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1. Convolutional Signal Propagation: A Simple Scalable Algorithm for Hypergraphs

Author

Procházka, Pavel, Dědič, Marek, and Bajer, Lukáš

Subjects
Computer Science - Machine Learning
Abstract

Last decade has seen the emergence of numerous methods for learning on graphs, particularly Graph Neural Networks (GNNs). These methods, however, are often not directly applicable to more complex structures like bipartite graphs (equivalent to hypergraphs), which represent interactions among two entity types (e.g. a user liking a movie). This paper proposes Convolutional Signal Propagation (CSP), a non-parametric simple and scalable method that natively operates on bipartite graphs (hypergraphs) and can be implemented with just a few lines of code. After defining CSP, we demonstrate its relationship with well-established methods like label propagation, Naive Bayes, and Hypergraph Convolutional Networks. We evaluate CSP against several reference methods on real-world datasets from multiple domains, focusing on retrieval and classification tasks. Our results show that CSP offers competitive performance while maintaining low computational complexity, making it an ideal first choice as a baseline for hypergraph node classification and retrieval. Moreover, despite operating on hypergraphs, CSP achieves good results in tasks typically not associated with hypergraphs, such as natural language processing.

Published
2024

2. Direct observation of structural phase transformations during continuous phosphorus deposition on Cu(111)

Author

David, Jiří, Jeřábek, František, Procházka, Pavel, Černý, Miroslav, Ciobanu, Cristian V., Průša, Stanislav, Šikola, Tomáš, Kodambaka, Suneel, and Kolíbal, Miroslav

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Blue phosphorene -- two-dimensional, hexagonal-structured, semiconducting phosphorus -- has gained attention as it is considered easier to synthesize on metal surfaces than its allotrope, black phosphorene. Recent studies report different structures of phosphorene, for example, on Cu(111), but the underlying mechanisms of their formation are not known. Here, using a combination of in situ ultrahigh vacuum low-energy electron microscopy and in vacuo scanning tunneling microscopy, we determine the time-evolution of the surface structure and morphology during the deposition of phosphorus on single-crystalline Cu(111). We find that during early stages of deposition, phosphorus intermixes with Cu, resulting in copper phosphide structures. With increasing surface concentration of phosphorus, the phosphide phase disappears and a blue phosphorene layer forms, followed by self-assembly of highly ordered phosphorus clusters that eventually grow into multilayer islands. We attribute the unexpected transformation of stable phosphide to a phosphorene layer, and the previously unreported multilayer growth, to the presence of a large concentration of P2 dimers on the surface. Our results constitute direct evidence for a new growth mode leading to a phosphorene layer via an intermediary phase, which could underpin the growth of other 2D materials on strongly interacting substrates., Comment: 25 pages, 5 figures

Published
2024

3. Robust Dipolar Layers between Organic Semiconductors and Silver for Energy-Level Alignment

Author

Krajňák, Tomáš, Stará, Veronika, Procházka, Pavel, Planer, Jakub, Skála, Tomáš, Blatnik, Matthias, and Čechal, Jan

Subjects
Condensed Matter - Materials Science
Abstract

The interface between a metal electrode and an organic semiconductor (OS) layer has a defining role in the properties of the resulting device. To obtain a desired performance, interlayers are introduced to modify the adhesion and growth of OS and enhance the efficiency of charge transport through the interface. However, the employed interlayers face common challenges, including a lack of electric dipoles to tune the mutual position of energy levels, being too thick for efficient electronic transport, or being prone to intermixing with subsequently deposited OS layers. Here, we show that monolayers of 1,3,5-tris(4 carboxyphenyl)benzene (BTB) with fully deprotonated carboxyl groups on silver substrates form a compact layer resistant to intermixing while mediating energy level alignment and showing a large insensitivity to substrate termination. Employing a combination of surface-sensitive techniques, i.e., low-energy electron microscopy and diffraction, X-ray photoelectron spectroscopy, and scanning tunneling microscopy, we have comprehensively characterized the compact layer and proven its robustness against mixing with the subsequently deposited organic semiconductor layer. DFT calculations show that the robustness arises from a strong interaction of carboxylate groups with the Ag surface, and thus, the BTB in the first layer is energetically favored. Synchrotron radiation photoelectron spectroscopy shows that this layer displays considerable electrical dipoles that can be utilized for work function engineering and electronic alignment of molecular frontier orbitals with respect to the substrate Fermi level. Our work thus provides a widely applicable molecular interlayer and general insights necessary for engineering of charge injection layers for efficient organic electronics.

Published
2023
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4. Computer-Aided Engineering in the Design of an Experimental Blade Cascade for Fluid-Structure Interaction Studies

Author

Šnábl, Pavel, Pešek, Luděk, Procházka, Pavel, Prasad, Chandra Shekhar, Ceccarelli, Marco, Series Editor, Corves, Burkhard, Advisory Editor, Glazunov, Victor, Advisory Editor, Hernández, Alfonso, Advisory Editor, Huang, Tian, Advisory Editor, Jauregui Correa, Juan Carlos, Advisory Editor, Takeda, Yukio, Advisory Editor, Agrawal, Sunil K., Advisory Editor, Beran, Jaroslav, editor, Bílek, Martin, editor, Václavík, Miroslav, editor, and Žabka, Petr, editor

Published
2024
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5. The Role of Phase Stabilization and Surface Orientation in 4,4'-Biphenyl-Dicarboxylic Acid Self-Assembly and Transformation on Silver Substrates

Author

Makoveev, Anton O., Procházka, Pavel, Blatnik, Matthias, Kormoš, Lukáš, Skála, Tomáš, and Čechal, Jan

Subjects
Condensed Matter - Materials Science
Abstract

Molecular functionalization of nanoparticles and metallic substrates can be used to tune their properties for specific applications. However, polycrystalline substrates and nanoparticles exhibit surface planes with distinct crystallographic orientations. Therefore, the development of reliable strategies for molecular functionalization requires knowledge of the role of the surface plane orientation in the growth kinetics, structure, and properties of the molecular layer. Here, we apply a multiscale analysis to investigate the self-assembly of 4,4'-biphenyl-dicarboxylic acid (BDA) on Ag(111) and critically discuss the difference to Ag(100). Whereas the structural motifs for intact and fully deprotonated BDA are similar on both surfaces, the intermediate phases comprising partially deprotonated BDA differ in the structure and chemical composition. A real-time view of the phase transformations enables us to present a generalized picture of the phase transformations between the self-assembled molecular phases on the surfaces and underline important features such as the phase stabilization of the chemical composition and the mechanism of the related burst transformation. The influence of the substrate orientation on the structure of molecular layers and phase transformations provides the necessary background for developing functionalization strategies of the substrates displaying multiple surface planes and kinetic models for the growth near thermodynamic equilibrium.

Published
2022
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6. Tunable Energy Level Alignment in the Multilayers of Carboxylic Acids on Silver

Author

Stará, Veronika, Procházka, Pavel, Planer, Jakub, Shahsavar, Azin, Makoveev, Anton O., Skála, Tomáš, Blatnik, Matthias, and Čechal, Jan

Subjects
Condensed Matter - Materials Science
Abstract

The precise energy level alignment between a metal electrode and an organic semiconductor is required to reduce contact resistance and enhance the efficiency of organic-semiconductor-based devices. One of the ways is to include interlayers that mediate the energy level alignment, i.e., charge injection layers (CILs). Here we introduce the monolayer thick CILs based on the aromatic carboxylic acids that can induce the energy level shift in the subsequent layers by up to 0.8 eV. By gradual chemical transformation of the as-deposited molecules, we achieve a highly tunable energy level shift in the range of 0.5 eV. We reveal that the position of both the work function and energy-level position in the CIL increases linearly with the density of induced dipoles. The energy level position of subsequent layers changes in the same way as the CIL. Our results thus connect the energy alignment quantities, i.e., energy level positions of both CIL and subsequent layers and sample work function. The high tunability would allow precise tuning of the active layers deposited on the CIL, which marks the path towards efficient charge injection layers on metal electrodes.

Published
2022

8. Secondary frequency control stabilizing voltage dynamics

Author

Tchuisseu, Eder Batista Tchawou, Ndogmo, Eric-Donald, Procházka, Pavel, Woafo, Paul, Colet, Pere, and Schäfer, Benjamin

Subjects
Electrical Engineering and Systems Science - Systems and Control, Nonlinear Sciences - Adaptation and Self-Organizing Systems
Abstract

The ongoing energy transition challenges the stability of the electrical power system. Stable operation of the electrical power grid requires both the voltage (amplitude) and the frequency to stay within operational bounds. While much research has focused on frequency dynamics and stability, the voltage dynamics has been neglected. Here, we study frequency and voltage stability in the case of simple networks via linear stability and bulk analysis. In particular, our linear stability analysis of the network shows that the frequency secondary control guarantees the stability of a particular electric network. Even more interesting, while we only consider secondary frequency control, we observe a stabilizing effect on the voltage dynamics, especially in our numerical bulk analysis., Comment: 10 pages, 7 figures

Published
2021

11. Single-layer graphene on epitaxial FeRh thin films

Author

Uhlíř, Vojtěch, Pressacco, Federico, Arregi, Jon Ander, Procházka, Pavel, Průša, Stanislav, Potoček, Michal, Šikola, Tomáš, Čechal, Jan, Bendounan, Azzedine, and Sirotti, Fausto

Subjects
Condensed Matter - Materials Science
Abstract

Graphene is a 2D material that displays excellent electronic transport properties with prospective applications in many fields. Inducing and controlling magnetism in the graphene layer, for instance by proximity of magnetic materials, may enable its utilization in spintronic devices. This paper presents fabrication and detailed characterization of single-layer graphene formed on the surface of epitaxial FeRh thin films. The magnetic state of the FeRh surface can be controlled by temperature, magnetic field or strain due to interconnected order parameters. Characterization of graphene layers by X-ray Photoemission and X-ray Absorption Spectroscopy, Low-Energy Ion Scattering, Scanning Tunneling Microscopy, and Low-Energy Electron Microscopy shows that graphene is single-layer, polycrystalline and covers more than 97% of the substrate. Graphene displays several preferential orientations on the FeRh(001) surface with unit vectors of graphene rotated by 30{\deg}, 15{\deg}, 11{\deg}, and 19{\deg} with respect to FeRh substrate unit vectors. In addition, the graphene layer is capable to protect the films from oxidation when exposed to air for several months. Therefore, it can be also used as a protective layer during fabrication of magnetic elements or as an atomically thin spacer, which enables incorporation of switchable magnetic layers within stacks of 2D materials in advanced devices.

Published
2020
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13. Step-edge assisted large scale FeSe monolayer growth on epitaxial Bi2Se3 thin films

Author

Fikáček, Jan, Stetsovych, Vitalii, Vondráček, Martin, Procházka, Pavel, Průša, Stanislav, Kormoš, Lukas, Čechal, Jan, Caha, Ondrej, Skála, Tomáš, Vlaic, Petru, Carva, Karel, Springholz, Gunther, and Honolka, Jan

Subjects
Condensed Matter - Materials Science, Condensed Matter - Superconductivity
Abstract

The interest in Fe-chalcogenide unconventional superconductors is intense after the critical temperature of FeSe was reported enhanced by more than one order of magnitude in the monolayer limit at the interface to an insulating oxide substrate. In heterostructures comprising interfaces of FeSe with topological insulators, additional interesting physical phenomena is predicted to arise e.g. in form of {\it topological superconductivity}. So far superconductive properties of Fe-chalcogenide monolayers were mostly studied by local scanning tunneling spectroscopy experiments, which can detect pseudo-gaps in the density of states as an indicator for Cooper pairing. Direct macroscopic transport properties which can prove or falsify a superconducting phase were rarely reported due to the difficulty to grow films with homogeneous material properties. Here we report on a promising growth method to fabricate continuous carpets of monolayer thick FeSe on molecular beam epitaxy grown Bi$_2$Se$_3$ topological insulator thin films. In contrast to previous works using atomically flat cleaved bulk Bi$_2$Se$_3$ crystal surfaces we observe a strong influence of the high step-edge density (terrace width about 10~nm) on MBE-grown Bi$_2$Se$_3$ substrates, which significantly promotes the growth of coalescing FeSe domains with small tetragonal crystal distortion without compromising the underlying Bi$_2$Se$_3$ crystal structure., Comment: 11 pages, 8 figures

Published
2019
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15. Anisotropy of the Wake behind Circular Cylinder in Cross-Flow

Author

Uruba Václav, Procházka Pavel, and Yanovych Vitalii

Subjects
Physics, QC1-999
Abstract

The turbulence anisotropy is studied experimentally in the wake behind a circular cylinder in crossflow. The circular cylinder of aspect ratio 12 was placed in low turbulence flow, Reynolds number was 5k. For the 3-component velocity vector evaluation, the stereo Particle Image Velocimetry method was used. The Lumley triangle method was applied to quantify the turbulence anisotropy.

Published
2024
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16. Identification of two-dimensional $FeO_2$ termination of hematite ${\alpha}-Fe_2O_3(0001)$ surface

Author

Redondo, Jesús, Lazar, Petr, Procházka, Pavel, Průša, Stanislav, Lachnitt, Jan, Mallada, Benjamín, Cahlík, Aleš, Berger, Jan, Šmíd, Břetislav, Jelínek, Pavel, Čechal, Jan, and Švec, Martin

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Iron oxides are among the most abundant compounds on Earth and have consequently been studied and used extensively in industrial processes. Despite these efforts, concrete understanding of some of their surface phase structures has remained elusive, in particular the oxidized ${\alpha}-Fe_2O_3(0001)$ hematite surface. We detail an optimized recipe to produce this phase over the entire hematite surface and study the geometrical parameters and composition of its complex structure by means of atomically resolved microscopy, electron diffraction and surface-sensitive spectroscopies. We conclude that the oxidized ${\alpha}-Fe_2O_3(0001)$ surface is terminated by a two-dimensional iron oxide with structure, lattice parameters, and orientation different from the bulk substrate. Using total-energy density functional theory for simulation of a large-scale atomic model, we identify the structure of the surface layer as antiferromagnetic, conductive $1T-FeO_2$ attached on half-metal terminated bulk. The model succeeds in reproducing the characteristic modulations observed in the atomically resolved images and electron diffraction patterns.

Published
2018
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19. Mechanical Thrombectomy Quality Indicators Study in Czech Stroke Centers: Results of the METRICS Study

Author

Köcher, Martin, Šaňák, Daniel, Zapletalová, Jana, Cihlář, Filip, Czerny, Daniel, Černík, David, Duras, Petr, Fiksa, Jan, Hustý, Jakub, Jurák, Lubomír, Kovář, Martin, Lacman, Jiří, Pádr, Radek, Procházka, Pavel, Raupach, Jan, Reiser, Martin, Rohan, Vladimír, Roubec, Martin, Sova, Jindřich, Šercl, Miroslav, Škorňa, Miroslav, Šimůnek, Libor, Šnajdrová, Alena, Šrámek, Martin, and Tomek, Aleš

Published
2022
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23. Robust Dipolar Layers between Organic Semiconductors and Silver for Energy-Level Alignment

Author

Krajňák, Tomáš, Stará, Veronika, Procházka, Pavel, Planer, Jakub, Skála, Tomáš, Blatnik, Matthias, Čechal, Jan, Krajňák, Tomáš, Stará, Veronika, Procházka, Pavel, Planer, Jakub, Skála, Tomáš, Blatnik, Matthias, and Čechal, Jan

Abstract

The interface between a metal electrode and an organic semiconductor (OS) layer has a defining role in the properties of the resulting device. To obtain the desired performance, interlayers are introduced to modify the adhesion and growth of OS and enhance the efficiency of charge transport through the interface. However, the employed interlayers face common challenges, including a lack of electric dipoles to tune the mutual position of energy levels, being too thick for efficient electronic transport, or being prone to intermixing with subsequently deposited OS layers. Here, we show that monolayers of 1,3,5-tris(4-carboxyphenyl)benzene (BTB) with fully deprotonated carboxyl groups on silver substrates form a compact layer resistant to intermixing while capable of mediating energy-level alignment and showing a large insensitivity to substrate termination. Employing a combination of surface-sensitive techniques, i.e., low-energy electron microscopy and diffraction, X-ray photoelectron spectroscopy, and scanning tunneling microscopy, we have comprehensively characterized the compact layer and proven its robustness against mixing with the subsequently deposited organic semiconductor layer. Density functional theory calculations show that the robustness arises from a strong interaction of carboxylate groups with the Ag surface, and thus, the BTB in the first layer is energetically favored. Synchrotron radiation photoelectron spectroscopy shows that this layer displays considerable electrical dipoles that can be utilized for work function engineering and electronic alignment of molecular frontier orbitals with respect to the substrate Fermi level. Our work thus provides a widely applicable molecular interlayer and general insights necessary for engineering of charge injection layers for efficient organic electronics.

Published
2024

24. ProLEED Studio: software for modeling low-energy electron diffraction patterns

Author

Procházka, Pavel, Čechal, Jan, Procházka, Pavel, and Čechal, Jan

Abstract

Low-energy electron diffraction patterns contain precise information about the structure of the surface studied. However, retrieving the real space lattice periodicity from complex diffraction patterns is challenging, especially when the modeled patterns originate from superlattices with large unit cells composed of several symmetry-equivalent domains without a simple relation to the substrate. This work presents ProLEED Studio software, built to provide simple, intuitive and precise modeling of low-energy electron diffraction patterns. The interactive graphical user interface allows real-time modeling of experimental diffraction patterns, change of depicted diffraction spot intensities, visualization of different diffraction domains, and manipulation of any lattice points or diffraction spots. The visualization of unit cells, lattice vectors, grids and scale bars as well as the possibility of exporting ready-to-publish models in bitmap and vector formats significantly simplifies the modeling process and publishing of results.

Published
2024

25. How the Support Defines Properties of 2D Metal-Organic Frameworks: Fe-TCNQ on Graphene versus Au(111)

Author

Jakub, Zdeněk, Trllová Shahsavar, Azin, Planer, Jakub, Hrůza, Dominik, Herich, Ondrej, Procházka, Pavel, Čechal, Jan, Jakub, Zdeněk, Trllová Shahsavar, Azin, Planer, Jakub, Hrůza, Dominik, Herich, Ondrej, Procházka, Pavel, and Čechal, Jan

Abstract

The functionality of 2D metal-organic frameworks (MOFs) is crucially dependent on the local environment of the embedded metal atoms. These atomic-scale details are best ascertained on MOFs supported on well-defined surfaces, but the interaction with the support often changes the MOF properties. We elucidate the extent of this effect by comparing the Fe-TCNQ 2D MOF on two weakly interacting supports: graphene and Au(111). We show that the Fe-TCNQ on graphene is nonplanar with iron in quasi-tetrahedral sites, but on Au(111) it is planarized by stronger van der Waals interaction. The differences in physical and electronic structures result in distinct properties of the supported 2D MOFs. The d (2 )(z )center position is shifted by 1.4 eV between Fe sites on the two supports, and dramatic differences in chemical reactivity are experimentally identified using a TCNQ probe molecule. These results outline the limitations of common on-surface approaches using metal supports and show that the intrinsic MOF properties can be partially retained on graphene.

Published
2024

27. Innovative design of experimental blade cascade model for in-depth analysis of stall flutter.

Author

ŠNÁBL, Pavel, PRASAD, Chandra Shekhar, PROCHÁZKA, Pavel, PEŠEK, Ludĕk, URUBA, Václav, and SKÁLA, Vladislav

Subjects
WIND tunnel testing, AERODYNAMIC measurements, WIND tunnels, FLOW velocity, DEGREES of freedom, FLUTTER (Aerodynamics)
Abstract

Stall flutter is a serious threat to the operational integrity in turbomachinery, particularly in the final stage rotors of steam turbines and in compressors. Although computer science has developed rapidly and much of the research can be carried out using numerical tools, the simulation of some phenomena, such as stall flutter, is still very challenging and needs to be supported by experimental data. This paper presents an innovative experimental linear blade cascade design with five prismatic blades with pitch degrees of freedom, designed to be operated in a low subsonic wind tunnel. The geometry of the blade cascade was chosen on the basis of the experimental and numerical tests to allow stall flutter initiation. New suspension, measurement and electromagnetic excitation systems were developed and experimentally tested to allow accurate measurement of aerodynamic damping during controlled flutter tests. The novelty of the experimental blade cascade is the possibility of single pulse excitation of the blades. The cascade can be brought to the edge of stability by adjusting the angle of attack and flow velocity, and then the pulse can be used to induce stall flutter. Measurement of both mechanical and flow characteristics, also demonstrated in this paper, will provide data for in-depth analysis of stall flutter initiation and propagation. [ABSTRACT FROM AUTHOR]

Published
2024
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31. On Velocity Spectra within the Wake behind a Circular Cylinder

Author

Uruba Václav, Procházka Pavel, Yanovych Vitalii, and Duda Daniel

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

The canonical case of a circular cylinder in crossflow is studied experimentally at Reynolds number 5k. The power-spectra of all velocity components in the turbulent wake are studied in detail. Special attention is paid to the appearance of peaks and spectra shape, i.e., to the slope of spectra parts. Signatures of presence forward energy cascade and inverse enstrophy cascade are detected. Three peaks corresponding to 1st, 2nd and 3rd harmonics of the Strouhal frequency are detected as well as local spectra slopes conforming to the Kolmogorov and Kraichnan theories.

Published
2023
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34. Stereo PIV measurement of diffuser swirling flow

Author

Procházka Pavel, Uruba Václav, Štefan David, and Rudolf Pavel

Subjects
Physics, QC1-999
Abstract

The swirling flow in a diffuser has been studied using the stereo PIV technique. The DANTEC hardware and software were used for the experiment. The water pipe flow in the diffuser inlet has been set spinning by introducing tangential jet flow. Both piping and diffuser were of circular cross-section, however diffuser casing had rectangular (square) cross-section. The plane of measurement was located perpendicular to the flow within the diffuser. The two cameras with the Scheinpflug lens mounting were used, however the angle between the lenses axes and the diffuser outer surface was far from to be perpendicular, as recommended in similar situations. This configuration has been dictated by technical conditions in the laboratory. The two-level calibration target with dots was used for the cameras calibration. The calibration covers the diffusers central region in a good quality, however regions close to the walls were not well resolved. Many combinations of axial and tangential inflow conditions have been studied. The acquisition covered about 3 seconds in real time with frequency 500 Hz. Both statistics and dynamics of the flow have been studied in details. Results are shown for both statistical characteristics and dynamical analysis of various conditions. During experiments the air-glass-water interface was not normal to the camera viewing axis. The discussion how to solve this problem and of the bias of the calibration will be introduced.

Published
2022
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35. Preliminary evaluation of interferometry measurements of the flow field in the vicinity of a self-excited single profile

Author

Procházka Pavel, Vlček Václav, and Šidlof Petr

Subjects
Physics, QC1-999
Abstract

This paper deals with the interferometry measurement of the flow field in the vicinity of the surface of the self-excited single profile NACA 0015 in subsonic air flow. The pressure and velocity on the profile surface, the total forces and total moments acting on the profile are evaluated in the range of the Mach number Ma = 0.18-0.45 and the Reynolds number Re = (3-6)·105 . Since the interferogram processing was conducted with simplified assumptions of the isentropic changes of the flow field, the results have a limited accuracy especially in the case with flow separation. Results were not compared with the direct pressure measurement on the profile surface. The optical measurement method enabled the forces and moments to be evaluated separately for the suction and pressure surface of the airfoil.

Published
2022
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36. On 3D structure of a circular cylinder wake

Author

Uruba Václav, Procházka Pavel, and Skála Vladislav

Subjects
Physics, QC1-999
Abstract

The 3D structure of the wake behind a circular cylinder in a cross-flow is studied experimentally using stereo PIV technique, Reynolds number was around 5 thousands. The statistical characteristics along the cylinder axis are effectively constant and thus 2D, however instantaneous flow-field in the wake is fully 3D. Within the wake dynamical flow, the streamwise vortices and spots of streamwise velocity component pulsations are detected.

Published
2022
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37. On Vorticity Dynamics in Turbulent Wake behind Circular Cylinder

Author

Uruba Václav and Procházka Pavel

Subjects
cylinder, wake, turbulence, vorticity, dynamics, Engineering (General). Civil engineering (General), TA1-2040
Abstract

The circular cylinder turbulent wake is studied experimentally using Particle Image Velocimetry (PIV) method. The vorticity component parallel to the cylinder axis is evaluated from measured velocity field. Dynamics of the vorticity field is analysed using the Oscillation Pattern Decomposition (OPD) method. The 3 dominant modes corresponding to the 1st, 2nd and 3rd harmonics of Strouhal frequency are detected and presented. The corresponding topologies are characterized by waves of vortical systems. The results are similar to the dynamics of velocity field, however the procedure is much easier to implement, as only half number of degrees of freedom are active.

Published
2022
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38. Drop Hunter Isokinetic Probe for Cooling Tower Drift Measurement

Author

Procházka Pavel, Barraclough Veronika, Uruba Václav, and Skála Vladislav

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

Abstract. This paper is devoted to the development of a new probe to measure a drift from cooling towers. The probe was named DPIK (Drop Hunter Isokinetic) and its development consists of a design of the aerodynamic and microelectronic part of the probe, verification methods, design and testing, verification tests in laboratory conditions and measurements on a model of the cooling tower. The paper deals mainly with the verification tools, as these methods are very closely related to the aerodynamic part of the probe design. Two options were chosen for verifying the probe principle. The first of these was the Interferometric Particle Imaging (IPI) method, the second was another optical method using similar experimental equipment Particle Image Velocimetry (PIV).

Published
2022
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39. Experimental Investigation of 3D Dynamical Effects in a Wake behind Circular Cylinder

Author

Uruba Václav and Procházka Pavel

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

A circular cylinder in crossflow is subjected to the study of 3D dynamical structure of its wake. The typical dynamics is characterized by quasi-periodic behaviour called Kármán – Bénard vortex street with the typical frequency in dimensionless form known as Strouhal number. The experimental study relies on stereo Particle Image Velocimetry method, the plane of measurement is perpendicular to the flow in the distance 3.8 cylinder diameters in streamwise direction. Reynolds number was around 5 thousand. The structure and dynamical behaviour of the wake along the cylinder axis is studied in details. On the top of the known streamwise velocity deficit definition of the wake, the streamwise oriented dynamically evolving vortices are detected. For the detailed dynamics examination, the Oscillation Pattern Decomposition method was used. Waves of various structures travelling along the cylinder axis as well as some pulsations were identified. The wake dynamics is characterised by the streamwise velocity component deficit and the streamwise vorticity concentration. Both structures are moving periodically in transversal direction with the same frequency, the velocity deficit is shifted by a quarter of period behind the vorticity concentration in the shedding process.

Published
2022
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40. On dynamics of the flow in gap between two buildings in tandem configuration

Author

Uruba Václav, Procházka Pavel, Svoboda Václav, and Gnatowska Renata

Subjects
Physics, QC1-999
Abstract

Two buildings differing in height in tandem configuration are subjected to a turbulent boundary layer flow. The physical modelling in a wind tunnel has been performed, Particle Image Velocimetry in horizontal planes has been applied. The time-mean flow-field is dominated by the contrarotating vortex pair in the near-wake of the upstream building forming strong back-flow in this wake. Dynamical activity is located close to the bigger downstream building below the level of the smaller building roof. The dynamical structures in the space between them are studied using advanced analytical methods, Oscillation Pattern Decomposition (OPD). The 3 important OPD modes were detected differing by topology and frequency. The 2 OPD modes are characterized by vortical structures formed within the wake of the smaller upstream building and moving downstream towards the bigger building. The last OPD mode shows strong pulsation transversal flow in front of the bigger building. Typical frequency of the cyclo-stationary behaviour could be characterized by the Strouhal number in the range from 0.09 up to 0.15.

Published
2022
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41. Lift measurement of airfoil AH93-157 from wall pressure distribution

Author

Procházka Pavel, Skála Vladislav, Antoš Pavel, Popelka Lukáš, Fürst Jiří, and Schmirler Michal

Subjects
Physics, QC1-999
Abstract

Measurement of the lift coefficient of the AH93-157 airfoil was performed by measuring the static pressure distribution on the wind tunnel walls along the test-section. A correlation was established between the lift coefficient value, determined by integrating the static pressure distribution on the wind tunnel walls, and the lift coefficient value, determined by integrating the static pressure distribution on the airfoil surface. This method is useful for easy and quick determination of the lift coefficient on a simple airfoil model without complicated static pressure tubing from the surface. The measurement was made within a closed test-section. The correlation relationship also eliminates the problem of the finite span and the effect of the side walls. Comparison of pressure distribution on airfoil with CFD was performed as well.

Published
2022
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42. On the stall flutter occurrence in a blade cascade set to turbine and compressor geometry

Author

Procházka Pavel, Šnábl Pavel, Chindada Sony, Bublík Ondřej, and Uruba Václav

Subjects
Physics, QC1-999
Abstract

A blade cascade allowing free pitch movement of five blades was developed in Institute of Thermomechanics. This model is introduced to study the phenomenon of stall flutter existing in rotary bladed wheels of steam turbines and other devices. This article describes how to induce the stall flutter for prescribed boundary conditions (as inlet velocity, various angles of attack, etc.) and gives survey about flow field differences around the cascade set to both the turbine and the compressor geometry. This experimental research utilized time-resolved Particle Image Velocimetry (PIV) to measure and to evaluate statistical quantities of the wake behind the NACA0010 profiles of the cascade. Also dynamical analysis was performed in the form of Fast-Fourier transform and also phase-locked measurement was applied. Gained knowledge will be utilized to design advanced model of the cascade allowing stall flutter examination without the use of ball bearings.

Published
2022
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45. Secondary frequency control stabilising voltage dynamics

Author

European Commission, Academia Nacional de Ciencias (Costa Rica), Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Tchuisseu, E. B. Tchawou, Dongmo, Eric Donald, Procházka, Pavel, Woafo, Paul, Colet, Pere, Schäfer, Benjamin, European Commission, Academia Nacional de Ciencias (Costa Rica), Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Tchuisseu, E. B. Tchawou, Dongmo, Eric Donald, Procházka, Pavel, Woafo, Paul, Colet, Pere, and Schäfer, Benjamin

Abstract

The ongoing energy transition challenges the stability of the electrical power system. Stable operation of the electrical power grid requires both the voltage (amplitude) and the frequency to stay within operational bounds. While much research has focused on frequency dynamics and stability, the voltage dynamics has been neglected. Here, we study frequency and voltage stability in the case of simple networks via linear stability and bulk analysis. In particular, our linear stability analysis of the network shows that the frequency secondary control guarantees the stability of a particular electric network. Even more interesting, while we only consider secondary frequency control, we observe a stabilising effect on the voltage dynamics, especially in our numerical bulk analysis.

Published
2023

46. Dynamics of flow in a branching channel

Author

Uruba Václav, Procházka Pavel, and Skála Vladislav

Subjects
branching channel, turbulence, dynamics, opd, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Flow in a branched channel is studied experimentally using the PIV technique. The presented study is concentrated on clarifying the dynamical behaviour in individual branches. The 11 branches issuing from the main channel perpendicularly, all channels are of rectangular cross-section. First, the time-mean flow-field is shown, then the flow dynamics is investigated using the OPD method. Flow patterns and frequencies are evaluated in three selected branches. The separated flow in branches exhibits highly dynamical behaviour, which differs substantially in the branches close to the inflow, in the main channel middle and close to its end. The typical topologies and frequencies of the detected quasi-periodical structures in the channel braches are shown in the study. Mostly, the flow-fields are populated by trains of vortices with alternating orientation and saddle-like structures. The flow-field close to the channel walls affects heat transfer process between the wall and fluid.

Published
2021
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47. Validation of large eddy simulation of flow behind a circular cylinder

Author

Isoz Martin, Hlavatý Tomáš, Uruba Václav, and Procházka Pavel

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

The flow in the wake behind a circular cylinder in a cross-flow at Reynolds number of 4815 was studied both experimentally and via mathematical modeling. The mathematical model was performed as a Large Eddy Simulation (LES), while the experiments were carried out using the time-resolved variant of the Particle Image Velocimetry (PIV) method. Both the simulation and experiment took into account the dynamical aspects of the studied phenomenon, which enabled a detailed validation of the mathematical model. The overall statistical properties of the simulated flow were validated via comparing the time-averaged measured and computed velocity and vorticity fields. To validate the dynamical behavior, the velocity spectra were examined first. Next, the Proper Orthogonal Decomposition (POD) of the spatio-temporal velocity data was performed on both the experimental and numerical data and a comparison of the obtained energetic modes was carried out. All the performed validations have shown a satisfactory agreement between the simulation and the experiment.

Published
2021
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