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E-raamat: Micro and Nano Thermal Transport: Characterization, Measurement, and Mechanism

Edited by (Doctor of Engineering Thermophysics, Chinese Academy of Sciences, Postdoctoral Fellow of the University of Virginia, USA, Associate Professor of University of Science and Technology Beijing, China), Edited by (Professor Department of Thermal Scie)
  • Formaat: PDF+DRM
  • Ilmumisaeg: 09-Feb-2022
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128236239
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Micro and Nano Thermal Transport: Characterization, Measurement, and MechanismSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 09-Feb-2022
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128236239
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Micro and Nano Thermal Transport Research: Characterization, Measurement and Mechanism is a complete and reliable reference on thermal measurement methods and mechanisms of micro and nanoscale materials. The book has a strong focus on applications and simulation, providing clear guidance on how to measure thermal properties in a systematic way. Sections cover the fundamentals of thermal properties before introducing tools to help readers identify and analyze thermal characteristics of these materials. The thermal transport properties are then further explored by means of simulation which reflect the internal mechanisms used to generate such thermal properties.

Readers will gain a clear understanding of thermophysical measurement methods and the representative thermal transport characteristics of micro/nanoscale materials with different structures and are guided through a decision-making process to choose the most effective method to master thermal analysis. The book is particularly suitable for those engaged in the design and development of thermal property measurement instruments, as well as researchers of thermal transport at the micro and nanoscale.

  • Includes a variety of measurement methods and thermal transport characteristics of micro and nanoscale materials under different structures
  • Guides the reader through the decision-making process to ensure the best thermal analysis method is selected for their setting
  • Contains experiments and simulations throughout that help apply understanding to practice
Contributors vii
Preface ix
Acknowledgment xi
1 Introduction
Lin Qiu
Niny Zhu
Fengcheng Li
1.1 Micro- and nanoscale materials
2(4)
1.2 Thermal transport scale characteristics
6(3)
1.3 Demand tor thermal properties research
9(11)
References
14(6)
2 Experimental techniques overview
Lin Qiu
Yuxin Ouyang
Fefigcheng Li
2.1 Thermophysical parameters and experimental method category
20(3)
2.2 Thermal conductivity measurement techniques
23(3)
2.3 Thermal conductivity measurement techniques
26(5)
2.4 Specific heat capacity measurement techniques
31(5)
2.5 Thermal diftusivity measurement techniques
36(4)
2.6 Seebeck coefficient measurement techniques
40(2)
2.7 Summary
42(5)
References
42(5)
3 Thermal transport mechanism for different structure
Lin Qiu
Xiaoxin Yan
Xiaoliang Zhan
Fcngcheng Li
3.1 Thermal transport characteristics at micro / nanoscale
47(4)
3.2 Dimensional characteristics of heat transport
51(43)
3.3 Thermal transport mechanism analysis tool-molecular dynamics
94(8)
3.4 Summary
102(14)
References
102(14)
4 Microwire, fiber, nanotube, and nanowire
Lin Qiu
Yiling Liu
Yanho Du
Fcngchetlg Li
4.1 Experimental technique comparison
116(14)
4.2 Thermal transport mechanism characteristics
130(13)
4.3 Experimental study on thermal conductivity of single carbon fiber
143(6)
4.4 Advantages of multiple technology combinations
149(2)
4.5 Research progress on metallic nanowires preparation and heat transport
151(3)
4.6 Aspects to be improved
154(1)
4.7 Summary
155(8)
References
156(7)
5 Nanofilm
Lin Qiu
Zihan Liu
Fcnyclu-ny Li
5.1 Scanning thermal microscopy
163(7)
5.2 3w method
170(8)
5.3 Raman method
178(12)
5.4 Time-domain thermal reflection method (TDTR)
190(2)
5.5 Factors affecting the measurement
192(8)
5.6 Summary
200(5)
References
201(4)
6 Nanoporous bulk
Lin Qiu
Kening Yan
Fengcheng Li
6.1 Selection of thermal model
205(22)
6.2 Experimental techniques and effect comparison
227(6)
6.3 Thermal transport mechanism characteristics
233(6)
6.4 Summary
239(9)
References
240(8)
7 Nanofluid and nanopowders
Lin Qiu
Sida Wang
Yuhao Ma
Fcngcheng Li
7.1 System and preparation of nanofluids
248(9)
7.2 Performance and characterization of nanofluids
257(5)
7.3 Experimental study on transport parameters of nanofluids
262(4)
7.4 Nanofluid boiling heat exchange
266(3)
7.5 Application of nanofluids
269(4)
7.6 Application of nanopowders
273(7)
7.7 Summary
280(6)
References
280(6)
8 Interfacial thermal resistance between materials
Lin Qiu
Fangyuan Sun
Yiling Liu
Yuhao Ma
Fcngcheng Li
8.1 Interfacial thermal resistance and contact thermal resistance
286(1)
8.2 Theoretical model of interface thermal resistance
287(8)
8.3 Interface thermal resistance with electronic participation
295(10)
8.4 Research methods for interface thermal resistance
305(6)
8.5 Summary
311(6)
References
312(5)
9 Conclusion
Lin Qiu
Zihan Liu
Fengcheng Li
9.1 Experimental techniques overview
317(1)
9.2 Thermal transport mechanism for different structure
318(1)
9.3 Microwire, fiber, nanotube, and nanowire
319(1)
9.4 Nanofilm
320(1)
9.5 Nanoporous bulk
321(1)
9.6 Nanofluid and nanopowders
322(1)
9.7 Interfacial thermal resistance between materials
323(14)
Index 337
Qiu Lin is Ph.D. of Institute of Engineering Thermophysics, Chinese Academy of Sciences (CAS), China, Postdoc of University of Virginia, USA, and Associate Professor of University of Science and Technology Beijing (USTB), China. She had conducted academic visits at Nanyang Technological University in Singapore and Leeds University in UK. The main research fields are Micro/Nanoscale Thermal Properties Measurement and Heat Transport Mechanism, and Recovery and Utilization of Waste Heat in Steel industry. She also has been invited to become the editorial board of Scientific Reports Member, and presided over the youth program and general program of NSFC, and the sub-projects of National Key R&D Plan, and participated in the key program of NSFC, the Chinese 973 Project, and the major instrument project of the Ministry of Science and Technology. Yanhui Feng is Professor, doctoral supervisor, and Vice President of the School of Energy and Environmental Engineering at the University of Science and Technology Beijing, China. He holds leadership positions in several national and regional academic societies and educational steering committees, being an executive director or member of engineering thermophysics, energy, and thermal storage professional bodies. Prof. Feng has been recognized in national talent and teaching excellence programs, including the National Major Talent Project and as a renowned educator in Beijing. His research focuses on engineering thermophysics, energy storage, and power engineering, with a strong commitment to academic leadership and professional training in the energy sector.
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