100 volumes of "Notes on Numerical Fluid Mechanics" : 40 years of numerical fluid mechanics and aerodynamics in retrospect

書誌事項

100 volumes of "Notes on Numerical Fluid Mechanics" : 40 years of numerical fluid mechanics and aerodynamics in retrospect

Ernst Heinrich Hirschel, Egon Krause, editors

(Notes on numerical fluid mechanics, 100)

Springer, c2009

タイトル別名

Hundred volumes of "Notes on Numerical Fluid Mechanics"

One hundred volumes of "Notes on Numerical Fluid Mechanics"

100th volumes of NNFM

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注記

Includes bibliographical references

内容説明・目次

内容説明

Aircraft concepts are always driven by the requirements of the desired m- sion. A di?erent purpose for the use of the aircraft consequently results in a di?erent design. Therefore, depending on the intended outcome, con?i- ing requirements need to be ful?lled, for example, e?cient cruise speed and greatercargocapabilities,in combinationwith shorttake-o?andlanding ?eld lengths, or high speed and agility combined with variable payload demands. Due to the highly complex, non-linear physical environment in which aircraft operate, this task demands that the most advanced methods and tools are employed, to gain the necessary understanding of ?ow phenomena, and to exploit the ?ow physics to achieve maximum aircraft e?ciency. Inthe naturalsciences,researcherstry to create andextend humankno- edge by understanding and explaining the mechanisms of physical processes. In engineering, a designer is limited by certain requirements, and in order to ful?l these requirements the necessary technical tools need to be designed. In general, for a given problem the corresponding scienti?c or technical solution is sought. In order to successfully advance from a problem towards a solution, three main methods may be used. The two classical methods include theory and experiment, which are now being complemented by a third method, - scribedasnumericalsimulation.Theexperimentalapproachis basedonph- ical observation, measurement of relevant values, and methodical variation of the subject matter. For example, such experiments are used to gain a ph- ical understanding as well as to validate and investigate design alternatives.

目次

I: The NNFM Series and its Origins.- The NNFM Series.- The Origin of the Series in the GAMM-Committee for Numerical Methods in Fluid Mechanics.- The Environment of the Series in the Initial Phase.- German and EU High-Performance Computation Centers.- II: Co-Editors Forum: Selected Worldwide Developments.- General Developments of Numerical Fluid Mechanics Until the Middle of the 20th Century.- Golden Age of French CFD in the 1970-80s: Aerodynamics with Finite Elements and the European Multi-Physics HERMES Program.- Code Development in the German Aerospace Industry up to the Mid 1990s.- Discontinuities in Compressible Flows: Italian Contributions.- Flashback: 30 Years Numerical Fluid Mechanics and Aerodynamics in Japan, other Asian Countries and the Western Pacific Rim.- Computational Fluid Mechanics in Russia.- CFD Developments in the Northern European Countries.- Some Developments in Computational Aerodynamics in the UK.- The Development of Numerical Fluid Mechanics and Aerodynamics since the 1960s: US and Canada.- III: Current Applications of Numerical Methods in Fluid Mechanics/Aerodynamics.- European Numerical Aerodynamics Simulation Systems.- Numerical Aerodynamics in Transport Aircraft Design.- Numerical Aerothermodynamic Design in the European Space Industry.- The Second International Vortex Flow Experiment (VFE-2): Status 2007.- Large-Eddy Simulations of Flow Problems of Aeronautical Industry.- Issues of Multidisciplinary Design.- Evolutionary Optimisation Methods with Uncertainty for Modern Multidisciplinary Design in Aeronautical Engineering.- CFD Application in Automotive Industry.- IV: Applications to Flow Problems in Engineering and Physics.- Performance Upgrading of Hydraulic Machinery with the Help of CFD.- Calculating Blast Loads for Civil Engineering Structures.- Numerical Modelling of Technical Combustion.- Kinetic Modeling and Simulation of Environmental and Civil Engineering Flow Problems.- CFD in Process Engineering.- Computational Electromagnetics.- Computer Modelling of Magnetically Confined Plasmas.- Frontiers in Computational Geophysics: Simulations of Mantle Circulation, Plate Tectonics and Seismic Wave Propagation.- Solar System Plasmadynamics and Space Weather.- Numerical Fluid Dynamics in Astrophysics.- V: Algorithms, Computer Science and Computers.- Multigrid Software for Industrial Applications - From MG00 to SAMG.- Computer Science and Numerical Fluid Mechanics - An Essential Cooperation.- Commercial CFD in the Service of Industry: The First 25 Years.- High Performance Computing in Academia and Industry - An Example for a Private Public Partnership in HPC.- Computer Hardware Development as a Basis for Numerical Simulation.- Petaflops Computers and Beyond.

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