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71	Výpočet chlazení asynchronního stroje pomocí programu Ansys CFX / Calculation of the cooling of the asynchronous machine ANSYS CFX Horálek, Lukáš January 2017 (has links) The issue this master’s thesis discusses the cooling synchronous machines. Specifically, the calculation of cooling induction motor using the finite volume method. Using Autodesk Inventor will create a 3D model of a real electric machine, ie asynchronous motor and then ANSYS WORKBENCH perform system analysis CFX, based on the finite volume method. Furthermore, we realize the air speed measurements on a particular machine and the individual results obtained by measuring and calculating the actual compared with each other. The master’s thesis also deals marginally with closely related to it. For the same machine model, we apply the calculation of the temperature fields using the finite volume method and them perform a thermal analysis. Next, we can carry out the measurement of the temperature on the motor itself and calculate the measured values and the measured compare each other.
72	Zatížení větrem lehké mostní konstrukce / Wind loading of lightweight bridge-like structure Hrubý, Pavel January 2013 (has links) The present thesis is concerned with air flow over lightweight footbridge. Special attention is paid to flow-induced instabilities. The thesis opens with a theoretical elaboration on the phenomena related to the research matter. The next part investigates air flow over footbridge in a specific situation using numerical simulation in the Ansys CFX software. Finally, results are discussed in the light of chosen theoretical framework and relevant conclusions are presented.
73	Optimalizace chlazení synchronního stroje / Optimization of Cooling Synchronous Machine Makki, Zbyněk January 2016 (has links) The main goal of doctoral thesis is optimization cooling of the synchronous machine. Problem is solved based on the finite element method with use of ANSYS software. Work is built up from theoretical part where is comparison of base equations for heat transfer and simulations for several models. Next part shows us two methods how simulate free and force convection. Depends on the better method from the previous two methods is used for next calculations with several algorithm which are used for find of best parameters for synchronous machine. Our control parameter is mass flow rate.
74	Numerical Analysis Of 2D And 3D losses In Organic Rankine Cycle Turbine Rane, Pranav January 2021 (has links) World resources are becoming more and more scarce due to the increasing demand. Hence, the industry is moving towards sustainable development in order to suffice the needs of the future generations. Electricity is one such resources that account for 90% of the daily utility. In Sweden alone 378 TWh of electricity is consumed over a year. The major source of production of electricity is the fossil fuels, but due to development in the renewable resource's the electricity is also produced using solar, wind and geothermal energy. However, no production process is 100% efficient and hence, there is loss of energy in the form of waste. Organic Rankine Cycle Turbine (ORC) is a technology which is under the focus of the researcher and the industry to convert this wasteful energy into useful energy. Designing of these machines is a challenging task which requires careful consideration of every design parameter, i.e. with the change in every parameter the losses in the turbine either increase or decrease. In this study, effect of the parameters such as inlet mach number, stagger angle, inlet angle and pitch to chord is studied to see the effect on the profile loss. Since ANSYS Fluent works with 2D unlike ANSYS CFX which work with pseudo 2D geometry, ANSYS Fluent was used for investigating profile loss. Furthermore, a methodology is defined to investigate the tip leakage loss based on the geometry provided by the Againity AB for future studies. Tip leakage loss simulations were carried out in ANSYS CFX turbo mode due to its user friendly interface for simulating turbo machinery flows. The results of the profile loss investigation suggested a range for parameters where the profile loss is observed to be comparatively lower than elsewhere. The methodology proposed for tip leakage loss investigation paved a pathway for the further improvement with respect to the future studies. Computaional Fluid Dynamics CFD Turbine loss Profile loss Tip leakage loss 2D loss 3D loss ANSYS CFX ANSYS Fluent Organic Rankine Cycle Turbine Parametric Study Aerospace Engineering Rymd- och flygteknik Applied Mechanics Teknisk mekanik Fluid Mechanics and Acoustics Strömningsmekanik och akustik
75	Numerical models for tidal turbine farms Shives, Michael Robert 22 June 2017 (has links) Anthropogenic climate change is approaching predicted tipping points and there is an urgent need to de-carbonize energy systems on a global scale. Generation technologies that do not emit greenhouse gas need to be rapidly deployed, and energy grids need to be updated to accommodate an intermittent fluctuating supply. Rapidly advancing battery technology, cost reduction of solar and wind power and other emerging generation technologies are making the needed changes technically and economically feasible. Extracting energy from fast-flowing tidal currents using turbines akin to those used in wind farms, offers a reliable and predictable source of GHG free energy. The tidal power industry has established the technical feasibility of tidal turbines, and is presently up-scaling deployments from single isolated units to large tidal farms containing many turbines. However there remains significant economic uncertainty in financing such projects, partially due to uncertainty in predicting the long-term energy yield. Since energy yield is used in calculating the project revenue, it is of critical importance. Predicting yield for a prospective farm has not received sufficient attention in the tidal power literature. this task has been the primary motivation for this thesis work, which focuses on establishing and validating simulation-based procedures to predict flows through large tidal farms with many turbines, including the back effects of the turbines. This is a challenging problem because large tidal farms may alter tidal flows on large scales, and the slow-moving wake downstream of each rotor influences the inflow to other rotors, influencing their performance and loading. Additionally, tidal flow variation on diurnal and monthly timescales requires long-duration analysis to obtain meaningful statistics that can be used for forecasting. This thesis presents a hybrid simulation method that uses 2D coastal flow simulations to predict tidal flows over long durations, including the influence of turbines, combined with higher-resolution 3D simulations to predict how wakes and local bathymetry influence the power of each turbine in a tidal farm. The two simulation types are coupled using a method of bins to reduce the computational cost within reasonable limits. The method can be used to compute detailed 3D flow fields, power and loading on each turbine in the farm, energy yield and the impact of the farm on tidal amplitude and phase. The method is demonstrated to be computationally tractable with modest high-performance computing resources and therefore are of immediate value for informing turbine placement, comparing turbine farm-layout cases and forecasting yield, and may be implemented in future automated layout optimization algorithms. / Graduate Tidal Turbines Numerical Models Computational Fluid Dynamics Actuator Disk Actuator Line Energy Yield Turbulence Models Bay of Fundy FVCOM CFX Validation Turbine Wakes Field Data Wake Interaction Turbine Farm Blockage Effect Blockage Ratio Resource Characterization Impact Assessment Economic Feasibility Layout Optimization Layout Studies Horizontal axis turbine vertical axis turbine
76	Deformačně-napěťová analýza aneurysmatu břišní aorty / Stress-strain analysis of abdominal aortic aneurysm Ryšavý, Pavel January 2011 (has links) This thesis deals with problems of biomechanics of soft tissues, namely of stress-strain analysis of abdominal aortic aneurysm (AAA). The introduction describes briefly the possibility of aneurysm occurrence with a focus on an aneurysm in the abdominal aorta.
77	Influência da geometria da distribuição de temperatura em um combustor vertical de leito fluidizado a óleo combustível. / Influence of temperature distribution geometry on a fuel oil fluidized bed vertical combustor. CURSINO, Gustavo Gomes Sampaio. 23 March 2018 (has links) Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-03-23T01:44:32Z No. of bitstreams: 1 GUSTAVO GOMES SAMPAIO CURSINO - TESE PPGEQ 2016.pdf: 5939681 bytes, checksum: 518baf4150ea2fb7085706252276b9fa (MD5) / Made available in DSpace on 2018-03-23T01:44:32Z (GMT). No. of bitstreams: 1 GUSTAVO GOMES SAMPAIO CURSINO - TESE PPGEQ 2016.pdf: 5939681 bytes, checksum: 518baf4150ea2fb7085706252276b9fa (MD5) Previous issue date: 2016-04-18 / Este trabalho teve o propósito de determinar o comportamento dos gases na seção de radiação de um combustor de ar que pertence a uma planta industrial. O corpo metálico do equipamento rompeu em seu primeiro ano de operação, devido a um problema conceitual em sua geometria. A fluidodinâmica computacional (CFD), por meio do método dos volumes finitos, foi utilizada para desenvolver um modelo tridimensional que pudesse reproduzir o perfil de temperatura e o comportamento do fluxo do ar de combustão no equipamento. Na simulação, através do uso do software ANSYS CFX, foram utilizados: (i) o modelo de turbulência Reynolds Stress Model (RSM); (ii) as malhas hexaédrica, tetraédrica e prismática; (iii) o modelo de radiação P-1; e (iv) o modelo de combustão Eddy Dissipation Concept (EDC). Como resultado, foram apresentadas quatro possíveis mudanças na geometria do combustor de ar que, caso adotadas, eliminariam os riscos de novas falhas e garantiriam a continuidade operacional da unidade de processo. / This paper has the objective to describe the behavior of the flow and temperature of the flue gas in the radiation section of the vessel used to preheat air in a combustor. The equipment failed in its first operational year, due to a conceptual problem in its geometry. The CFD code based on finite volume method was applied to simulate the physical model of combustor using the ANSYS CFX software, reproducing the main features of the preheater. The simulation had considered: (i) Reynolds Stress Model (RSM) as turbulence model, (ii) The meshes applied were the hexahedral, tetrahedral and prismatic, (iii) P-1 was used as the radiation model and (iv) Eddy Dissipation Concept (EDC) as combustion model. Through the simulation was possible to propose four different kind of combustor geometry modification, that the application of anyone of them would eliminate the risk of new failures, ensuring the unit production availability. Engenharia Química. Combustão Modelagem Comportamento de gases - combustor Fluidodinâmica computacional Software Ansys CFX Método dos volumes finitos Modelo de radiação P-1 Computational Fluid Dynamics Behavior of gases - combustor Combustor vertical de leito fluidizado
78	Mitteilungen des URZ 4/2004 Arnold,, Clauß,, Fischer,, Müller,, Richter,, Riedel,, Wegener,, Ziegler, 13 December 2004 (has links) (PDF) Nutzerinformationen des Universitätsrechenzentrums (sichere) PHP-Programmierung IP-Adressvergabe Installationsdienst Kerberos Nutzerforum des URZ S-Plus Service Pack 2 Systemadministration URZ-Veranstaltungsreihe Adobe-Lizenzen Adobe-Software CAD-Software Datei-Upload IP-Adressen TU Chemnitz Software-News ToSCa CFX ICEM ddc:004 ddc:050 Sicherheit Windows XP
79	Mitteilungen des URZ 4/2004 Arnold,, Clauß,, Fischer,, Müller,, Richter,, Riedel,, Wegener,, Ziegler, 15 December 2004 (has links) (PDF) Nutzerinformationen des Universitätsrechenzentrums (sichere) PHP-Programmierung IP-Adressvergabe Installationsdienst Kerberos Nutzerforum des URZ S-Plus Service Pack 2 Systemadministration URZ-Veranstaltungsreihe Adobe-Lizenzen Adobe-Software CAD-Software IP-Adressen TU Chemnitz Datei-Upload Software-News ToSCa CFX ICEM ddc:004 ddc:050 Sicherheit Windows XP
80	Zatížení střechy vzdušným proudem vrtulníku při montážních pracích / Air flow load on a roof structure induced by a helicopter during erection works Fidler, Tomáš January 2013 (has links) Diploma thesis is focused on modeling rotor downwash generated by the main rotor of helicopter and analyzing its effects on the roof structure. Theoretical definition of rotor downwash flow is described in the first part of the text. Governing equations of computational fluid dynamics are briefly explained as well as boundary layer and finite volume method. Next part inquires into numerical simulation of rotor downwash based on height of rotor above the roof, shape of roof plane and climatic conditions. Results are compared with climatic load values provided by actual Czech construction standard in the end of the text.

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