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Simulace odmrazování krycího skla světlometu a jeho aplikace v automobilovém průmyslu / Simulation of headlight cover lens de-icing and its application in automotive industryMagdon, Jan January 2021 (has links)
Práce se zabývá výzkumem v oblasti odmrazování světlometu. Jejím cílem je vytvoření numerického simulačního modelu, který dokáže předpovídat průběh odmrazování, zároveň tak může odhalit nedostatky při návrhu světlometu. Na simulační modelu jsou testovány proměnlivé parametry, výsledkem práce je nalezení optimálních podmínek, které zajistí validní výsledky simulace při současné úspoře výpočetního času.
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Čtyřdobý motor pro malý motocykl / 4-stroke Engine for Small MotorcycleBřečka, Lukáš January 2008 (has links)
This diploma work dissertate of 4-stroke engine for small motorcyle design concept with set points. There is description design concept of single part, analysis of crank mechanism, draft calculations of cran and cam mechanism with solidity calculation of motor piston. Part of this diploma wokr is strain analysis of motor piston with finite element method (FEM).
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Využití reverzního inženýrství pro výpočty aerodynamiky automobilu / The utilization of reverse engineering in computation of vehicle aerodynamicsRozsíval, Jan January 2008 (has links)
The vehicle body was measured by using ATOS 3D scanner. Measured data from the ATOS 3D scanner were applied to make a 3D model of vehicle body and to make a 3D model of whole vehicle by using computer program Pro/ENGINEER. The model of vehicle was made with a view for future use of CAD model. Surface of the vehicle model was used for computation of vehicle aerodynamics – aerodynamic static pressure distribution by using CFD software Star-CCM+.
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Analýza vlivu polohy karoserie závodního vozu na aerodynamické charakteristiky / Analysis of the influence of body position on the car's aerodynamic characteristicsDaniel, Petr January 2012 (has links)
Master’s thesis deals with the aerodynamics of racing vehicle for various settings of clearance and tilt of body. First is described the theory of aerodynamics and flow. It was necessary to build the CAD model of racing car for analysis. Assembly of this model is the next chapter of the master’s thesis. This is followed by CFD analysis, where is displayed a simplified model of the vehicle. This part describes the overall process and setting in the CFD program. In conclusion, the results are summarized for each setting.
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Wading Simulations of Complete Heavy-Duty VehiclesSamuelsson, Emma, Benzler, Sofie January 2022 (has links)
Wading is the phenomenon where a vehicle drives through water with a relatively deep water level. Sincea large portion of the vehicle is submerged in water it can affect the driveability and function of individualcomponents. Wading is therefore an important phenomenon to be aware of especially today where society moves towards alternative energy sources. This includes water sensitive components when contact with water can generate major consequences. Previous knowledge and experience of wading has been from performing physical tests, but using Computational Fluid Dynamics (CFD) to examine the phenomenon can accelerate the iterative design process. In this thesis, numerical method of wading simulations on complete heavy-duty vehicles using the software STAR-CCM+ are developed. Furthermore, the results from the numerical methods are validated against results from physical tests performed at Scania’s test facility in Södertälje. The numerical methods are divided into a simplified model of a Battery Electric Vehicle (BEV) and a detailed geometry of a gas-driven vehicle from Scania. Beside dividing the wading scenario into the geometries, two different methods are developed, Wave and Wading. The Wave-method includes the vehicle standing still while a water wave is fed in through the inlet of the domain, i.e. allowed to flush over the vehicle, with a velocity of 3.6 km/h and 8 km/h. This method is implemented for both a generic simplified BEV truck and a detailed real-life Scania truck. For the Wading-method, motion is applied to the vehicle where itis driving with a velocity of 3.6 km/h through a digital twin of the water trench available at the test facility. This method is further divided into two cases, Zero Gap and Floating, where the difference is the distance between the tires of the vehicle and ground of the domain. The Floating-case includes a 10 cm distance and the Zero Gap-case has no gap between the tires and ground. The Wading-method is only implemented for the simplified geometry due to the computational cost and complexity. All methods use the Volume of Fluid (VOF) method for multiphase modelling and the Zero Gap-case uses Overset Mesh for modelling motion. The validation of the simulations focuses on the water behaviour such as water surface topology and water flowing inside the vehicle while wading. The results for the Wave-method with both the simplified and detailed truck at 8 km/h shows similarities in the water surface topology between the numerical model and the physical test. The simulations of the Wading-method is not visualising any similarities since the visible wave pattern are few and unclear in the numerical model. An isosurface is used to visualise the surface of the water which generated a smooth topology since no other options, such as vector fields, are added. It is found that the water movement inside the vehicle will affect water sensitive areas, e.g. on the battery packs. It is concluded that the derived methods are a first draft and should be directed towards future development in optimising the methods to lower the computational cost, but also to improve the capturing of the interface between the two phases. Due to instability and computational cost the detailed geometry is not implemented in the Wading-method. The methods are adapted to use different vehicle types since the simplified and detailed geometry are a BEV and a gas-driven truck respectively.
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Att sjunga med stöd : En kvalitativ intervjustudie om fyra sångpedagogstuderandes beskrivningar av arbetsmetoder gällande stödetLarsson, Ella January 2022 (has links)
Syftet med denna studie är att undersöka sångpedagogstudenters uppfattningar om arbetsmetoder gällande det sångtekniska momentet stöd. Även frågan om vad som karaktäriserar sångpedagogstudenternas definition av vad stödet är och upplevelser av möjliga hinder för att utföra stödarbetet berörs. Datainsamlingen skedde genom semistrukturerade intervjuer med fyra sångpedagogstuderande på högskolenivå. Studenterna som intervjuats studerar vid två olika musikhögskolor i Sverige. Analysen har gjorts genom en tematisk analys och har inspirerats av en hermeneutisk tolkningsansats. Resultatet visar att sångarna har en mängd varierande arbetsmetoder, bestående av praktiska övningar men de använder sig även av olika mentala övningar eller förhållningssätt som verktyg för att möjliggöra stödmuskulaturens arbete. Det framkom även att stödet ses som en förutsättning för sång, men att det varierar från olika genrer och röstkvaliteter hur mycket aktivitet i stödmuskulaturen som krävs. I diskussionen diskuteras bland annat att distinktionen mellan aktivitet och statisk spänning framkommer som viktig i stödarbetet, och frågan kring om olika genrer kräver olika mycket stödarbete tas upp. Även de mentala aspekterna som kom fram ur resultatet diskuteras, där en slutsats som dras är att sångare kan vinna på att ha ett holistiskt synsätt på stöd.
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An experimental and numerical study of secondary flows and film cooling effectiveness in a transonic cascadeKullberg, James C. 01 May 2011 (has links)
Experimental tests on a transonic annular rig are time-consuming and expensive, so it is desirable to use experimental results to validate a computational model which can then be used to extract much more information. The purpose of this work is to create a numerical model that can be used to simulate many different scenarios and then to apply these results to experimental data.; In the modern world, gas turbines are widely used in aircraft propulsion and electricity generation. These applications represent a massive use of energy worldwide, so even a very small increase in efficiency would have a significant beneficial economic and environmental impact. There are many ways to optimize the operation of a gas turbine, but a fundamental approach is to increase the turbine inlet temperature to increase the basic thermodynamic efficiency of the turbine. However, these temperatures are already well above the melting temperature of the components. A primary cooling methodology, called film cooling, creates a blanket of cool air over the surface and is an effective way to help protect these components from the hot mainstream gasses. This paper focuses on the effect of the film holes upstream of the first row of blades in the turbine because this is the section that experiences the highest thermal stresses. Many factors can determine the effectiveness of the film cooling, so a complete understanding can lead to effective results with the minimum flow rate of coolant air. Many studies have been published on the subject of film cooling, but because of the difficulty and expense of simulating turbine realistic conditions, many authors introduce vast simplifications such as low speed conditions or linear cascades. These simplifications do not adequately represent the behavior of a turbine and therefore their results are of limited use. This study attempts to eliminate many of those simplifications. The test rig used in this research is based on the NASA-GE E³ design, which stands for Energy Efficient Engine. It was introduced into the public domain to provide an advanced platform from which open-literature research could be performed.
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Hypersonic Heat Transfer Load Analysis in STAR-CCM+Comstock, Robert 01 December 2020 (has links) (PDF)
This thesis investigates the capabilities of STAR-CCM+, a Computational Fluid Dynamics (CFD) software owned by Siemens, in predicting hypersonic heat transfer loads on forward-facing surfaces. Results show that STAR-CCM+ predicted peak heat transfer loads within +/- 20% of experimental data on the leading edge of a delta wing design from the X-20 Dyna-Soar program with 73o of sweep. Steady-state laminar simulations were run as replications of wind tunnel tests documented in NASA CR-535, a NASA technical report that measured and studied the hypersonic pressure and heat transfer loads on preliminary X- 20 wing designs across a wide range of Reynolds numbers and Mach numbers in different wind tunnel and shock tunnel facilities. One of the Mach 8.08 test cases that was run at NASA Arnold Engineering Development Center Wind Tunnel B was selected as the case of comparison for this thesis, which was designated as test AD462M-1 in the original report. The CFD simulations assumed an ideal gas in laminar flow with temperature-dependent viscosity, thermal conductivity, and isobaric specific heat across an angle of attack range from 0o to 30o. A separate CFD study of heat transfer loads of a hemisphere-cylinder at Mach 6.74 was used as a simpler and less computationally-expensive validation case compared against wind tunnel data from NASA Langley Research Center to help select the appropriate CFD solver and mesh settings for this thesis.
For the hemisphere-cylinder, the heat transfer load at the stagnation point was overpredicted in STAR-CCM+ by 21.8%. Peak heat transfer loads on the delta wing leading edge were all within +/- 20% of the wind tunnel data, which was published for angles of attack between 15o to 30o. A more adverse heat transfer gradient along the leading edge of the delta wing was also observed in the direction from the front of the wing to the outer wing tip when compared to wind tunnel data. The pressure loads on the delta wing leading edge in CFD were within +/-10% of wind tunnel measurements.
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Corneal confocal microscopy detects a reduction in corneal endothelial cells and nerve fibres in patients with acute ischemic strokeKhan, A., Kamran, S., Akhtar, N., Ponirakis, G., Al-Muhannadi, H., Petropoulos, I.N., Al-Fahdawi, Shumoos, Qahwaji, Rami S.R., Sartaj, F., Babu, B., Wadiwala, M.F., Shuaib, A., Mailk, R.A. 26 November 2018 (has links)
Yes / Endothelial dysfunction and damage underlie cerebrovascular disease and ischemic stroke. We
undertook corneal confocal microscopy (CCM) to quantify corneal endothelial cell and nerve
morphology in 146 patients with an acute ischemic stroke and 18 age-matched healthy control
participants. Corneal endothelial cell density was lower (P<0.001) and endothelial cell area (P<0.001)
and perimeter (P<0.001) were higher, whilst corneal nerve fbre density (P<0.001), corneal nerve
branch density (P<0.001) and corneal nerve fbre length (P=0.001) were lower in patients with acute
ischemic stroke compared to controls. Corneal endothelial cell density, cell area and cell perimeter
correlated with corneal nerve fber density (P=0.033, P=0.014, P=0.011) and length (P=0.017,
P=0.013, P=0.008), respectively. Multiple linear regression analysis showed a signifcant independent
association between corneal endothelial cell density, area and perimeter with acute ischemic stroke
and triglycerides. CCM is a rapid non-invasive ophthalmic imaging technique, which could be used to
identify patients at risk of acute ischemic stroke. / Qatar National Research Fund Grant BMRP20038654
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Understanding international efforts to address the humanitarian impacts of cluster munitions, 2003-08.Borrie, John P. January 2012 (has links)
This thesis examines the evolution of international humanitarian concern
culminating in adoption of a Convention on Cluster Munitions (CCM) banning these
weapons in May 2008. It is based on systematic analysis of official documents,
extensive interviews, participant-observation, and several bodies of international
relations (IR) theory.
Part I explains the research methodology and discusses the theoretical context
for the thesis. It is argued that several core assumptions of rationalist-materialist
approaches to IR theory impede understanding of the CCM¿s emergence, and thus the
thesis adopts an interpretivist framework. The four chapters of Part II analyse
international efforts on cluster munitions including prior, failed attempts to restrict
cluster munitions, the emergence of an international campaign from 2003, ensuing
activity involving states, international organisations and civil society, and the CCM¿s
eventual negotiation involving more than 100 states.
Part III marries this empirical account to theoretical analysis of four thesis
propositions. It is concluded that non-state actor-engendered processes of evidence
collection and analysis, learning and frame alignment were central to the Oslo process¿s
emergence. The Oslo Declaration¿s particular humanitarian framing (to ban cluster
munitions causing unacceptable harm to civilians) and the structure of the subsequent
¿define-and-ban¿ discourse permitted convergence between states over prohibiting
these weapons. Nevertheless, they contain implications for other international efforts
aimed at controlling means of armed violence.
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