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Lecture Series Monographs (VKI LS)

Lecture Series Monographs (VKI LS)

Lectures will be given by active specialists drawn from universities, research establishments and industries from all over the world. Extensive course notes are published as proceedings in the VKI Lecture Series Monographs. On regular basis, thematic volumes are published in the Selected Special Topics, assembling the best Lecture Series contributions over the previous years on a given subject.

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    Gas turbine engine transient behavior article pay-per-view 25€/article

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    This course presented information and data that are intended to provide an in—depth understanding of gas turbine engine transient behaviour, the modeling methods that are applied to transient events and the simulation technology that supports the transient analysis process. The lecturers represented a cross—section of contributors to the gas turbine engine industry who have specialized in the study of transient engine behaviour.

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    Aero-Thermal performance of internal cooling systems in turbomachines article pay-per-view 25€/article

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    Aero-Thermal performance of internal cooling systems in turbomachines Learn More
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    Effect of system rotation on turbulence with applications to turbomachinery article pay-per-view 25€/article

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    Advances in aero-thermodynamics, aero-elasticity and aero-acoustics largely depend on the understanding of the flow structures, and the ability to control them. The first lecture note reviews the various approaches that are being followed for plasma flow control. The fundamental interaction mechanisms are presented together with the challenges associated to their implementation depending on the flow regime. A presentation on the mechanisms for the generation of momentum transfer using offset dielectric barrier discharges follows, focusing on the physics of the breakdown formation. The next lecture note addresses phenomenological models that can be used in conjunction with CFD codes, from simple algebraic equations to complex set of partial difference equations. The first part is concluded with the use of DBD actuators in various applications for internal and extemal flow control, over a range of Mach numbers from 0.1 to 3.5, in a wide static pressure range from 0.1 to 9 bar. The second part of the proceedings starts with the analysis of the goveming equations of glow discharges in supersonic and hypersonic flows. The estimations of characteristics time scales in high speed flow highlight the influence of gas motion on the electro-dynamic structure. The second course note demonstrates successful plasma applications in the lab at high speed, for drag reduction, plasma-induced generation of shock waves, and artificial flow separation. The third lecture note describes recent experimental and computational research in identifying and modeling the gasdynamic and therrnochemical processes of the plasmoid generation with micro—wave and laser discharge.

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    Numerical investigations in turbomachinery: The state of the art article pay-per-view 25€/article

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    The objective of these Lecture Series notes is to review the latest developments and achievements in the field of computational techniques as applied to turbomachinery flows. Standard and advanced techniques currently used on a routine basis both in the academic and industrial environment are revised, and their merits and shortcoming analyzed on the basis of test problems of practical engineering relevance.

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Items 21 to 30 of 315 total

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