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Author  Title  Accn#  Year  Item Type  Claims 
81 
Olsson, Per 
Transport Phenomena in Newtonian Fluids  A Concise Primer 
I06046 
2014 
eBook 

82 
Bonazza, Riccardo 
29th International Symposium on Shock Waves 1 
I05960 
2015 
eBook 

83 
Kleinstreuer, Clement 
Modern Fluid Dynamics 
I05902 
2010 
eBook 

84 
Wu, Jiang 
Quantum Dot Solar Cells 
I05803 
2014 
eBook 

85 
Fuchs, Hans U 
The Dynamics of Heat 
I05714 
2010 
eBook 

86 
Van Sciver, Steven W 
Helium Cryogenics 
I05711 
2012 
eBook 

87 
Pavese, Franco 
Modern GasBased Temperature and Pressure Measurements 
I05701 
2013 
eBook 

88 
Robinett III, Rush D 
Nonlinear Power Flow Control Design 
I05517 
2011 
eBook 

89 
Maytal, BenZion 
Miniature JouleThomson Cryocooling 
I05455 
2013 
eBook 

90 
Wang, HaiDong 
Theoretical and Experimental Studies on NonFourier Heat Conduction Based on Thermomass Theory 
I05421 
2014 
eBook 


81.


Title  Transport Phenomena in Newtonian Fluids  A Concise Primer 
Author(s)  Olsson, Per 
Publication  Cham, Springer International Publishing, 2014. 
Description  XI, 94 p. 16 illus : online resource 
Abstract Note  This short primer provides a concise and tutorialstyle introduction to transport phenomena in Newtonian fluids , in particular the transport of mass, energy and momentum. ?? The reader will find detailed derivations of the transport equations for these phenomena, as well as selected analytical solutions to the transport equations in some simple geometries. After a brief introduction to the basic mathematics used in the text, Chapter 2, which deals with momentum transport, presents a derivation of the NavierStokesDuhem equation describing the basic flow in a Newtonian fluid. ??Also provided at this stage are the derivations of the Bernoulli equation, the pressure equation and the wave equation for sound waves. The boundary layer, turbulent flow and flow separation are briefly reviewed. Chapter 3, which addresses energy transport caused by thermal conduction and convection, examines a derivation of the heat transport equation. ??Finally, Chapter 4, which focuses on mass transport caused by diffusion and convection, discusses a derivation of the mass transport equation 
ISBN,Price  9783319013091 
Keyword(s)  1. EBOOK
2. EBOOK  SPRINGER
3. Engineering Fluid Dynamics
4. Engineering Thermodynamics, Heat and Mass Transfer
5. FLUID MECHANICS
6. Fluid and Aerodynamics
7. FLUIDS
8. Heat engineering
9. HEAT TRANSFER
10. MASS TRANSFER
11. THERMODYNAMICS

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I06046 


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82.


Title  29th International Symposium on Shock Waves 1 : Volume 1 
Author(s)  Bonazza, Riccardo;Ranjan, Devesh 
Publication  Cham, Springer International Publishing, 2015. 
Description  XXXIV, 820 p. 637 illus., 388 illus. in color : online resource 
Abstract Note  This proceedings present the results of the 29th International Symposium on Shock Waves (ISSW29) which was held in Madison, Wisconsin, U.S.A., from July 14 to July 19, 2013. It was organized by the Wisconsin Shock Tube Laboratory, which is part of the College of Engineering of the University of WisconsinMadison. The ISSW29 focused on the following areas: Blast Waves, Chemically Reactive Flows, Detonation and Combustion, ??Facilities, Flow Visualization, Hypersonic Flow, Ignition, Impact and Compaction, Industrial Applications, Magnetohydrodynamics, Medical and Biological Applications, Nozzle Flow, Numerical Methods, Plasmas, Propulsion, RichtmyerMeshkov Instability, ShockBoundary Layer Interaction, Shock Propagation and Reflection, Shock Vortex Interaction, Shock Waves in Condensed Matter, Shock Waves in Multiphase Flow, as well as Shock Waves in Rarefield Flow. The two Volumes contain the papers presented at the symposium and serve as a reference for the participants of the ISSW 29 and individuals interested in these fields 
ISBN,Price  9783319168357 
Keyword(s)  1. Classical and Continuum Physics
2. Continuum physics
3. EBOOK
4. EBOOK  SPRINGER
5. Engineering Fluid Dynamics
6. Engineering Thermodynamics, Heat and Mass Transfer
7. FLUID MECHANICS
8. Heat engineering
9. HEAT TRANSFER
10. MASS TRANSFER
11. THERMODYNAMICS

Item Type  eBook 
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Call#  Status  Issued To  Return Due On  Physical Location 
I05960 


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83.


Title  Modern Fluid Dynamics : Basic Theory and Selected Applications in Macro and MicroFluidics 
Author(s)  Kleinstreuer, Clement 
Publication  Dordrecht, Springer Netherlands, 2010. 
Description  XVIII, 620 p. 223 illus : online resource 
Abstract Note  This textbook covers the essentials of traditional and modern fluid dynamics, i.e., the fundamentals of and basic applications in fluid mechanics and convection heat transfer with brief excursions into fluidparticle dynamics and solid mechanics. Specifically, the book can be used to enhance the knowledge base and skill level of engineering and physics students in macroscale fluid mechanics (see Chapters IV), followed by an introductory excursion into microscale fluid dynamics (see Chapters VIX). Clearly, most of Chapters IX could be taught in one course to honourslevel seniors and firstyear graduates. A Solutions Manual to the assigned book problems will be provided. This work evolved primarily out of industrial demands and postgraduate expectations, because a fine knowledge base in modern fluid dynamics is important, focusing on novel application areas such as microfluidics, mixture flows, fluidstructure interaction, biofluid dynamics, thermal flows, and fluidparticle transport. Building on courses in thermodynamics, fluid mechanics and solid mechanics as prerequisites as well as on a juniorlevel math background, a differential approach is most insightful to teach the fundamentals in fluid mechanics, to explain traditional and modern applications on an intermediate level, and to provide sufficient physical insight to understand results, later on generated with useful CFD software. Pedagogical elements include a consistent 50/50 physicsmathematics approach when introducing new material, illustrating concepts, showing flow visualizations, and solving problems. The problem solution format strictly follows the pattern of system sketch, assumptions, and concept/approach???before starting the solution phase which consists of symbolic math model development (Appendix A), numerical solution, graphs, and comments on "physical insight". After some illustrative examples, most solved text examples have the same level of difficulty as suggested homework, quiz, test, and/or exam problems. The ultimate goals are that the more serious student can solve basic fluid dynamics problems independently, can provide physical insight, and can suggest, via a course project, system design improvements 
ISBN,Price  9781402086700 
Keyword(s)  1. Classical and Continuum Physics
2. Continuum physics
3. EBOOK
4. EBOOK  SPRINGER
5. Engineering Fluid Dynamics
6. Engineering Thermodynamics, Heat and Mass Transfer
7. FLUID MECHANICS
8. Heat engineering
9. HEAT TRANSFER
10. MASS TRANSFER
11. NANOTECHNOLOGY
12. Nanotechnology and Microengineering
13. THERMODYNAMICS

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Call#  Status  Issued To  Return Due On  Physical Location 
I05902 


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84.


Title  Quantum Dot Solar Cells 
Author(s)  Wu, Jiang;Wang, Zhiming M 
Publication  New York, NY, Springer New York, 2014. 
Description  XIV, 387 p. 220 illus., 173 illus. in color : online resource 
Abstract Note  The third generation of solar cells includes those based on semiconductor quantum dots. This sophisticated technology applies nanotechnology and quantum mechanics theory to enhance the performance of ordinary solar cells. Although a practical application of quantum dot solar cells has yet to be achieved, a large number of theoretical calculations and experimental studies have confirmed the potential for meeting the requirement for ultrahigh conversion efficiency. In this book, highprofile scientists have contributed tutorial chapters that outline the methods used in and the results of various quantum dot solar cell designs, including quantum dot intermediate band solar cells, hot electron quantum dot solar cells, quantumdot sensitized solar cells, colloidal quantum dot solar cells, hybrid polymerquantum dot solar cells, and MEG quantum dot solar cells. Both theoretical and experimental approaches are described. Quantum Dot Solar Cells helps to connect the fundamental laws of physics and the chemistry of materials with advances in device design and performance. The book can be recommended for a broad audience of chemists, electrical engineers, and materials scientists, and is suitable for use in courses on materials and device design for advanced and future optoelectronics. Features comprehensive coverage of novel technologies for quantum dot solar cells Written by leading experts in the corresponding research areas Supplies the keys to understanding the latest technologies for thirdgeneration solar cells Provides a foundation for future research in materials and optoelectronics for energy applications 
ISBN,Price  9781461481485 
Keyword(s)  1. EBOOK
2. EBOOK  SPRINGER
3. Electronic materials
4. Energy Storage
5. ENERGY SYSTEMS
6. Engineering Thermodynamics, Heat and Mass Transfer
7. Heat engineering
8. HEAT TRANSFER
9. MASS TRANSFER
10. Nanoscale science
11. Nanoscale Science and Technology
12. NANOSCIENCE
13. Nanostructures
14. Optical and Electronic Materials
15. OPTICAL MATERIALS
16. QUANTUM OPTICS
17. THERMODYNAMICS

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Accession#  
Call#  Status  Issued To  Return Due On  Physical Location 
I05803 


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85.


Title  The Dynamics of Heat : A Unified Approach to Thermodynamics and Heat Transfer 
Author(s)  Fuchs, Hans U 
Publication  New York, NY, Springer New York, 2010. 
Description  XII, 734 p. 229 illus : online resource 
Abstract Note  Based on courses for students of science, engineering, and systems science at the Zurich University of Applied Sciences at Winterthur, this text approaches the fundamentals of thermodynamics from the point of view of continuum physics. By describing physical processes in terms of the flow and balance of physical quantities, the author achieves a unified approach to hydraulics, electricity, mechanics and thermodynamics. In this way, it becomes clear that entropy is the fundamental property that is transported in thermal processes (i.e., heat), and that temperature is the corresponding potential. The resulting theory of the creation, flow, and balance of entropy provides the foundation of a dynamical theory of heat. This extensively revised and updated second edition includes new material on dynamical chemical processes, thermoelectricity, and explicit dynamical modeling of thermal and chemical processes. To make the book more useful for courses on thermodynamics and physical chemistry at different levels, coverage of topics is divided into introductory and more advanced and formal treatments. Previous knowledge of thermodynamics is not required, but the reader should be familiar with basic electricity, mechanics, and chemistry and should have some knowledge of elementary calculus. The special feature of the first edition ??? the integration of thermodynamics, heat transfer, and chemical processes ??? has been??maintained and strengthened. Key Features: Presents a unified approach to thermodynamics and heat transport in fundamental physical and chemical processes First revised edition of a successful text/reference in fourteen years More than 25 percent new material Provides worked examples, questions, and problem sets for use as a teaching text or for self testing Includes many system dynamics models of laboratory experiments 
ISBN,Price  9781441976048 
Keyword(s)  1. Classical and Continuum Physics
2. Continuum physics
3. EBOOK
4. EBOOK  SPRINGER
5. ENERGY
6. Energy, general
7. Engineering Thermodynamics, Heat and Mass Transfer
8. Heat engineering
9. HEAT TRANSFER
10. MASS TRANSFER
11. PHYSICAL CHEMISTRY
12. THERMODYNAMICS

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Call#  Status  Issued To  Return Due On  Physical Location 
I05714 


On Shelf 




86.


Title  Helium Cryogenics 
Author(s)  Van Sciver, Steven W 
Publication  New York, NY, Springer New York, 2012. 
Description  XXIV, 470 p. 220 illus., 9 illus. in color : online resource 
Abstract Note  Twenty five years have elapsed since the original publication of Helium Cryogenics. During this time, a considerable amount of research and development involving helium fluids has been carried out culminating in several largescale projects. Furthermore, the field has matured through these efforts so that there is now a broad engineering base to assist the development of future projects. Helium Cryogenics, 2nd edition brings these advances in helium cryogenics together in an updated form. As in the original edition, the author's approach is to survey the field of cryogenics with emphasis on helium fluids. This approach is more specialized and fundamental than that contained in other cryogenics books, which treat the associated range of cryogenic fluids. As a result, the level of treatment is more advanced and assumes a certain knowledge of fundamental engineering and physics principles, including some quantum mechanics. The goal throughout the work is to bridge the gap between the physics and engineering aspects of helium fluids to provide a source for engineers and scientists to enhance their usefulness in lowtemperature systems. Dr. Van Sciver is a Distinguished Research Professor and John H. Gorrie Professor of Mechanical Engineering at Florida State University. He is also a Program Director at the National High Magnetic Field Laboratory (NHMFL). Dr. Van?? Sciver joined the FAMUFSU College of Engineering and the NHMFL in 1991, initiating and teaching a graduate program in magnet and materials engineering and in cryogenic thermal sciences and heat transfer. He also led the NHMFL development efforts of the cryogenic systems for the NHMFL Hybrid and 900 MHz NMR superconducting magnets. Between 1997 and 2003, he served as Director of Magnet Science and Technology at the NHMFL. Dr. Van Sciver is a Fellow of the ASME and the Cryogenic Society of America and American Editor for the journal Cryogenics. He is the 2010 recipient of the Kurt Mendelssohn Award. Prior to joining Florida State University, Dr. Van Sciver was Research Scientist and then Professor of Nuclear Engineering, Engineering Physics and Mechanical Engineering at the University of WisconsinMadison from 1976 to 1991. During that time he also served as the Associate Director of the Applied Superconductivity Center. Dr. Van Sciver received his PhD in Low Temperature Physics from the University of WashingtonSeattle in 1976. He received his BS degree in Engineering Physics from Lehigh University in 1970. Dr. Van Sciver is author of over 200 publications and patents in low temperature physics, liquid helium technology, cryogenic engineering and magnet technology. The first edition of Helium Cryogenics was published by Plenum Press (1986). The present work is an update and expansion of that original project 
ISBN,Price  9781441999795 
Keyword(s)  1. CHEMICAL ENGINEERING
2. EBOOK
3. EBOOK  SPRINGER
4. Engineering Thermodynamics, Heat and Mass Transfer
5. Heat engineering
6. HEAT TRANSFER
7. Industrial and Production Engineering
8. Industrial Chemistry/Chemical Engineering
9. Industrial engineering
10. LOW TEMPERATURE PHYSICS
11. LOW TEMPERATURES
12. MASS TRANSFER
13. Production engineering
14. THERMODYNAMICS

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Call#  Status  Issued To  Return Due On  Physical Location 
I05711 


On Shelf 




87.


Title  Modern GasBased Temperature and Pressure Measurements 
Author(s)  Pavese, Franco;Molinar Min Beciet, Gianfranco 
Publication  New York, NY, Springer US, 2013. 
Description  XXVIII, 652 p : online resource 
Abstract Note  This 2nd edition volume of Modern GasBased Temperature and Pressure Measurements follows the first publication in 1992. It collects a much larger set of information, reference data, and bibliography in temperature and pressure metrology of gaseous substances, including the physicalchemical issues related to gaseous substances. The book??provides solutions to practical applications where gases are used in different thermodynamic conditions. Modern GasBased Temperature and Pressure Measurements, 2nd edition is the only comprehensive survey of methods for pressure measurement in gaseous media used in the mediumtolow pressure range closely connected with thermometry. It assembles current information on thermometry and manometry that involve the use of gaseous substances which are likely to be valid methods for the future. As such, it is an important resource for the researcher. This edition is updated through the very latest scientific and technical developments of gasbased temperature and pressure measurements using thermometry and manometry, and brings all of the techniques together under one cover. This book fills the gap in international literature, as no other recently published book provides a comprehensive survey for gaseous media closely connected with thermometry. Updates in this new edition include revised appendices and new chapters on Mutual Recognition Agreement of the Comit?? International des Poids et Mesures and its main applications, and developments in the European Metrology Society 
ISBN,Price  9781441982827 
Keyword(s)  1. Atomic, Molecular, Optical and Plasma Physics
2. ATOMS
3. Classical and Continuum Physics
4. CONDENSED MATTER
5. CONDENSED MATTER PHYSICS
6. Continuum physics
7. EBOOK
8. EBOOK  SPRINGER
9. Engineering Thermodynamics, Heat and Mass Transfer
10. Heat engineering
11. HEAT TRANSFER
12. MASS TRANSFER
13. Measurement Science and Instrumentation
14. Measurement??????
15. PHYSICAL MEASUREMENTS
16. PHYSICS
17. THERMODYNAMICS

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Call#  Status  Issued To  Return Due On  Physical Location 
I05701 


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88.


Title  Nonlinear Power Flow Control Design : Utilizing Exergy, Entropy, Static and Dynamic Stability, and Lyapunov Analysis 
Author(s)  Robinett III, Rush D;Wilson, David G 
Publication  London, Springer London, 2011. 
Description  XXXIV, 346 p. 260 illus., 147 illus. in color : online resource 
Abstract Note  Nonlinear Powerflow Control Design presents an innovative control system design process motivated by renewable energy electric grid integration problems. The concepts developed result from the convergence of three research and development goals: ??? to create a unifying metric to compare the value of different energy sources ??? coalburning power plant, wind turbines, solar photovoltaics, etc. ??? to be integrated into the electric power grid and to replace the typical metric of costs/profit; ??? to develop a new nonlinear control tool that applies power flow control, thermodynamics, and complex adaptive systems theory to the energy grid in a consistent way; and ??? to apply collective robotics theories to the creation of highperformance teams of people and key individuals in order to account for human factors in controlling and selling power into a distributed, decentralized electric power grid. All three of these goals have important concepts in common: exergy flow, limit cycles, and balance between competing power flows. In place of the typical zerosum, stability vs. performance, linear controller design process, the authors propose a unique set of criteria to design controllers for a class of nonlinear systems with respect to both performance and stability, and seamlessly integrating information theoretic concepts. A combination of thermodynamics with Hamiltonian systems provides the theoretical foundation which is then realized in a series of connected case studies. It allows the process of control design to be viewed as a power flow control problem, balancing the power flowing into a system against that being dissipated within it and dependent on the power being stored in it ??? an interplay between kinetic and potential energies. Highlights of several of the case studies feature current renewable energy problems such as the future of electric power grid control, wind turbine load alleviation, and novel control designs for microgrids that incorporate wind and sunlight as renewable energy sources. The sustainability of selforganizing systems are dealt with as advanced topics. Research scientists, practicing engineers, engineering students, and others with a background in engineering will be able to develop and apply this methodology to their particular problems 
ISBN,Price  9780857298232 
Keyword(s)  1. Communications Engineering, Networks
2. COMPLEXITY
3. COMPUTATIONAL COMPLEXITY
4. Control engineering
5. Control, Robotics, Mechatronics
6. EBOOK
7. EBOOK  SPRINGER
8. ELECTRICAL ENGINEERING
9. Engineering Thermodynamics, Heat and Mass Transfer
10. Heat engineering
11. HEAT TRANSFER
12. MASS TRANSFER
13. Mechatronics
14. POWER ELECTRONICS
15. Power Electronics, Electrical Machines and Networks
16. Renewable and Green Energy
17. Renewable energy resources
18. ROBOTICS
19. THERMODYNAMICS

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Call#  Status  Issued To  Return Due On  Physical Location 
I05517 


On Shelf 




89.


Title  Miniature JouleThomson Cryocooling : Principles and Practice 
Author(s)  Maytal, BenZion;Pfotenhauer, John M 
Publication  New York, NY, Springer New York, 2013. 
Description  XXXVIII, 382 p : online resource 
Abstract Note  This book is the first in English being entirely dedicated to Miniature JouleThomson Cryocooling. The category of JouleThomson (JT) cryocoolers takes us back to the roots of cryogenics, in 1895, with figures like Linde and Hampson. The "cold finger" of these cryocoolers is compact, lacks moving parts, and sustains a large heat flux extraction at a steady temperature. Potentially, they cool down unbeatably fast. For example, cooling to below 100 K (minus 173 Celsius) might be accomplished within only a few seconds by liquefying argon. A level of about 120 K can be reached almost instantly with krypton. Indeed, the species of coolant plays a central role dictating the size, the intensity and the level of cryocooling. It is the JT effect that drives these cryocoolers and reflects the deviation of the "real" gas from the ideal gas properties. The nine chapters of the book are arranged in five parts. ??? The Common Principle of Cyrocoolers shared across the broad variety of cryocooler types ??? Theoretical Aspects: the JT effect and its inversion, cooling potential of coolants, the liquefaction process, sizing of heat exchangers, level of pressurization, discharge of pressure vessels ??? Practical Aspects: modes of operation (fast cooldown, continuous, multistaging, hybrid cryocoolers), pressure sources, configuration, construction and technologies, flow adjustment, MEMS, open and closed cycle, cooldown process and similarity, transient behavior ??? Mixed Coolant cryocooling: theory, practice and applications ??? Special Topics: real gas choked flow rates, gas purity, clog formation, optimal fixed orifice, modeling, cryosurgical devices, warming by the inverse JT effect The theoretical aspects may be of interest not only to those working with cryocoolers but also for others with a general interest in "real" gas thermodynamics, such as, for example, the inversion of the JT effect in its differential and integral forms, and the exceptional behavior of the quantum gases. A detailed list of references for each chapter comprises a broad literature survey. It consists of more than 1,200 relevant publications and 450 related patents. The systematically organized content, arranged under a thorough hierarchy of headings, supported by 227 figures and 41 tables, and accompanied by various chronological notes of evolution, enables??a pleasant reading experience. Dr. BenZion Maytal is a Senior Researcher at RafaelAdvanced Defense Systems, Ltd., and an Adjunct Senior Teaching Fellow at the TechnionIsrael Institute of Technology, Haifa, Israel. Prof. John M. Pfotenhauer holds a joint appointment in the Departments of Mechanical Engineering and Engineering Physics at the University of Wisconsin  Madison 
ISBN,Price  9781441982858 
Keyword(s)  1. EBOOK
2. EBOOK  SPRINGER
3. Engineering Thermodynamics, Heat and Mass Transfer
4. Heat engineering
5. HEAT TRANSFER
6. MASS TRANSFER
7. NANOTECHNOLOGY
8. Nanotechnology and Microengineering
9. THERMODYNAMICS

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Call#  Status  Issued To  Return Due On  Physical Location 
I05455 


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90.
 
Title  Theoretical and Experimental Studies on NonFourier Heat Conduction Based on Thermomass Theory 
Author(s)  Wang, HaiDong 
Publication  Berlin, Heidelberg, Springer Berlin Heidelberg, 2014. 
Description  XIV, 112 p. 93 illus., 25 illus. in color : online resource 
Abstract Note  This book mainly focuses on the theoretical and experimental study of nonFourier heat conduction behavior. A novel thermomass theory is used as the theoretical basis, which provides a general heat conduction equation for the accurate prediction of nonFourier heat conduction. In order to prove the validity of this thermomass theory, a large current was used to heat the metallic nanofilm at the minimum temperature of 3 K. The measured average temperature of the nanofilm was notably higher than the prediction of Fourier???s heat diffusion equation, while matching well with the general heat conduction equation. This is the first time that steady nonFourier heat conduction has been observed. Moreover, this book concerns the role of electronphonon interaction in metallic nanofilms, which involves the breakdown of the WiedemannFranz law at low temperatures and interfacial thermal resistance at femtosecond timescales. Readers will find useful information on nonFourier heat conduction and the latest advances in the study of charge and heat transport in metallic nanofilms 
ISBN,Price  9783642539770 
Keyword(s)  1. Characterization and Evaluation of Materials
2. EBOOK
3. EBOOK  SPRINGER
4. Engineering Thermodynamics, Heat and Mass Transfer
5. Heat engineering
6. HEAT TRANSFER
7. Interfaces (Physical sciences)
8. MASS TRANSFER
9. MATERIALS SCIENCE
10. Materials???Surfaces
11. Surface and Interface Science, Thin Films
12. Surfaces (Physics)
13. Surfaces and Interfaces, Thin Films
14. THERMODYNAMICS
15. THIN FILMS

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Call#  Status  Issued To  Return Due On  Physical Location 
I05421 


On Shelf 



 