Global ETD Search

31	Absolute Instabilities in Heated Jets Demange, Simon 30 June 2021 (has links) (PDF) When entering a planet’s atmosphere, spacecraft induce a strong compression shock and must be protected from the resulting extreme heat flux by a thermal protection system made of either reusable or ablative materials. To characterise these materials, the harsh flow conditions of atmospheric entry are reproduced in plasma wind tunnels, where a jet of gas heated up to ionisation is directed at material samples for prolonged testing. Unfortunately, heated jets exhibit complex dynamic behaviours, resulting in oscillations that increase the uncertainties in the experiments.At sufficient Reynolds numbers, the dynamic behaviour of heated jets shifts from an amplifier to a self-sustained oscillator type via a Hopf bifurcation, if the centreline-to-ambient density ratio falls below a given threshold. This change is known in the literature to be related to the onset of absolute instabilities in the flow. However, this type of instability is usually studied for a simplified description of the gas, which is not suitable for the case of a plasma wind tunnel.This doctoral work investigates the nature of the instabilities responsible for the oscillations observed in a plasma jet, similar to the one in the VKI Plasmatron facility. The analysis is carried out by comparing results from different numerical methods, including linear stability analyses (both local and global) and direct numerical simulations. The thesis first describes the effect of high-temperature gas models on the stability of synthetic jets found in the literature, before analysing the case of Plasmatron.The analysis of synthetic jets with real-gas effects shows that the onset of the first dissociation reactions in the flow has a strong influence on the prevailing type of instability. Furthermore, if a sufficiently long region of absolute instability is present in the jet, the flow bifurcates to a periodic limit cycle, and steady state solutions become inadequate to describe the flow and its dynamic behaviour. In this case, a stability analysis of the time-averaged state can accurately reproduce the results of direct numerical simulations. In the case of Plasmatron, a large region of absolute instability is revealed in the plasma jet, suggesting that the observed oscillations are caused (in part) by a global non-linear mode and that the flow has entered a limit cycle. Trends of the absolute instability frequency with respect to the driving parameters of Plasmatron are in agreement with experimental observations.The present work confirms that global stability features of heated jet flows are very sensitive to subtle changes of the undisturbed or time-averaged state, which results from technological constraints in the case of Plasmatron. Furthermore, this thesis has shown the relevance of including high-temperature gas effects in the stability analysis of high-enthalpy jets. / Doctorat en Sciences de l'ingénieur et technologie / info:eu-repo/semantics/nonPublished Mécanique des fluides Analyse numérique Technologie aéronautique Thermophysique absolute instabilities heated jet plasma jet global instability
32	Přizpůsobení ohřívatelného tribometrického nástroje pro sériové zkoušky / Adaptation of heatable tribometric tool for series testing Růžička, Jakub January 2013 (has links) This Paper deals with a design of tribometer for pin-on-disc and disc-on-disc tests. The purpose of these tests is Investigation of friction coefficient during hot forming. The main emphases of this paper are tool heating and quick tool change. The conductive sample heating is analyzed with FEM software Ansys and the results of this snalysis are taken into design consideration. Existing pin mounting design is considered as satisfying. Various disc mounting concepts are compared. The best solution - specimen mounting by an inside clamping cone with integrated specimen ejector was manufactured (heating excluding) and successfully tested.
33	Návrh temperovaného stolu pro FDM 3D tiskárnu s využitím simulace MKP / Design of heated print bed for FDM 3D printer with FEM simulation Bartoš, Radko January 2014 (has links) Master´s thesis deals with desing of a heated bed for FDM 3D printer using the finite element method. It is briefly described the history of RepRap printers, construction and mechanical parts. Are discussed two methods of heating, heated by PCB boards and using power resistors. Furthermore is work closely focused on power resistors. There are presented methods and procedures which leads to an optimal distribution of heated components on the board of heated bed. In conclusion are presented results of testing which are compared with the simulations in ANSYS.
34	Návrh vyhřívaného atypického stolu pro 3D tiskárnu / Design of atypical heated bed for 3D printer Strnad, Jan January 2016 (has links) This diploma thesis deals with an atypical heated bed for FDM 3D printer. It presents the most commonly used ways of heating and the chosen variant of the heated beds are realized by powerful resistors. There are also discussed three ways of placement of resistors on the desktop motherboards that are modeled in Autodesk Inventor Professional 2016 and exported to Autodesk Fusion 360, where FEM calculations are made. Optimal alternative is made and tested. The test results are compared with the results of thermal simulations in Autodesk Fusion 360.
35	Mapování vzorců užívání zahřívaných tabákových výrobků IQOS a GLO: online dotazníková studie / Mapping patterns of IQOS and GLO heated tobacco products usage: an online questionnaire study Dobrovolná, Kristýna January 2020 (has links) Background: In recent years, novel heated tobacco products such as IQOS or glo, which began to appear on the Czech market about three years ago, gained popularity. The device is visually appealing in which, unlike regular cigarettes, tobacco is not burned but heated to a temperature of 350 řC. There are several foreign studies on how these tobacco heating products are used, but there is a lack of data on this phenomenon in Czech Republic. Aims: The main aim of this study was to describe patterns of use of heated tobacco products among adult tobacco users in the Czech Republic. Partial aims of the study were to find out what are the motives for using heating tobacco products, what is the nature of use, i.e. the time of use, daily consumption of fillings, and if there is any change in habits of ordinary smoking. Furthermore, the aim was to map in which situations heated tobacco products are used and how the users take care of the equipment. Material and Methods: Data collection was carried out using a quantitative method of improbability selection, namely the method of self-selection through an online questionnaire distributed through selected online channels (websites, forums, social networks). The research group consists of 198 respondents, of whom 182 are IQOS users and 16 are glo users. After...
36	In Situ Induction Heating of Electrodes and Applications Rahman, Mohammad Azizur 10 August 2018 (has links) This thesis describes the fabrication of an induction heating apparatus and its use to directly heat small platinum and gold electrodes in electrolyte solution. The heating characteristics of the electrodes were studied via the entropic shift of redox potential with temperature and change in Faradaic current. Temperature pulse voltammetry (TPV) and cyclic voltammetry were used for temperature calibration under various heating conditions. The maximum temperature reached at a 0.25 mm diam platinum electrode surface in solution was 84 degrees C. At heated electrodes an increase in current was found to be due to convection and diffusion. TPV was performed with inductively heated gold (0.5 mm diam) and platinum electrodes, which gave complete current-potential-temperature information. Induction heated Pt electrodes were employed to investigate the kinetics and mass transfer process of oxygen reduction reaction (ORR) in acidic and alkaline media. oxygen reduction reaction (ORR) cyclic voltammetry Temperature pulse voltammetry (TPV)
37	Evaluation of Novel Construction Technologies and Materials for Roadway Unpaved Shoulders Al khasawneh, Mohammad 22 October 2020 (has links) No description available. Civil Engineering Berm Shoulder Emulsified RAP mix Recycled heated RAP mix Erosion Unpaved shoulder
38	The Transient Behavior of an Ethane Dehydrogenation Furnace Li, Mou-Ching 09 1900 (has links) This report deals with the mathematical model of the transient behaviour of an existing ethane dehydrogenation furnace which is composed of two main sections: a preheating convection section and a radiant-heated section. The correlation of pressure drop with time has been found from the available data. The fractional carbon deposition and the multiplier coefficient of a pressure drop equation have been determined by the direct search optimization technique of Hooke and Jeeves. An optimal policy for the cyclic operation of the furnace was determined by considering plant temperature profile and hydrocarbon/ steam ration as parameters for maximizing average ethylene produced per day. The effect of temperature profile on the distribution of carbon deposited along the reactor was also predicted and discussed. / Thesis / Master of Engineering (ME) ethane dehydrogenation furnace preheating convection radiant-heated pressure drop fractional carbon deposition furnace
39	DNA recovery potential in simulated fire debris evidence Galijasevic, Alissa Adrienne 31 January 2023 (has links) It is not uncommon for criminals to start a fire at a crime scene to conceal evidence of the initial crime. The rationale for this can be attributed to the belief that a fire will destroy all physical evidence. It has been shown in previous research that physical evidence in the form of ignitable liquid residues, fingerprints and even DNA (deoxyribonucleic acid) evidence can still be recovered from the scene of a fire. However, testing of fire debris evidence for multiple forms of evidence has no universally accepted protocol or order of testing. The purpose of this study is two-fold. DNA recovered from simulated fire debris evidence exposed to various ignitable liquids and burn conditions was compared to determine under what scene conditions it could be feasible to recover DNA evidence and generate usable profiles. Additionally, DNA recovered from samples subjected to different time and temperature conditions of heated passive headspace concentration (HPHC) were compared to determine if it was advisable to perform HPHC in an attempt to recover volatile ignitable liquid evidence prior to testing for DNA. The HPHC overall had no significant effect on the degradation or recovered quantities of DNA, and, under the conditions tested, this would not preclude testing for ignitable liquids prior to testing for DNA. The presence of ignitable liquids did not affect the ability to recover DNA or result in degraded DNA, while burning samples prevented DNA from being recovered in all but a few samples, primarily semen samples. Molecular biology DNA Fire debris Forensic science Forensics Heated passive headspace concentration Ignitable liquids
40	Oscillatory natural convection of a liquid metal enclosed in a right circular cylinder heated from below Platt, Jonathan Andrew January 1991 (has links) No description available. Engineering, Mechanical Oscillatory natural convection liquid metal enclosed right circular cylinder heated

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