Global ETD Search

231	Delsbo Electric: Lättkonstruktion av spårfordon : Design och dimensionering av säten och skyddskåpor till axlar Sellberg, Erik January 2021 (has links) Delsbo Electric är en tävling med målet att transportera 1–6 passagerare 3.36 km i ett elektriskt drivet rälsfordon med minimal energianvändning. För att minimera energianvändningen kommer majoriteten av fordonets struktur att tillverkas av lättviktiga kompositmaterial. Den här rapporten, en delrapport av en större undersökning, tar upp designen, dimensioneringen, konstruktionen och monteringen av fordonets säten och skyddskåpor för axlarna. Kravspecifikationer, lastfall och modeller har tagits fram för komponenterna för att minimera vikten och material har undersökts baserat på vikt, hållfasthet och tillgänglighet. Resultatet är 6st. säten tillverkade i kolfiberkomposit bestående av T700S kolfiber och DION 9100-M800 vinylester epoxi för en totalvikt på 15 kg. Sätena fästs i fordonets bottenplatta med epoxilim Araldite AV 138M-1. Skyddskåporna för axlarna är också tillverkade i samma komposit av T700S kolfiber och DION 9100-M800 vinylester epoxi för en totalvikt på 1.9 kg och fästs i bottenplattan via skruvförband. Mechanical Engineering Maskinteknik Vehicle Engineering Farkostteknik
232	Vehicle dynamic analysis of wheel loaders with suspended axles Rehnberg, Adam January 2008 (has links) The wheel loader is a type of engineering vehicle used primarily to move crude material over shorter distances. As the vehicle is designed without wheel suspension, wheel loader drivers are exposed to high levels of whole body vibration which influences ride comfort negatively. The work presented in this thesis has the aim to investigate the potential in adding an axle suspension to a wheel loader in order to reduce vibrations and increase handling quality. While suspended axles have great potential for improving ride comfort and performance, they will also necessarily affect the vehicle dynamic behaviour which is different in many aspects from that of passenger cars or other road vehicles: the wheel loader has a large pitch inertia compared to its mass, the axle loads vary considerably with loading condition, and the vehicle uses an articulated frame steering system rather than wheel steering. These issues must all be considered in the design process for a wheel loader suspension. The effects of suspended axles on ride vibrations are analysed by simulating a multibody wheel loader model with and without axle suspension. Results from the simulations show that longitudinal and vertical acceleration levels are greatly reduced with axle suspension, but that the decrease in lateral acceleration is smaller. By reducing the roll stiffness lateral accelerations can be further reduced, although this may not be feasible because of requirements on handling stability. The pitching oscillation of the vehicle has also been studied as this is known to have a large influence on ride comfort. An analytical model is used to study the effect of front and rear suspension characteristics on the pitching response of the wheel loader, showing that a stiffer rear suspension is favourable for reducing pitching but also that a similar effect is attainable with a stiffer front suspension. Results are compared to multibody simulations which show the same trend as analytical predictions. By including a linearised representation of a hydropneumatic suspension in the models, it is also shown that favourable dynamic behaviour can be maintained when the vehicle is loaded by utilising the fact that suspension stiffness is increasing with axle load. Articulated vehicles may exhibit lateral oscillations known as "snaking" when driven at high speed. The effect of suspended axles on these oscillations are analysed using a multibody simulation model of a wheel loader with an equivalent roll stiffness suspension model. It is found that the roll motion of the sprung mass has a slightly destabilising effect on the snaking oscillations. This effect is more pronounced if the body roll frequency is close to the frequency of the snaking motion, although this loss in stability can be compensated for by increasing the equivalent stiffness or damping of the steering system. Together with existing vehicle dynamic theory and design rules, the studies reported in this work provide an insight into the specific issues related to suspension design for wheel loaders. / QC 20101119 hjullastare arbetsmaskin fordonsdynamik fordonsteknik Vehicle Engineering Farkostteknik
233	Modeling of Fuel Consumption in an Unmanned Aerial Vehicle : Estimation of Fuel Consumption to Determine Endurance and Range Patterson, Dylan, Johansson, Filip January 2024 (has links) This thesis explores the development of robust models for estimating fuel consumption in Unmanned Aerial Vehicles (UAVs), specifically focusing on the Skeldar V-200 Vertical Take-off and Landing (VTOL) system. The primary objective is to enhance mission planning and operational efficiency by accurately predicting Time to Empty (TTE) and Distance to Empty (DTE). Two main modeling approaches are employed: physics-based modeling, which leverages fundamental principles of vehicle dynamics and aerodynamics, and system identification modeling, which utilizes historical data to predict future performance. The results present a robust, physics-based model that predicts TTE and DTE, regardless of operating conditions, alongside a system identification model that quickly and accurately models the fuel consumption of the UAV under normal operating conditions. This research contributes to the field by providing a detailed analysis of model efficacy and practical application, suggesting pathways for future enhancements, and setting a foundation for more sophisticated predictive models that could significantly optimize autonomous UAV operations. Vehicle Engineering Farkostteknik Control Engineering Reglerteknik
234	Optimal Combustion Engine Control Using MPC : A Collection Of Mean Value Engine Modeling, Parametrization And Model Predictive Control / Optimal Förbränningsmotorstyrning Med MPC : En Samling Med Motormodeller, Parametersättning Och Predektiv Modellstyrning Asklund, Karl, Ling, Martin January 2024 (has links) In the pursuit of reducing fuel consumption and meeting stringent emission regulations,controlling the air charge in heavy-duty vehicle combustion engines is critical. Instead ofthe traditional way of controlling an engine, which means using separate feed-forward andfeedback, this study explores the usage of a Nonlinear Model Predictive Control (NMPC). Anengine model, describing a physical engine, has been constructed and parameterized withdata from the engine manufacturer. Sub models were parameterized using the least squaremethods. With complete model parametrization, this report shows results of the minimizingof a cost-function that optimizes parameter values according to model-faults. Two solvers were used and compared for a simplified example, controlling a throttle.Both leading to similar results. One of the solvers were further used to control the completeengine model. The objective was to achieve a desired combustion, minimize losses andthereby reducing emissions. The NMPC was simulated in two different drive cycles. The results showed that a satisfactory engine model has to be used in the controller toachieve optimal control. Several results show that this method of controlling an engine canbe beneficial. / <p>B-huset, Plan 3</p> Engine Model MPC Diesel Vehicle Engineering Farkostteknik
235	A350 Main Landing Gear Door Hinges optimisation of mass gain and validation of mechanical bahavior / Optimering av gångjärn till huvudlandställslucka på A350 Segretin, Christophe January 2023 (has links) The project was part of Airbus' drive to reduce the weight of the parts making up the Hinge 2 in the Keel Beam section of the A350 XWB-1000 by 15 kg. Although optimisation only led to a weight reduction of 4.5 kg, it was still decided to carry out a derisking study of the Hinge. To do this, the parts making up the Hinge had to be modelled in 2D and 3D finite elements using Hyperworks and according to the necessary meshing rules. This new mesh then had to be integrated into an overall mesh of the entire section of the Keel Beam. After recovering the critical safety margins and their loads from the certification files, it was necessary to run these loads on the new model in order to extract the dimensioning forces. These loads were then used to carry out the priority static studies using Hyperworks, Excel and Isami. Nine studies were carried out to ensure that the new geometry of the Hinge would hold up well. In the end, despite constraints such as the absence of contacts in the model studied, no safety margin fell below 1, which validates the static strength of the new Hinge. Finally, this project was very instructive, both personally and professionally, leading to become nearly completely autonomous as a calculation engineer. / Projektet var en del i Airbus strävan att minska vikten på gångjärnsdelar i en kölbalkssektion på A350 XWB-1000 med 15 kg. Även om endast 4,5 kg kunde reduceras i slutändan, genom optimering, beslutades det att genomföra en analys av gångjärnet för riskminimering. För detta modellerades de delar som utgör gångjärnet med 2D och 3D finita element i Hyperworks, under iakttagande av gällande rekommendationer för meshning. Beräkningsnätet behövde sedan integreras i ett övergripande nät för hela sektionen av kölbalken. Efter att ha hämtat de kritiska säkerhetsmarginalerna och deras belastningar från certifieringsfiler var det nödvändigt att analysera dessa belastningar i den nya modellen för att få fram de dimensionerande krafterna. Dessa laster användes sedan för att utföra de prioriterade statiska studierna med hjälp av Hyperworks, Excel och Isami. Nio studier utfördes för att säkerställa att gångjärnets nya geometri skulle uppfylla kraven. Analysen validerade den statiska styrkan hos det nya gångjärnetI, med reservation för begränsningar såsom avsaknaden av kontaktmodellering i den använda modellen. Ingen säkerhetsfaktor överskreds. Projektet var mycket lärorikt, både på det personliga och yrkesmässiga planet, till den punkt där jag blev praktiskt taget självständig som beräkningsingenjör. Solid Mechanics Hållfasthetslära Vehicle Engineering Farkostteknik
236	Digital konstruktion samt verifiering av hjulupphängning till JU Solar Team´s solbil 2019 / Digital construction and verification of wheel suspension for JU Solar Team´s solar car 2019 Svensson, Marcus, Gränsmark, Arvid January 2019 (has links) There is a need to improve the JU Solar Team's new solar cell powered electric car's driving capabilities for the Bridgestone World Solar Challenge 2019. Partly to improve the car's safety and the ability to meet the competition requirements, but also to minimize effects that contribute to increased rolling resistance. The work is carried out at Jönköping Institute of Technology with support from ÅF Automotive in Trollhättan. The work aims to parameterize driving characteristics with engineering requirements, evaluate how the rolling resistance can be minimized, how negative driving characteristics can be minimized and a weight comparison with wheel suspension from 2017. This is the basis for the construction of the 2019 wheel suspension adapted for new body designed and manufactured in parallel with this work. The study includes performed measurements of the side force impact on steering angle change and camber change, calculation of load case, concept generation and evaluation, computer-aided strength evaluations. The results of the survey show great weaknesses in the 2017 solar car. In the case of an applied side force in the front wheel, a large wheel angle change occurs. This is largely due to under-dimensioned steering arms and the geometric design of the points. The influence of the side force on the steering angle has theoretically been reduced by at least 44% verified in CAD environment. In addition to this improvement, the entire wheel suspension system's attachments and sub-components are stiffer, which should contribute to an even greater improvement. The study also shows that the steering angle was insufficient to meet the competition requirements, which could be improved by 21.2% greater steering angle on the wheels. The spring and damper's operating ratio in comparison with the wheel has also been evaluated and has been able to be increased from 31% to 51.5%. This leads to reduced forces on the link arms and body by 20.5% during the same external load case. The study is limited to evaluating the hard points of the wheel suspension as well as the strength and design of the link arms, steering arm, suspension and damping attachment. JU Solar Team Solar Car Wheel suspension Vehicle Engineering Farkostteknik
237	Kylvattenbehandling : En studie av olika korrosionsskydd för kylvattensystem till marina dieselmotorer / Cooling water tretment Wewel, Jonathan, Tranvik, Anton January 2019 (has links) Kylvatten används för att kyla framdrivningsmaskineri och övrig utrustning med kylbehov ombord på fartyg. För att förhindra rost i den utrustning som skall kylas, måste kylvattnet behandlas. Som rostskydd används idag kemikalier. I samband med byte av kylvattnet, hamnar dessa kemikalier ofta i havet, vilket leder till negativ miljöpåverkan. I detta examensarbete har möjligheten att använda kemikaliefri vattenbehandling istället för kemikalier som rostskydd i system med vattenburen värmeöverföring undersökts. Kontakt med olika företag och en intervju med personal på ett fartyg med installerad elektromagnetisk vattenbehandlingsutrustning har gett information för undersökningen. Vi har också gjort egna mätningar på vatten i värmesystem med avjoniseringsutrustning och på tekniskt vatten behandlat med kemikalier. Mätningarna har använts för att undersöka hur vattnet påverkas av dessa behandlingsmetoder. Denna undersökning har inte resulterat i något entydigt svar på om kemikaliefri vattenbehandling kan ersätta kemikalier i kylvattnet till ett fartygs framdrivningsmaskineri, men visat att det är ett möjligt alternativ för mindre slutna system. Tekniskt vatten Kylvatten Elektromagnetisk vattenbehandling Korrosionsskydd Kylvattenkemikalier Vehicle Engineering Farkostteknik
238	Westhelicopter AB Aircraft Technical Status Report Ibranovic, Albin January 2009 (has links) <p>Westhelicopter INC. has an aviation workshop providing qualified helicopter maintenance in accordance with PART-145. Maintenance and administrative base is situated in Luleå at Kallax airport. <strong>The types that Westhelicopter INC are currently authorised to service are: </strong>Eurocopter AS 350 Base/Line Maintenance, Eurocopter EC 120 Base/Line Maintenance and Robinsson R44 Base/Line Maintenance.</p><p> </p><p>The thesis work has been to make new maintenance programme for Westhelicopter INC. This maintenance programme will be used to follow-up the time of the components, service bulletins and ADs. Existing materials, as maintenance manuals and interviews with technical staff, was used to make more efficient maintenances programme. Work will be applied to all helicopters that Westhelicopter AB supplies.</p> Helikopter underhåll service bulletin airworthiness directive Vehicle engineering Farkostteknik
239	Road Roughness Etimation Using Available Vehicle Sensors Lundström, Johan January 2009 (has links) <p>Road conditions affect fuel efficiency and vehicle fatigue when driving heavy trucks. Information about traveled road conditions enable optimization of chassis configuration when driving, and logging of vehicle stress. Previous work on this topic focus mainly on tuning of active suspension parameters in the car industry. One conceivable application for heavy trucks is implementation of active chassis level control based on road conditions, with possible improvements in driving economy as result. Another is logging of usage conditions which helps explain vehicle faults caused by abnormal wear. This work examines the possibilities to use already on vehicle sensors for road roughness estimation. It also investigates what requirements existing signals must fulfill to ensure reliable estimates. Two methods for road roughness estimation are proposed using rear axle level sensor and a simple linear suspension system model.</p> Heavy truck Road Roughness Vehicle engineering Farkostteknik Signal processing Signalbehandling
240	Optimal control of a diesel engine with EGR and VGT Welander, Markus, Olsson, Jonas January 2006 (has links) <p>To fulfill todays requirements on emissions from engines, SCANIA has developed an engine with EGR (Exhaust Gas Recirculation) and VGT (Variable Geometry Turbine). This gives two extra control signals to take into consideration. Open loop optimal control is used to investigate how these two actuators should be controlled to minimize emissions and fuel consumption. A cost function, consisting of the errors between the most important variables and their set points, has been used in the minimization. The variables are the torque, the EGR mass fraction, the oxygen/fuel ratio and the pumping losses.</p><p>From studies of the two control signals in different transients in the engine, information of how to control the VGT and EGR in the optimal way is found. The result from the optimal control has been compared with a PID simulation and has showed a better way to control the signals. The mayor reason why the optimal control is better than a PID controller is the ability to use future values from the transients.</p> TOMOC Matlab PID controller fmincon Vehicle engineering Farkostteknik

Search results