation between Two Diffuse-Gray Surface

D. Transient Processes

Biot Number 1: Formula

19.4.pdf

Biot Number 2

Ncees question 83.pdf

Biot Number

Temperature Variation of the Body with Time (Constant Fluid Temperature): Solve for Body Temperature

19.7.pdf

Body Temp after time

Temperature Variation of the Body with Time (Constant Fluid Temperature): Solve for Time

19.10.pdf

Cooling Time

E. Heat Exchanges

Heat Exchange

Ncees question 84.pdf

Heat Exchanger

Log Mean Temperature Difference (LMTD) (Counterflow)

Ncees question 85.pdf

LMTD counterflow

Log Mean Temperature Difference (LMTD) (Parallel Flow)

20.7.pdf

LMTD Parallel Flow

Area for Counterflow Heat Exchanger

20.6.pdf

Heat Transfer Area F =1

Area for Counterflow Heat Exchanger with Correction Factor

20.1.pdf

Area for Heat Exchange

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