Heat Transfer Virtual Lab for Students and Engineers: Theory and Guide for Setting Up
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Momentum Press
2014
|
| Schriftenreihe: | Thermal science and energy engineering collection
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| Schlagworte: | |
| Online-Zugang: | FAW01 FAW02 |
| Beschreibung: | Laboratory experiments are a vital part of engineering education,which historically were considered impractical for distance learning.This book presents a guide for the practical employment of a heattransfer virtual lab for students and engineers.Inside, the authors have detailed this virtual lab which is designedand can implement a real-time, robust, and scalable software systemthat provides easy access to lab equipment anytime and anywhereover the Internet. They introduce and explain LabVIEW ineasy-to-understand language. LabVIEW is a proprietary softwaretool by National Instruments, and can 1. Introduction -- 1.1 History of distance learning and concept of virtual lab -- 1.2 What is virtual lab? -- 1.3 Analysis of the project requirements -- 1.4 Learning theory and its influence on role design -- 1.5 System architecture -- 1.6 Model hierarchy -- 1.7 Web user interface -- 1.8 Questions -- 2. LabVIEW basics -- 2.1 LabVIEW introduction -- 2.2 G-language -- 2.3 Front panel -- 2.4 Block diagram -- 2.5 LabVIEW palettes -- 2.6 Programming with LabVIEW -- 2.7 Programming structures -- 2.8 Data acquisition with LabVIEW -- 2.9 Questions -- 3. Hardware: Armfield Heat Exchanger and Service Unit -- 3.1 Operating HT30XC using customer-generated software -- 3.2 USB interface driver function calls -- 3.3 LabVIEW data logger -- 4. Design of LabVIEW VI program -- 4.1 Software: algorithm of the program -- 4.2 Introduction of LabVIEW controls used in the project -- 4.3 Design of front panel -- 4.4 Design of block diagram -- 4.5 How were the PID parameters' values derived for temperature control? -- 4.6 Questions -- 5. Experiments -- 5.1 How to perform an experiment using the LabVIEW interface? -- 5.2 How would a student access the experiment over the internet? -- 5.3 Experiment results -- 6. Factors influencing the virtual lab -- 6.1 Drivers for programmable devices -- 6.2 Concurrent requirements for same experiment -- 6.3 User authentication -- 6.4 Issues surrounding live training -- 6.5 System management and development -- 6.6 Future developments -- 7. Experiment instructions -- 7.1 Instructions for the shell and tube heat exchanger experiment -- 7.2 Instructions for the PID control for heater experiment -- 8. Related work -- Bibliography -- Index Includes bibliographical references and index |
| ISBN: | 1322087660 9781322087665 9781606505496 1606505491 9781606505489 |
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| 245 | 1 | 0 | |a Heat Transfer Virtual Lab for Students and Engineers |b Theory and Guide for Setting Up |
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| 490 | 0 | |a Thermal science and energy engineering collection | |
| 500 | |a Laboratory experiments are a vital part of engineering education,which historically were considered impractical for distance learning.This book presents a guide for the practical employment of a heattransfer virtual lab for students and engineers.Inside, the authors have detailed this virtual lab which is designedand can implement a real-time, robust, and scalable software systemthat provides easy access to lab equipment anytime and anywhereover the Internet. They introduce and explain LabVIEW ineasy-to-understand language. LabVIEW is a proprietary softwaretool by National Instruments, and can | ||
| 500 | |a 1. Introduction -- 1.1 History of distance learning and concept of virtual lab -- 1.2 What is virtual lab? -- 1.3 Analysis of the project requirements -- 1.4 Learning theory and its influence on role design -- 1.5 System architecture -- 1.6 Model hierarchy -- 1.7 Web user interface -- 1.8 Questions -- | ||
| 500 | |a 2. LabVIEW basics -- 2.1 LabVIEW introduction -- 2.2 G-language -- 2.3 Front panel -- 2.4 Block diagram -- 2.5 LabVIEW palettes -- 2.6 Programming with LabVIEW -- 2.7 Programming structures -- 2.8 Data acquisition with LabVIEW -- 2.9 Questions -- | ||
| 500 | |a 3. Hardware: Armfield Heat Exchanger and Service Unit -- 3.1 Operating HT30XC using customer-generated software -- 3.2 USB interface driver function calls -- 3.3 LabVIEW data logger -- | ||
| 500 | |a 4. Design of LabVIEW VI program -- 4.1 Software: algorithm of the program -- 4.2 Introduction of LabVIEW controls used in the project -- 4.3 Design of front panel -- 4.4 Design of block diagram -- 4.5 How were the PID parameters' values derived for temperature control? -- 4.6 Questions -- | ||
| 500 | |a 5. Experiments -- 5.1 How to perform an experiment using the LabVIEW interface? -- 5.2 How would a student access the experiment over the internet? -- 5.3 Experiment results -- | ||
| 500 | |a 6. Factors influencing the virtual lab -- 6.1 Drivers for programmable devices -- 6.2 Concurrent requirements for same experiment -- 6.3 User authentication -- 6.4 Issues surrounding live training -- 6.5 System management and development -- 6.6 Future developments -- | ||
| 500 | |a 7. Experiment instructions -- 7.1 Instructions for the shell and tube heat exchanger experiment -- 7.2 Instructions for the PID control for heater experiment -- | ||
| 500 | |a 8. Related work -- Bibliography -- Index | ||
| 500 | |a Includes bibliographical references and index | ||
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| 650 | 7 | |a SCIENCE / Mechanics / Thermodynamics |2 bisacsh | |
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| author | Fridman, Ella |
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| building | Verbundindex |
| bvnumber | BV043778522 |
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| dewey-full | 536.2 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 536 - Heat |
| dewey-raw | 536.2 |
| dewey-search | 536.2 |
| dewey-sort | 3536.2 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| format | Electronic eBook |
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| spelling | Fridman, Ella Verfasser aut Heat Transfer Virtual Lab for Students and Engineers Theory and Guide for Setting Up Momentum Press 2014 txt rdacontent c rdamedia cr rdacarrier Thermal science and energy engineering collection Laboratory experiments are a vital part of engineering education,which historically were considered impractical for distance learning.This book presents a guide for the practical employment of a heattransfer virtual lab for students and engineers.Inside, the authors have detailed this virtual lab which is designedand can implement a real-time, robust, and scalable software systemthat provides easy access to lab equipment anytime and anywhereover the Internet. They introduce and explain LabVIEW ineasy-to-understand language. LabVIEW is a proprietary softwaretool by National Instruments, and can 1. Introduction -- 1.1 History of distance learning and concept of virtual lab -- 1.2 What is virtual lab? -- 1.3 Analysis of the project requirements -- 1.4 Learning theory and its influence on role design -- 1.5 System architecture -- 1.6 Model hierarchy -- 1.7 Web user interface -- 1.8 Questions -- 2. LabVIEW basics -- 2.1 LabVIEW introduction -- 2.2 G-language -- 2.3 Front panel -- 2.4 Block diagram -- 2.5 LabVIEW palettes -- 2.6 Programming with LabVIEW -- 2.7 Programming structures -- 2.8 Data acquisition with LabVIEW -- 2.9 Questions -- 3. Hardware: Armfield Heat Exchanger and Service Unit -- 3.1 Operating HT30XC using customer-generated software -- 3.2 USB interface driver function calls -- 3.3 LabVIEW data logger -- 4. Design of LabVIEW VI program -- 4.1 Software: algorithm of the program -- 4.2 Introduction of LabVIEW controls used in the project -- 4.3 Design of front panel -- 4.4 Design of block diagram -- 4.5 How were the PID parameters' values derived for temperature control? -- 4.6 Questions -- 5. Experiments -- 5.1 How to perform an experiment using the LabVIEW interface? -- 5.2 How would a student access the experiment over the internet? -- 5.3 Experiment results -- 6. Factors influencing the virtual lab -- 6.1 Drivers for programmable devices -- 6.2 Concurrent requirements for same experiment -- 6.3 User authentication -- 6.4 Issues surrounding live training -- 6.5 System management and development -- 6.6 Future developments -- 7. Experiment instructions -- 7.1 Instructions for the shell and tube heat exchanger experiment -- 7.2 Instructions for the PID control for heater experiment -- 8. Related work -- Bibliography -- Index Includes bibliographical references and index LabVIEW. SCIENCE / Mechanics / Thermodynamics bisacsh Heat Transmission Computer simulation |
| spellingShingle | Fridman, Ella Heat Transfer Virtual Lab for Students and Engineers Theory and Guide for Setting Up LabVIEW. SCIENCE / Mechanics / Thermodynamics bisacsh Heat Transmission Computer simulation |
| title | Heat Transfer Virtual Lab for Students and Engineers Theory and Guide for Setting Up |
| title_auth | Heat Transfer Virtual Lab for Students and Engineers Theory and Guide for Setting Up |
| title_exact_search | Heat Transfer Virtual Lab for Students and Engineers Theory and Guide for Setting Up |
| title_full | Heat Transfer Virtual Lab for Students and Engineers Theory and Guide for Setting Up |
| title_fullStr | Heat Transfer Virtual Lab for Students and Engineers Theory and Guide for Setting Up |
| title_full_unstemmed | Heat Transfer Virtual Lab for Students and Engineers Theory and Guide for Setting Up |
| title_short | Heat Transfer Virtual Lab for Students and Engineers |
| title_sort | heat transfer virtual lab for students and engineers theory and guide for setting up |
| title_sub | Theory and Guide for Setting Up |
| topic | LabVIEW. SCIENCE / Mechanics / Thermodynamics bisacsh Heat Transmission Computer simulation |
| topic_facet | LabVIEW. SCIENCE / Mechanics / Thermodynamics Heat Transmission Computer simulation |
| work_keys_str_mv | AT fridmanella heattransfervirtuallabforstudentsandengineerstheoryandguideforsettingup |