Springer Handbook of Experimental Fluid Mechanics, w. DVD-ROM
(Sprache: Englisch)
This key text is a Springer Handbook - a totally authoritative handbook on a major current topic. It consolidates state-of-the-art information from the large number of disciplines used in Experimental Fluid Mechanics into a readable desk reference.
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This key text is a Springer Handbook - a totally authoritative handbook on a major current topic. It consolidates state-of-the-art information from the large number of disciplines used in Experimental Fluid Mechanics into a readable desk reference.
Klappentext zu „Springer Handbook of Experimental Fluid Mechanics, w. DVD-ROM “
This key text is a major reference work - a totally authoritative handbook on a major current topic. It consolidates state-of-the-art information from the large number of disciplines used in Experimental Fluid Mechanics into a readable desk reference book. It comprises four parts: Experiments in Fluid Mechanics, Measurement of Primary Quantities, Specific Experimental Approaches, and Analyses and Post-Processing of Data. The book has been prepared for physicists and engineers in research and development in universities, in industry and in other research institutions. Both experimental methodology and techniques are covered fundamentally and for a wide range of application fields. A generous use of citations directs the reader to additional material on each subject.Inhaltsverzeichnis zu „Springer Handbook of Experimental Fluid Mechanics, w. DVD-ROM “
IntroductionThe expression: "analytical work", often connotes an effort in which basic expressions are combined to analyze a given problem and to derive new information and insight from the resulting mathematical steps of the analysis. Specifically, having started with the appropriate relationships and bringing appropriate mathematical manipulations to the task, the analyst is able to create new information to address the motivating question(s).A central organizing theme of this handbook is that 'experimental fluid mechanics" can be understood as a parallel activity to that described above. The motivating questions will set the context for the experiment. The experiment will be established as a boundary value problem in which the experimentalist will address all aspects of the boundary conditions that will influence the "solution." If a transient or an evolving solution is sought, the appropriate initial conditions will similarly be addressed.Having established these conditions, the solution to the boundary value problem will be revealed in the experimental data that will - ideally - not be contaminated by unintended or unknown perturbing effects and that will be fully converged if statistical average values are sought.Part A Experiments in Fluid Mechanics
The objective of Part A is to establish the fundamental concepts and equations that undergird experimental fluid mechanics. The first chapter: addresses both the governing equations and the constitutive equations for Newtonian and non-Newtonian fluids. Chapter 2 provides the systematic bases for model testing and the scaling of experimental results. Sections 2.1 through 2.7 derive similitude parameters (Reynolds number, Froude number, etc.) from the governing equations and the boundary conditions. Dimensional analysis (Sect. 2.2) provides a rational approach for the organization and interpretation of experimental data; Sect. 2.3, self-similarity, documents known flow fields that
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exhibit this condition and it provides guidance on what other flows may exhibit this behavior. The encyclopedic presentation of examples will allow the reader to comprehend the universal features of both complete and incomplete self-similarity.
Chap. 1 The Experiment as a Boundary-Value ProblemChap. 2 Nondimensional Representation of the Boundary-Value ProblemPart B Measurement of Primary QuantitiesThe objective of Part B is to provide specific information to the reader on the following primary quantities: material properties (Chap. 3), flow field properties (Chap. 4 - pressure, Chap. 5 - velocity, vorticity, Mach number, Chap. 6 - spatial density variations and Chap. 7 - temperature and heat flux) and forces and moments (Chap. 8). Chapter 3 is focused on providing quantitative information for the material properties, the sources of this information and the associated confidence levels for the given data. Chapters 4 through 8 provide comprehensive guidance to the reader on: i) the objectives, ii) the available equipment, iii) the utilization techniques, and iv) the post-processing of the primitive information for the stated quantities.
Chap. 3 Material Properties: Measurement and DataChap. 4 Pressure Measurement SystemsChap. 5 Velocity, Vorticity and Mach NumberChap. 6 Spatial Density VariationsChap. 7 Temperature, Concentration and Heat FluxChap. 8 Forces and Moments Part C Specific Experimental ApproachesBuilding on the previous two parts of this Springer Handbook, which have dealt with the fundamental concepts and equations that undergrid experimental fluid mechanics and the measurement of primary quantities, respectively, Part C addresses experimental fluid mechanics from an application point of view. According to application, often unique and specific forms of equipment, experimental procedure, or analysis and interpretation of results have been developed. It is the purpose of Part C to elucidate a selection of such application areas, in particular measurements of non-Newtonian flows, turbulence, flow visualization, wall-bounded flows, surface topology, turbomachines, hydraulics, aerodynamics, atmospheric and oceanographic measurements, combustion diagnostics and electrohydrodynamic systems.Chap. 9 Non-Newtonian FlowsChap. 10 Measurement of Turbulent FlowsChap. 11 Flow VisualizationChap. 12 Wall-Bounded FlowsChap. 13 Surface TopologyChap. 14 TurbomachinesChap. 15 HydraulicsChap. 16 AerodynamicsChap. 17 Atmospheric MeasurementsChap. 18 Oceanographic MeasurementsChap. 19 The No-Slip Boundary ConditionChap. 20 Combustion DiagnosticsChap. 21 Electrohydrodynamic SystemsPart D Analyses and Post-Processing of Data
This final part of the Springer Handbook is actually meant to be a reference source about single and data processing techniques commonly encountered in fluid mechanics. These topics have been complemented by a section discussing data acquisition by imaging detectors, a topic becoming increasingly important for optical measurement techniques. These are all subjects, which in their development are not naturally associated with fluid mechanics; hence Part D attempts to collect information from many diverse sources and present them conveniently to the fluid mechanic researcher. Topics covered in this part include fundamental topics of signal and data processing transforms (Fourier, Hilbert, wavelet), proper orthogonal decomposition and stochastic estimation. This is followed by a discussion of estimator expectation and variance and the influence of noise on these quantities. The Cramèr-Rao Lower Bound (CRLB) is introduced and developed for several common signal processing examples from fluid mechanics. Imaging detectors and measures of their performance are then discussed in detail before closing with a chapter on image processing and motion analysis, two topics especially relevant for the Particle Image Velocity (PIV) measurement technique. Chap. 22 Review of Some FundamentalsChap. 23 Fundamentals of Data ProcessingChap. 24 Data AcquisitionChap. 25 Data Analyses
About the Authors
Subject Index
Chap. 1 The Experiment as a Boundary-Value ProblemChap. 2 Nondimensional Representation of the Boundary-Value ProblemPart B Measurement of Primary QuantitiesThe objective of Part B is to provide specific information to the reader on the following primary quantities: material properties (Chap. 3), flow field properties (Chap. 4 - pressure, Chap. 5 - velocity, vorticity, Mach number, Chap. 6 - spatial density variations and Chap. 7 - temperature and heat flux) and forces and moments (Chap. 8). Chapter 3 is focused on providing quantitative information for the material properties, the sources of this information and the associated confidence levels for the given data. Chapters 4 through 8 provide comprehensive guidance to the reader on: i) the objectives, ii) the available equipment, iii) the utilization techniques, and iv) the post-processing of the primitive information for the stated quantities.
Chap. 3 Material Properties: Measurement and DataChap. 4 Pressure Measurement SystemsChap. 5 Velocity, Vorticity and Mach NumberChap. 6 Spatial Density VariationsChap. 7 Temperature, Concentration and Heat FluxChap. 8 Forces and Moments Part C Specific Experimental ApproachesBuilding on the previous two parts of this Springer Handbook, which have dealt with the fundamental concepts and equations that undergrid experimental fluid mechanics and the measurement of primary quantities, respectively, Part C addresses experimental fluid mechanics from an application point of view. According to application, often unique and specific forms of equipment, experimental procedure, or analysis and interpretation of results have been developed. It is the purpose of Part C to elucidate a selection of such application areas, in particular measurements of non-Newtonian flows, turbulence, flow visualization, wall-bounded flows, surface topology, turbomachines, hydraulics, aerodynamics, atmospheric and oceanographic measurements, combustion diagnostics and electrohydrodynamic systems.Chap. 9 Non-Newtonian FlowsChap. 10 Measurement of Turbulent FlowsChap. 11 Flow VisualizationChap. 12 Wall-Bounded FlowsChap. 13 Surface TopologyChap. 14 TurbomachinesChap. 15 HydraulicsChap. 16 AerodynamicsChap. 17 Atmospheric MeasurementsChap. 18 Oceanographic MeasurementsChap. 19 The No-Slip Boundary ConditionChap. 20 Combustion DiagnosticsChap. 21 Electrohydrodynamic SystemsPart D Analyses and Post-Processing of Data
This final part of the Springer Handbook is actually meant to be a reference source about single and data processing techniques commonly encountered in fluid mechanics. These topics have been complemented by a section discussing data acquisition by imaging detectors, a topic becoming increasingly important for optical measurement techniques. These are all subjects, which in their development are not naturally associated with fluid mechanics; hence Part D attempts to collect information from many diverse sources and present them conveniently to the fluid mechanic researcher. Topics covered in this part include fundamental topics of signal and data processing transforms (Fourier, Hilbert, wavelet), proper orthogonal decomposition and stochastic estimation. This is followed by a discussion of estimator expectation and variance and the influence of noise on these quantities. The Cramèr-Rao Lower Bound (CRLB) is introduced and developed for several common signal processing examples from fluid mechanics. Imaging detectors and measures of their performance are then discussed in detail before closing with a chapter on image processing and motion analysis, two topics especially relevant for the Particle Image Velocity (PIV) measurement technique. Chap. 22 Review of Some FundamentalsChap. 23 Fundamentals of Data ProcessingChap. 24 Data AcquisitionChap. 25 Data Analyses
About the Authors
Subject Index
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Autoren-Porträt
Cameron Tropea, geb. 1954, ist derzeit Leiter des Fachgebietes Strömungslehre und Aerodynamik im Fachbereich Maschinenbau an der Technischen Universität Darmstadt, wo er sich vor allem mit Forschung im Bereich der Fluidzerstäubung, der Aerodynamik und der Strömungsmesstechnik befasst. Seine Beschäftigung mit der Bionik umfasst die Aerodynamik des Vogelfluges sowie das Aufprallverhalten von Flüssigkeitstropfen auf strukturierten Oberflächen.
Bibliographische Angaben
- 2007, 1557 Seiten, 1240 farbige Abbildungen, Maße: 15,5 x 23,5 cm, Gebunden, Englisch
- Herausgegeben von Tropea, Cameron; Yarin, Alexander L.; Foss, John F.
- Herausgegeben: Cameron Tropea, Alexander L. Yarin, John F. Foss
- Verlag: Springer
- ISBN-10: 3540251413
- ISBN-13: 9783540251415
Sprache:
Englisch
Rezension zu „Springer Handbook of Experimental Fluid Mechanics, w. DVD-ROM “
From the reviews:"Handbooks are reference works for daily use by two main groups of people: on the one hand by experienced scientists, and by engineers or physicists ... . And, on the other hand, by students ... . due to the breadth and depth, this book serves both groups excellently. ... In summary, the community of fluid mechanics today has in their hands a highly valuable and important new book, which is a major reference in our science and will soon become a standard reference." (Günter Brenn, International Journal of Heat and Mass Transfer, Vol. 51, 2008)"The stated purpose of this 1500 page handbook is to provide comprehensive information to the experimental fluid mechanics community for planning, executing, and interpreting experiments. ... A DVD-ROM PDF version of the handbook accompanies the hardback book. ... The book is excellent for a user who wants to obtain some information on a given topic without reading and digesting many papers. ... production quality is excellent too. ... The high-quality drawings, photos, and figures are clearly labeled and captioned." (Roger L. Simpson, American Institute of Aeronautics and Astronautics Journal, Vol. 46 (10), 2008)
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