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This self-contained book begins with fundamental principles and proceeds to the latest developments in the field. Using a systematic mathematical approach, it covers linearized and transonic theories, simple flows, general theories of lift and drag, subsonic flows, sonic flows, shock waves, airfoils and three-dimensional wings. Also discussed are far fields and the transonic law of stabilization.Significant mathematical areas which enter the discussion are: Partial Differential Equations of Mixed Type, Weak Solutions (Shock Waves), Hodograph Transformations, Similarity Solution

Aerodynamics, Transonic.

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This self-contained book begins with fundamental principles and proceeds to the latest developments in the field. Using a systematic mathematical approach, it covers linearized and transonic theories, simple flows, general theories of lift and drag, subsonic flows, sonic flows, shock waves, airfoils and three-dimensional wings. Also discussed are far fields and the transonic law of stabilization.Significant mathematical areas which enter the discussion are: Partial Differential Equations of Mixed Type, Weak Solutions (Shock Waves), Hodograph Transformations, Similarity Solution

Aerodynamics, Transonic. --- Aerodynamics of transonic flight --- Trans-sonic aerodynamics --- Transonic aerodynamics --- Transonic speeds --- Aerodynamics --- High-speed aeronautics --- Sound pressure

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Aerodynamics, Transonic --- Vortex-motion --- Mathematics. --- Mathematical models. --- 62 --- Aerodynamics of transonic flight --- Trans-sonic aerodynamics --- Transonic aerodynamics --- Transonic speeds --- Mathematics --- Mathematical models --- Ingenieurswetenschappen. Technologie in het algemeen --- Aerodynamics --- Eddies --- Fluid dynamics --- Hydrodynamics --- Rotational motion --- High-speed aeronautics --- Sound pressure

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Shock waves --- Aerodynamics, Supersonic --- 533.6.011.3 --- 533.6.011.7 --- Shock (Mechanics) --- Waves --- Aerodynamics of supersonic flight --- High-speed aerodynamics --- Supersonic aerodynamics --- Supersonic speeds --- Supersonics --- Aerodynamics --- High-speed aeronautics --- Sound pressure --- Subsonic flow. Transonic flow --- Compressibility. Compressibility effects. Shock waves --- Aerodynamics, Supersonic. --- Shock waves. --- 533.6.011.7 Compressibility. Compressibility effects. Shock waves --- 533.6.011.3 Subsonic flow. Transonic flow --- Fluides, Mécanique des --- Fluid mechanics --- Ondes --- Mécanique des fluides. --- Equation --- Fluide --- Holographie --- Injecteur --- Mécanique des fluides.

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Fluid flow and heat transfer processes play an important role in many areas of science and engineering, from the planetary scale (e.g., influencing weather and climate) to the microscopic scales of enhancing heat transfer by the use of nanofluids; understood in the broadest possible sense, they also underpin the performance of many energy systems. This topical Special Issue of Energies is dedicated to the recent advances in this very broad field. This book will be of interest to readers not only in the fields of mechanical, aerospace, chemical, process and petroleum, energy, earth, civil ,and flow instrumentation engineering but, equally, biological and medical sciences, as well as physics and mathematics; that is, anywhere that "fluid flow and heat transfer" phenomena may play an important role or be a subject of worthy research pursuits.

n/a --- thermal performance --- microbubble pump --- particle deposition --- flow oscillation --- orthogonal jet --- flat plate --- gas turbine engine --- air heater --- flow behavior --- transonic compressor --- friction factor --- nonlinear thermal radiation --- oscillators --- porous cavity --- POD --- turbulent flow --- thermosyphon --- turbulence --- mass transfer --- tip leakage flow --- capture efficiency --- pipe flow --- correlation --- decomposition dimensionalities --- heat transfer --- pressure loss --- CANDU-6 --- numerical modeling --- CFD --- magnetic field --- boundary layer --- two-phase flow --- heat transfer performance --- Colebrook-White --- computational burden --- phase change --- surrogate model --- Padé polynomials --- traveling-wave heat engine --- flow regime --- numerical simulation --- energetics --- ( A g ? F e 3 O 4 / H 2 O ) hybrid nanofluid --- pumps --- BEM --- SPIV --- acoustic streaming --- microbubbles --- Aspen® --- push-pull --- Positive Temperature Coefficient (PTC) elements --- iterative procedure --- transient analysis --- spiral fin-tube --- toxic gases --- unsteady heat release rate --- water hammer --- method of moment --- visualization --- superheated steam --- impingement heat transfer enhancement --- X-ray microtomography --- moderator --- wind turbine --- flow rate --- fin-tube --- flue gas --- actuator disc --- temperature distributions --- supercritical LNG --- sharp sections --- moment of inertia --- Colebrook equation --- pump efficiency --- tower --- OpenFOAM --- computational fluid dynamics --- chemical reaction --- pump performance --- logarithms --- numerical results --- downwind --- thermodynamic --- triaxial stress --- flow friction --- energy conversion --- entropy generation --- zigzag type --- inertance-compliance --- section aspect ratios --- laminar separation bubble --- axial piston pumps --- thermogravimetry --- pressure drop --- load resistances --- vortex breakdown --- T-section prism --- flow-induced motion --- centrifugal pump --- load --- vortex identification --- decomposition region --- condensation --- performance characteristics --- pipes --- detached-eddy simulation --- Computational Fluid Dynamics (CFD) simulation --- thermal cracking --- real vehicle experiments --- bubble size --- thermal energy recovery --- hydraulic resistances --- concentration --- tower shadow --- fire-spreading characteristics --- thermoacoustic electricity generator --- bubble generation --- multi-stage --- thermal effect --- ferrofluid --- PHWR --- fluidics --- multiphase flow --- printed circuit heat exchanger --- particle counter --- dew point temperature --- Padé polynomials