Solutions to Problems in Heat Transfer : Transient Conduction or Unsteady Conduction /

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Bibliographic Details
Author / Creator:	Elmardi, Osama Mohammed, author.
Imprint:	Hamburg : Diplomica Verlag, 2017.
Description:	1 online resource (104 pages)
Language:	English
Subject:	Heat -- Transmission. Heat -- Transmission.
Format:	E-Resource Book
URL for this record:	http://pi.lib.uchicago.edu/1001/cat/bib/12351022

Hidden Bibliographic Details
ISBN:	9783960676232 3960676239 3960671237 9783960671237
Notes:	Print version record.
Other form:	Print version: Elmardi, Osama Mohammed. Solutions to Problems in Heat Transfer. Transient Conduction or Unsteady Conduction. Hamburg : Diplomica Verlag, ©2017 9783960671237

MARC


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505	0		\|a Solutions to Problems in Heat Transfer. Transient Conduction or Unsteady Conduction -- Dedication -- Acknowledgement -- Preface -- Contents -- Chapter One: Introduction -- 1.1 General Introduction -- 1.2 Definition of Lumped Capacity or Capacitance System -- 1.3 Characteristic Linear Dimensions of Different Geometries -- 1.4 Derivation of Equations of Lumped Capacitance System -- 1.5 Solved Examples -- Chapter Two: Time Constant and Response of Temperature MeasuringInstruments -- 2.1 Introduction -- 2.2 Solved Examples -- Chapter Three: Transient Heat Conduction in Solids with Finite Conduction and Convective Resistances -- 3.1 Introduction -- 3.2 Solved Examples -- Chapter Four: Transient Heat conduction in semi -- infinite solids -- 4.1 Introduction -- 4.2 Penetration Depth and Penetration Time -- 4.3 Solved Examples -- Chapter Five: Systems with Periodic Variation of Surface Temperature -- 5.1 Introduction -- 5.2 Solved Examples -- Chapter Six: Transient Conduction with Given Temperature Distribution -- 6.1 Introduction -- 6.2 Solved Examples -- Chapter Seven: Additional Solved Examples in Lumped Capacitance System -- 7.1 Example (1): Determination of Temperature and Rate of Coolingof a Steel Ball -- 7.2 Example (2): Calculation of the Time Required to Cool a Thin Copper Plate -- 7.3 Example (3): Determining the Conditions under which the Contact Surface Remains at Constant Temperature -- 7.4 Example (4): Calculation of the Time Required for the Plate to Reach a Given Temperature -- 7.5 Example (5): Determination of the Time Required for the Plate to Reach a Given Temperature -- 7.6 Example (6): Determining the Temperature of a Solid Copper Sphere at a Given Time after the Immersion in a Well -- Stirred Fluid -- 7.7 Example (7): Determination of the Heat Transfer Coefficient -- 7.8 Example (8): Determination of the Heat Transfer Coefficient.
505	8		\|a 7.9 Example (9): Calculation of the Initial Rate of Cooling of a Steel Ball -- 7.10 Example (10): Determination of the Maximum Speed of a Cylindrical Ingot inside a Furnace -- 7.11 Example (11): Determining the Time Required to Cool a Mild Steel Sphere, the Instantaneous Heat Transfer Rate, and the Total Energy Transfer -- 7.12 Example (12): Estimation of the Time Required to Cool a Decorative Plastic Film on Copper Sphere to a Given Temperature using Lumped Capacitance Theory -- 7.13 Example (13): Calculation of the Time Taken to Boil an Egg -- 7.14 Example (14): Determining the Total Time Required for a Cylindrical Ingot to be heated to a Given Temperature -- Chapter Eight: Unsolved Theoretical Questions and Further Problems in Lumped Capacitance System -- 8.1 Theoretical Questions -- 8.2 Further Problems -- References -- Appendix -- About the Author.
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Solutions to Problems in Heat Transfer : Transient Conduction or Unsteady Conduction /

MARC

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