Verfügbarkeit: Monitoring of thermal stresses and heating optimization including industrial applications /

Monitoring of thermal stresses and heating optimization including industrial applications /:

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Bibliographische Detailangaben
Weitere Verfasser:	Taler, Jan (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York, : Nova Publishers, [2016]
Schriftenreihe:	Materials science and technologies
Schlagworte:	Pressure vessels > Testing. Thermal stresses. Heat > Transmission. Contraintes thermiques. Chaleur > Transmission. thermal stress. heat transmission. TECHNOLOGY & ENGINEERING > Technical & Manufacturing Industries & Trades. Heat > Transmission Pressure vessels > Testing Thermal stresses
Online-Zugang:	Volltext
Beschreibung:	1 online resource.
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781634853798 1634853792

Internformat

MARC


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245	0	0	\|a Monitoring of thermal stresses and heating optimization including industrial applications / \|c editors, Jan Taler, Piotr Dzierwa, Dawid Taler, Magdalena Jaremkiewicz, and Marcin Trojan.
264		1	\|a New York, : \|b Nova Publishers, \|c [2016]
300			\|a 1 online resource.
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490	0		\|a Materials science and technologies
504			\|a Includes bibliographical references and index.
588			\|a Description based on print version record and CIP data provided by publisher.
505	0		\|a Preface; List of Symbols; Greek Symbols; Subscripts; Chapter 1; Introduction; Chapter 2; Comparison of the Design and Operation of Supercritical and Drum Boilers with Natural Circulation; 2.1. Natural Circulation Drum Boilers versus Supercritical Once-through Boilers; 2.2. Thermal and Flow Processes in Benson Boilers; 2.3. Monitoring and Optimization of Heating and Cooling of the Boiler Pressure Components; 2.4. Mathematical Modelling of Steam Superheaters; 2.5. Diagnostics of a Supercritical Boiler Operation; Chapter 3.
505	8		\|a Determining of Thermometer Time Constants and Measurement of Transient Fluid Temperature3.1. Mathematical Models of Thermometers; 3.2. Smoothing of Measurement Data; 3.3. Method of Time Constants Determining; 3.4. The Time Constant of the Thermometer as a Function of Fluid Velocity; 3.5. Examples of Application; 3.6. The Possibility of Applying the Method; Chapter 4; Measurement of Fluid Transient Temperature under High-Pressure; 4.1. Inverse Method to Obtain Accurate Transient Temperature of Fluid; 4.2. Computational Example; 4.2.1. Analytical Method for Generating "Measurement Data."
505	8		\|a 4.2.2. Computational Validation of the Inverse Method4.3. Example of Application of the Inverse Marching Method; Chapter 5; Monitoring of Thermal Stresses in Pressure Components Using Inverse Heat Conduction Methods; 5.1. Exact Methods; 5.1.1. Mathematical Formulation; 5.1.2. Thermal Stresses in Plane, Cylindrical and Spherical Walls; 5.1.3. Quasi-Steady State; 5.1.4. Smoothing of the Experimental Data; 5.1.5. Example 1; 5.2. Over-Determined Inverse Heat Conduction Problem; 5.2.1. Solving the Over-Determined Inverse Heat Conduction Problem.
505	8		\|a 5.2.2. Transient Thermal Stresses in Plates, Hollow Cylinders and Hollow Spheres5.2.3. Example; 5.3. Space and Time Marching Methods for Solving the One-Dimensional Nonlinear Inverse Heat Conduction Problems in Cylindrical Components; 5.3.1. Space and Time Marching Methods; 5.3.2. Method I; 5.3.3. Method II; 5.3.4. Experimental Verification; 5.4. Space-Marching Methods for Two-Dimensional Inverse Heat Conduction Problems; 5.4.1. Two-Dimensional IHCP; 5.4.1.1. Flat Plate Element; 5.4.1.2. Cylindrical Element; 5.4.2. Smoothing of Temperature Data; 5.4.3. Two-Dimensional IHCP Test Cases.
505	8		\|a 5.4.3.1. Rectangular Bar5.4.3.2. Boiler Drum; 5.5. Inverse Method for Temperature and Stress Monitoring in Components of Complex Shape; 5.5.1. Mathematical Formulation of the Finite Volume -- Finite Element Method for Determining Two-Dimensional Transient Temperature in Fins; 5.5.2. Numerical Verification-Drum-Downcomer Intersection; 5.5.3. Experimental Validation of the Developed Method; 5.6. Final Remarks; Chapter 6; Determination of Allowable Heating and Cooling Rates of Boiler Pressure Elements, Using the Quasi -- Steady State Approach.
505	8		\|a 6.1. Quasi -- Steady Temperature and Stress Distributions in Cylindrical and Spherical Walls without Openings.
650		0	\|a Pressure vessels \|x Testing.
650		0	\|a Thermal stresses. \|0 http://id.loc.gov/authorities/subjects/sh85134764
650		0	\|a Heat \|x Transmission. \|0 http://id.loc.gov/authorities/subjects/sh85059767
650		6	\|a Contraintes thermiques.
650		6	\|a Chaleur \|x Transmission.
650		7	\|a thermal stress. \|2 aat
650		7	\|a heat transmission. \|2 aat
650		7	\|a TECHNOLOGY & ENGINEERING \|x Technical & Manufacturing Industries & Trades. \|2 bisacsh
650		7	\|a Heat \|x Transmission \|2 fast
650		7	\|a Pressure vessels \|x Testing \|2 fast
650		7	\|a Thermal stresses \|2 fast
700	1		\|a Taler, Jan, \|e editor.
758			\|i has work: \|a Monitoring of Thermal Stresses and Heating Optimization Including Industrial Applications (Text) \|1 https://id.oclc.org/worldcat/entity/E39PCYWQm8hqxV3MCWmYkHW8kC \|4 https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	\|i Print version: \|t Monitoring of thermal stresses and heating optimization including industrial applications \|d Hauppauge, New York, USA : Nova Science Publishers Inc., [2016] \|z 9781634853675 \|w (DLC) 2016021212
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Datensatz im Suchindex

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contents	Preface; List of Symbols; Greek Symbols; Subscripts; Chapter 1; Introduction; Chapter 2; Comparison of the Design and Operation of Supercritical and Drum Boilers with Natural Circulation; 2.1. Natural Circulation Drum Boilers versus Supercritical Once-through Boilers; 2.2. Thermal and Flow Processes in Benson Boilers; 2.3. Monitoring and Optimization of Heating and Cooling of the Boiler Pressure Components; 2.4. Mathematical Modelling of Steam Superheaters; 2.5. Diagnostics of a Supercritical Boiler Operation; Chapter 3. Determining of Thermometer Time Constants and Measurement of Transient Fluid Temperature3.1. Mathematical Models of Thermometers; 3.2. Smoothing of Measurement Data; 3.3. Method of Time Constants Determining; 3.4. The Time Constant of the Thermometer as a Function of Fluid Velocity; 3.5. Examples of Application; 3.6. The Possibility of Applying the Method; Chapter 4; Measurement of Fluid Transient Temperature under High-Pressure; 4.1. Inverse Method to Obtain Accurate Transient Temperature of Fluid; 4.2. Computational Example; 4.2.1. Analytical Method for Generating "Measurement Data." 4.2.2. Computational Validation of the Inverse Method4.3. Example of Application of the Inverse Marching Method; Chapter 5; Monitoring of Thermal Stresses in Pressure Components Using Inverse Heat Conduction Methods; 5.1. Exact Methods; 5.1.1. Mathematical Formulation; 5.1.2. Thermal Stresses in Plane, Cylindrical and Spherical Walls; 5.1.3. Quasi-Steady State; 5.1.4. Smoothing of the Experimental Data; 5.1.5. Example 1; 5.2. Over-Determined Inverse Heat Conduction Problem; 5.2.1. Solving the Over-Determined Inverse Heat Conduction Problem. 5.2.2. Transient Thermal Stresses in Plates, Hollow Cylinders and Hollow Spheres5.2.3. Example; 5.3. Space and Time Marching Methods for Solving the One-Dimensional Nonlinear Inverse Heat Conduction Problems in Cylindrical Components; 5.3.1. Space and Time Marching Methods; 5.3.2. Method I; 5.3.3. Method II; 5.3.4. Experimental Verification; 5.4. Space-Marching Methods for Two-Dimensional Inverse Heat Conduction Problems; 5.4.1. Two-Dimensional IHCP; 5.4.1.1. Flat Plate Element; 5.4.1.2. Cylindrical Element; 5.4.2. Smoothing of Temperature Data; 5.4.3. Two-Dimensional IHCP Test Cases. 5.4.3.1. Rectangular Bar5.4.3.2. Boiler Drum; 5.5. Inverse Method for Temperature and Stress Monitoring in Components of Complex Shape; 5.5.1. Mathematical Formulation of the Finite Volume -- Finite Element Method for Determining Two-Dimensional Transient Temperature in Fins; 5.5.2. Numerical Verification-Drum-Downcomer Intersection; 5.5.3. Experimental Validation of the Developed Method; 5.6. Final Remarks; Chapter 6; Determination of Allowable Heating and Cooling Rates of Boiler Pressure Elements, Using the Quasi -- Steady State Approach. 6.1. Quasi -- Steady Temperature and Stress Distributions in Cylindrical and Spherical Walls without Openings.
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discipline	Handwerk und Gewerbe / Verschiedene Technologien
format	Electronic eBook
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series2	Materials science and technologies
spelling	Monitoring of thermal stresses and heating optimization including industrial applications / editors, Jan Taler, Piotr Dzierwa, Dawid Taler, Magdalena Jaremkiewicz, and Marcin Trojan. New York, : Nova Publishers, [2016] 1 online resource. text txt rdacontent computer c rdamedia online resource cr rdacarrier data file rda Materials science and technologies Includes bibliographical references and index. Description based on print version record and CIP data provided by publisher. Preface; List of Symbols; Greek Symbols; Subscripts; Chapter 1; Introduction; Chapter 2; Comparison of the Design and Operation of Supercritical and Drum Boilers with Natural Circulation; 2.1. Natural Circulation Drum Boilers versus Supercritical Once-through Boilers; 2.2. Thermal and Flow Processes in Benson Boilers; 2.3. Monitoring and Optimization of Heating and Cooling of the Boiler Pressure Components; 2.4. Mathematical Modelling of Steam Superheaters; 2.5. Diagnostics of a Supercritical Boiler Operation; Chapter 3. Determining of Thermometer Time Constants and Measurement of Transient Fluid Temperature3.1. Mathematical Models of Thermometers; 3.2. Smoothing of Measurement Data; 3.3. Method of Time Constants Determining; 3.4. The Time Constant of the Thermometer as a Function of Fluid Velocity; 3.5. Examples of Application; 3.6. The Possibility of Applying the Method; Chapter 4; Measurement of Fluid Transient Temperature under High-Pressure; 4.1. Inverse Method to Obtain Accurate Transient Temperature of Fluid; 4.2. Computational Example; 4.2.1. Analytical Method for Generating "Measurement Data." 4.2.2. Computational Validation of the Inverse Method4.3. Example of Application of the Inverse Marching Method; Chapter 5; Monitoring of Thermal Stresses in Pressure Components Using Inverse Heat Conduction Methods; 5.1. Exact Methods; 5.1.1. Mathematical Formulation; 5.1.2. Thermal Stresses in Plane, Cylindrical and Spherical Walls; 5.1.3. Quasi-Steady State; 5.1.4. Smoothing of the Experimental Data; 5.1.5. Example 1; 5.2. Over-Determined Inverse Heat Conduction Problem; 5.2.1. Solving the Over-Determined Inverse Heat Conduction Problem. 5.2.2. Transient Thermal Stresses in Plates, Hollow Cylinders and Hollow Spheres5.2.3. Example; 5.3. Space and Time Marching Methods for Solving the One-Dimensional Nonlinear Inverse Heat Conduction Problems in Cylindrical Components; 5.3.1. Space and Time Marching Methods; 5.3.2. Method I; 5.3.3. Method II; 5.3.4. Experimental Verification; 5.4. Space-Marching Methods for Two-Dimensional Inverse Heat Conduction Problems; 5.4.1. Two-Dimensional IHCP; 5.4.1.1. Flat Plate Element; 5.4.1.2. Cylindrical Element; 5.4.2. Smoothing of Temperature Data; 5.4.3. Two-Dimensional IHCP Test Cases. 5.4.3.1. Rectangular Bar5.4.3.2. Boiler Drum; 5.5. Inverse Method for Temperature and Stress Monitoring in Components of Complex Shape; 5.5.1. Mathematical Formulation of the Finite Volume -- Finite Element Method for Determining Two-Dimensional Transient Temperature in Fins; 5.5.2. Numerical Verification-Drum-Downcomer Intersection; 5.5.3. Experimental Validation of the Developed Method; 5.6. Final Remarks; Chapter 6; Determination of Allowable Heating and Cooling Rates of Boiler Pressure Elements, Using the Quasi -- Steady State Approach. 6.1. Quasi -- Steady Temperature and Stress Distributions in Cylindrical and Spherical Walls without Openings. Pressure vessels Testing. Thermal stresses. http://id.loc.gov/authorities/subjects/sh85134764 Heat Transmission. http://id.loc.gov/authorities/subjects/sh85059767 Contraintes thermiques. Chaleur Transmission. thermal stress. aat heat transmission. aat TECHNOLOGY & ENGINEERING Technical & Manufacturing Industries & Trades. bisacsh Heat Transmission fast Pressure vessels Testing fast Thermal stresses fast Taler, Jan, editor. has work: Monitoring of Thermal Stresses and Heating Optimization Including Industrial Applications (Text) https://id.oclc.org/worldcat/entity/E39PCYWQm8hqxV3MCWmYkHW8kC https://id.oclc.org/worldcat/ontology/hasWork Print version: Monitoring of thermal stresses and heating optimization including industrial applications Hauppauge, New York, USA : Nova Science Publishers Inc., [2016] 9781634853675 (DLC) 2016021212 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1356600 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1356600 Volltext
spellingShingle	Monitoring of thermal stresses and heating optimization including industrial applications / Preface; List of Symbols; Greek Symbols; Subscripts; Chapter 1; Introduction; Chapter 2; Comparison of the Design and Operation of Supercritical and Drum Boilers with Natural Circulation; 2.1. Natural Circulation Drum Boilers versus Supercritical Once-through Boilers; 2.2. Thermal and Flow Processes in Benson Boilers; 2.3. Monitoring and Optimization of Heating and Cooling of the Boiler Pressure Components; 2.4. Mathematical Modelling of Steam Superheaters; 2.5. Diagnostics of a Supercritical Boiler Operation; Chapter 3. Determining of Thermometer Time Constants and Measurement of Transient Fluid Temperature3.1. Mathematical Models of Thermometers; 3.2. Smoothing of Measurement Data; 3.3. Method of Time Constants Determining; 3.4. The Time Constant of the Thermometer as a Function of Fluid Velocity; 3.5. Examples of Application; 3.6. The Possibility of Applying the Method; Chapter 4; Measurement of Fluid Transient Temperature under High-Pressure; 4.1. Inverse Method to Obtain Accurate Transient Temperature of Fluid; 4.2. Computational Example; 4.2.1. Analytical Method for Generating "Measurement Data." 4.2.2. Computational Validation of the Inverse Method4.3. Example of Application of the Inverse Marching Method; Chapter 5; Monitoring of Thermal Stresses in Pressure Components Using Inverse Heat Conduction Methods; 5.1. Exact Methods; 5.1.1. Mathematical Formulation; 5.1.2. Thermal Stresses in Plane, Cylindrical and Spherical Walls; 5.1.3. Quasi-Steady State; 5.1.4. Smoothing of the Experimental Data; 5.1.5. Example 1; 5.2. Over-Determined Inverse Heat Conduction Problem; 5.2.1. Solving the Over-Determined Inverse Heat Conduction Problem. 5.2.2. Transient Thermal Stresses in Plates, Hollow Cylinders and Hollow Spheres5.2.3. Example; 5.3. Space and Time Marching Methods for Solving the One-Dimensional Nonlinear Inverse Heat Conduction Problems in Cylindrical Components; 5.3.1. Space and Time Marching Methods; 5.3.2. Method I; 5.3.3. Method II; 5.3.4. Experimental Verification; 5.4. Space-Marching Methods for Two-Dimensional Inverse Heat Conduction Problems; 5.4.1. Two-Dimensional IHCP; 5.4.1.1. Flat Plate Element; 5.4.1.2. Cylindrical Element; 5.4.2. Smoothing of Temperature Data; 5.4.3. Two-Dimensional IHCP Test Cases. 5.4.3.1. Rectangular Bar5.4.3.2. Boiler Drum; 5.5. Inverse Method for Temperature and Stress Monitoring in Components of Complex Shape; 5.5.1. Mathematical Formulation of the Finite Volume -- Finite Element Method for Determining Two-Dimensional Transient Temperature in Fins; 5.5.2. Numerical Verification-Drum-Downcomer Intersection; 5.5.3. Experimental Validation of the Developed Method; 5.6. Final Remarks; Chapter 6; Determination of Allowable Heating and Cooling Rates of Boiler Pressure Elements, Using the Quasi -- Steady State Approach. 6.1. Quasi -- Steady Temperature and Stress Distributions in Cylindrical and Spherical Walls without Openings. Pressure vessels Testing. Thermal stresses. http://id.loc.gov/authorities/subjects/sh85134764 Heat Transmission. http://id.loc.gov/authorities/subjects/sh85059767 Contraintes thermiques. Chaleur Transmission. thermal stress. aat heat transmission. aat TECHNOLOGY & ENGINEERING Technical & Manufacturing Industries & Trades. bisacsh Heat Transmission fast Pressure vessels Testing fast Thermal stresses fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85134764 http://id.loc.gov/authorities/subjects/sh85059767
title	Monitoring of thermal stresses and heating optimization including industrial applications /
title_auth	Monitoring of thermal stresses and heating optimization including industrial applications /
title_exact_search	Monitoring of thermal stresses and heating optimization including industrial applications /
title_full	Monitoring of thermal stresses and heating optimization including industrial applications / editors, Jan Taler, Piotr Dzierwa, Dawid Taler, Magdalena Jaremkiewicz, and Marcin Trojan.
title_fullStr	Monitoring of thermal stresses and heating optimization including industrial applications / editors, Jan Taler, Piotr Dzierwa, Dawid Taler, Magdalena Jaremkiewicz, and Marcin Trojan.
title_full_unstemmed	Monitoring of thermal stresses and heating optimization including industrial applications / editors, Jan Taler, Piotr Dzierwa, Dawid Taler, Magdalena Jaremkiewicz, and Marcin Trojan.
title_short	Monitoring of thermal stresses and heating optimization including industrial applications /
title_sort	monitoring of thermal stresses and heating optimization including industrial applications
topic	Pressure vessels Testing. Thermal stresses. http://id.loc.gov/authorities/subjects/sh85134764 Heat Transmission. http://id.loc.gov/authorities/subjects/sh85059767 Contraintes thermiques. Chaleur Transmission. thermal stress. aat heat transmission. aat TECHNOLOGY & ENGINEERING Technical & Manufacturing Industries & Trades. bisacsh Heat Transmission fast Pressure vessels Testing fast Thermal stresses fast
topic_facet	Pressure vessels Testing. Thermal stresses. Heat Transmission. Contraintes thermiques. Chaleur Transmission. thermal stress. heat transmission. TECHNOLOGY & ENGINEERING Technical & Manufacturing Industries & Trades. Heat Transmission Pressure vessels Testing Thermal stresses
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1356600
work_keys_str_mv	AT talerjan monitoringofthermalstressesandheatingoptimizationincludingindustrialapplications

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