Falcone, G. et al.
Multiphase Flow Metering
Principles and Applications
(Developments in Petroleum Science Vol. 54)
Elsevier 2009.12
300 pp.(H)
ISBN 0-444-52991-8
16,800円
Contents
1. Multiphase flow fundamentals/ 2. Introduction to multiphase flow metering/ 3. Multiphase flow metering principles/ 4. Key multiphase flow metering techniques/ 5. Current status and limitation of multiphase flow metering/ 6. Wet gas metering applications/ 7. Heavy oil metering applications/ 8. Non-conventional multiphase flow metering solutions/ 9. Flow loops for validating and testing multiphase flow meters/ 10. Reserves estimation using multiphase flow meters/ Appendices/ Index/
* Over the last two decades the development, evaluation and use of MFM systems has been a major focus for the Oil & Gas industry worldwide. Since the early 1990's, when the first commercial meters started to appear, there have been around 2,000 field applications of MFM for field allocation, production optimisation and well testing. *
Yeoh, G. H. & Tu, J.
Computational Techniques for Multiphase Flows
Butterworth-Heinemann 2009.10
664 pp.(H)
ISBN 0-08-046733-4
14,900円
Contents
1. Introduction/ 2. Governing Equations and Boundary Conditions/ 3. Solution Methods for Multiphase Flows/ 4. Gas-Particle Flows/ 5. Liquid-Particle Flows/ 6. Gas-Liquid Flows/ 7. Free Surface Flows/ 8. Freezing/Solidification/ 9. Three-Phase Flows/ 10. Future Trends in Handling Turbulent Multiphase Flows/ Appendix: A Full Derivation of Conservation Equations/ References/ Index/ *
Oertel, H. ed.
Prandtl-Essentials of Fluid Mechanics 3rd ed.
Springer-Verlag 2009.12
796 pp.(H)
ISBN 1-4419-1563-X
11,400円
Contents
1. Introduction/ 2. Properties of Liquids and Gases/ 3. Kinematics of Fluid Flow/ 4. Dynamics of Fluid Flow/ 5. Fundamental Equations of Fluid Mechanics/ 6. Instabilities and Turbulent Flows/ 7. Convective Heat and Mass Transfer/ 8. Multiphase Flows/ 9. Reactive Flows/ 10. Flows in the Atmosphere and in the Ocean/ 11. Microflows/ 12. Biofluid Mechanics/ 13. Selected Bibliography/ Index/
* Ludwig Prandtl, with his fundamental contributions to hydrodynamics, aerodynamics and gasdynamics, greatly influenced the development of fluid mechanics as a whole and it was his pioneering research in the first half of the 20th century that founded modern fluid mechanics. His book `Fuhrer durch die Stromungslehre― or `Essentials of Fluid Mechanics―appeared in 1942. Even today it is considered one of the most important books in the area. * It is based on the 12th German edition with additional material included. All Chapters have been revised and extended, and there are new chapters on fluid mechanical instabilities and turbulence, microflows and biofluid mechanics. *
Sobhan, C. B. & Peterson, G. P.
Microscale and Nanoscale Heat Transfer
Fundamentals and Engineering Applications
CRC Press 2008.6
440 pp.(H)
ISBN 0-8493-7307-7
12,200円
Contents
1.Introduction to Microscale Heat Transfer/ 2.Microscale Heat Conduction/ 3.Fundamentals of Microscale Convection/ 4.Engineering Applications of Microscale Convective Heat Transfer/ 5. Microscale Radiative Heat Transfer/ 6.Nanoscale Thermal Phenomena/ 7.Numerical Examples/ Index/
* The book discusses in detail various modern engineering applications, such as microchannel heat sinks, micro heat exchangers, and micro heat pipes. It covers methods that range from discrete computation to optical measurement techniques for microscale applications. The authors also present the fundamentals of nanoscale thermal phenomena in fluids. The text concludes with an entire chapter devoted to numerical examples of microscale conduction, convective heat transfer, and radiation as well as nanoscale thermal phenomena. *
Yener, Y. & Kakac, S.
Heat Conduction
Taylor & Francis 2008.6
455 pp.(H)
ISBN 1-59169-046-3
18,600円
Contents
1 Foundations of Heat Transfer/ 2 General Heat Conduction Equation/ 3 One-Dimensional Steady-State Heat Conduction/ 4 The Sturm-Liouville Theory and Fourier Expansions/ 5 Steady-State Two- and Three-Dimensional Heat Conduction: Solutions with Separation of Variables/ 6 Unsteady-State Heat Conduction: Solutions with Separation Of Variables/ 7 Solutions with Integral Transforms/ 8 Solutions with Laplace Transforms/ 9 Heat Conduction with Local Heat Sources/ 10 Further Analytical Methods of Solution/ 11 Heat Conduction Involving Phase Change/ 12 Numerical Solutions/ Appendix A Thermophysical Properties/ Appendix B Bessel Functions/ Appendix C Error Function/ Appendix D Laplace Transforms/ Appendix E Exponential Integral Functions/ Index/
* The fourth edition of Heat Conduction remains the definitive text on the basic concepts and applications of heat flow in opaque solids. Two new chapters have been added to cover heat conduction with local heat sources and heat conduction involving phase change. Applications of Fourier transforms in the semi-infinite and infinite regions and solutions by the similarity method have been expanded. Also new to this edition are additional problems at the end of each chapter. *
Favre-Marinet, M. & Tardu, S.
Convective Heat Transfer
対流伝熱
Wiley-ISTE 2009.12
448 pp.(H)
ISBN 1-84821-119-8
18,200円
Contents
* Convection heat transfer is an important topic both for industrial applications and fundamental aspects. It combines the complexity of the flow dynamics and of the active or passive scalar transport process. It is part of many university courses such as Mechanical, Aeronautical, Chemical and Biomechanical Engineering.
* Each chapter begins with a brief yet complete presentation of the related topic. This is followed by a series of solved problems. The latter are scrupulously detailed and complete the synthetic presentation given at the beginning of each chapter. There are about 50 solved problems, which are mostly original with gradual degree of complexity including those related to recent findings in convective heat transfer phenomena. Each problem is associated with clear indications to help the reader to handle independently the solution.
* The book contains nine chapters including laminar external and internal flows, convective heat transfer in laminar wake flows, natural convection in confined and no-confined laminar flows, turbulent internal flows, turbulent boundary layers, and free shear flows. *
Annaratone, D.
Engineering Heat Transfer
Springer-Verlag 2009.12
329 pp.(H)
ISBN 3-642-03931-6
21,000円
Contents
1. Introduction to Heat Transfer/ 2. Steady Conduction/ 3. Transient Conduction/ 4. Dimensional Analysis/ 5. Convection/ 6. Radiation/ 7. Heat Exchangers and Tube Banks/ 8. Pressure Drops/ A: Thermal Characteristics of Materials/ B: Corrective Factors for the Design Computation in Real Cases/ C: Corrective Factors for the Verification Computation in Real Cases/ Bibliography/ Index/
* This book is a generalist textbook; it is designed for anybody interested in heat transmission, including scholars, designers and students. Two criteria constitute the foundation of Annaratone's books, including the present one. *
Matos, D. & Valerio, C. ed.
Fluid Mechanics and Pipe Flow
Turbulence, Simulation and Dynamics
(流動力学と管内流)
Nova Science Pub. 2009.9
467 pp. (H)
ISBN 1-60741-037-0
17,700円
Contents
1.Solute Transport, Dispersion and Separation in Nanofluidic Channels/ 2.H2O in the Mantle: From Fluid to High-Pressure Hydrous Silicates/ 3.On the Numerical Simulation of Turbulence Modulation In Two-Phase Flows/ 4.A Review of Population Balance Modelling for Multiphase Flows: Approaches and Future Aspects/ 5.Numerical Analysis of Heat Transfer and Fluid Flow for Three-Dimensional Horizontal Annuli with Open Ends/ 6.Convective Heat Transfer in the Thermal Entrance Region of Parallel Flow Double-Pipe Heat Exchangers for Non-Newtonian Fluids/ 7.Numerical Simulation of Turbulent Pipe Flow/ 8.Pipe Flow Analysis of Uranium Nuclear Heating with Conjugate Heat Transfer/ 9.First and Second Law of Thermodynamics Analysis of Pipe Flow/ 10.Single-Phase Incompressible Fluid Flow in Mini- and Micro-Channels/ 11.Experimental Study of Pulsating Turbulent Flow through a Divergent Tube/ 12.Solution of an Airfoil Design Inverse Problem for a Viscous Flow Using a Contractive Operator/ 13.Some Free Boundary Problems In Potential Flow Regime Using the Level Set Method/ 14.A New Approach for Polydispersed Turbulent Two-Phase Flows: The Case of Deposition in Pipe-Flows/ Index/ *
583-22 登録日 10.05.05
