Global ETD Search

91	Detection and Pattern Recognition of Partial Discharge in Electric Machine Coils with Pulsed Voltage Excitation Xiong, Han 11 July 2019 (has links) No description available. Electrical Engineering
92	Partial Discharge Characteristics under Square-wave Voltage Pulses with Ultra-short Rise Times under Various Pressures Wei, Zhuo 24 August 2022 (has links) No description available. Electrical Engineering
93	Implementation Strategies For Real-time Traffic Safety Improvements On Urban Freeways Dilmore, Jeremy Harvey 01 January 2005 (has links) This research evaluates Intelligent Transportation System (ITS) implementation strategies to improve the safety of a freeway once a potential of a crash is detected. Among these strategies are Variable Speed Limit (VSL) and ramp metering. VSL are ITS devices that are commonly used to calm traffic in an attempt to relieve congestion and enhance throughput. With proper use, VSL can be more cost effective than adding more lanes. In addition to maximizing the capacity of a roadway, a different aspect of VSL can be realized by the potential of improving traffic safety. Through the use of multiple microscopic traffic simulations, best practices can be determined, and a final recommendation can be made. Ramp metering is a method to control the amount of traffic flow entering from on-ramps to achieve a better efficiency of the freeway. It can also have a potential benefit in improving the safety of the freeway. This thesis pursues the goal of a best-case implementation of VSL. Two loading scenarios, a fully loaded case (90% of ramp maximums) and an off-peak loading case (60% of ramp maximums), at multiple stations with multiple implementation methods are strategically attempted until a best-case implementation is found. The final recommendation for the off-peak loading is a 15 mph speed reduction for 2 miles upstream and a 15 mph increase in speed for the 2 miles downstream of the detector that shows a high crash potential. The speed change is to be implemented in 5 mph increments every 10 minutes. The recommended case is found to reduce relative crash potential from .065 to -.292, as measured by a high-speed crash prediction algorithm (Abdel-Aty et al. 2005). A possibility of crash migration to downstream and upstream locations was observed, however, the safety and efficiency benefits far outweigh the crash migration potential. No final recommendation is made for the use of VSL in the fully loaded case (low-speed case); however, ramp metering indicated a promising potential for safety improvement. VSL Variable Speed Limits Crash Prediction Safety Crash Migration Ramp Metering ITS Intelligent Transportation Systems I-4 Civil Engineering Engineering
94	Analysis of Electric Disturbances from the Static Frequency Converter of a Pumped Storage Station Rosado, Sebastian Pedro 12 August 2001 (has links) The present work studies the disturbances created in the electric system of a pumped storage power plant, which is an hydraulic generation facility where the machines can work as turbines or pumps, by the operation of a static frequency converter (SFC). The SFC is used for starting the synchronous machines at the station when in the pump mode. During the starting process several equipment is connected to the SFC being possible to get affected by the disturbances generated. These disturbances mainly include the creation of transient overvoltages during the commutation of the semiconductor devices of the SFC and the introduction of harmonics in the network currents and voltages. This work analyzes the possible effects of the SFC operation over the station equipment based on computer simulations. For this purpose, the complete system was modeled and the starting process simulated in a computer transient simulator program. The work begins with a general review of the effects of electric disturbances over high voltage equipment and in particular of the disturbances generated by power electronics conversion equipment. Then the models for the different kind of equipment present in the system are discussed and formulated. The control system that governs the operation of the SFC during the starting process is analyzed later as well as the operation conditions. Once the model of the system is set up, the harmonic analysis of the electric network is done by frequency domain and time domain methods. Time domain methods are also employed for the analysis of the commutation transient produced by the SFC operation. Finally, the simulation results are used to evaluate the impact of the SFC operation on the station equipment, especially on the generator step up transformer. / Master of Science power system modeling variable speed drives frequency conversion power transformers synchronous machines power system harmonics power system transients power quality
95	Novel Multilevel Converter for Variable-Speed Medium Voltage Switched Reluctance Motor Drives Shehada, Ahmed 31 March 2017 (has links) A novel multilevel converter that is especially suited for high speed multi-megawatt switched reluctance motor drives operating at the medium voltage level is presented. The drive is capable of variable speed, four-quadrant operation. Each phase leg of the converter contains an arbitrary number of cascaded cells connected in series with the phase winding. Each cell contains a half-bridge chopper connected to a capacitor. The converter is named the cascaded chopper cell converter. The modular nature of the converter with the ability to add redundant cells makes it very reliable, which is a key requirement for medium voltage drive applications. A comprehensive control algorithm that overcomes the challenges of balancing and controlling cell capacitor voltages is also proposed. A suitable startup algorithm to limit startup current and switching losses, as well as ensure that cell capacitor voltages remain controlled at startup, is suggested. Details of the drive design such as component sizing and control parameter selection are also discussed. A detailed simulation model is developed and explained, and simulation results are provided for primary validation. Operation with standard current and speed control is first simulated. Then a scheme that gives way to a controller that operates the drive in single-pulse mode is developed and presented. This single-pulse control scheme controls the turn-on and turn-off angles, as well as the energization voltage level, in order to obtain high efficiency. Practical considerations related to the drive such as reliability, efficiency, and cost considerations are also discussed. Finally, a detailed comparison of the proposed converter to another competing converter is performed. Besides its scalability to high voltages and powers, the reliability and efficiency of the proposed converter makes it also a candidate for sub-megawatt applications requiring minimum downtime, or any application where high efficiency or improved performance is required. A small part of this work is also dedicated to brushless dc machines. Control methods for a new converter for brushless dc machines are proposed and verified via simulation. The main advantage of this converter with the proposed control is that it allows exact control of torque or speed up to twice the rated speed, without resorting to current phase advancing or other flux-weakening techniques. / Ph. D. Switched reluctance motor power converter variable speed drives multilevel converter multi-megawatt applications single-pulse control brushless dc motor
96	Variable speed constant frequency power conversion with permanent magnet synchronous and switched reluctance generators Rim, Geun-hie 20 October 2005 (has links) Power electronics is inevitably concerned with the processing of variable speed power generations such as in wind turbines, aircraft systems and naval on-board ship systems. The nature of these types of energy is distinct in that their frequency and power vary depending on the speed of the prime-mover. To make use of the variable speed energy, a power processing scheme which transforms the variable speed energy into a constant frequency power is required. There are measures such as mechanical and electrical links for such purposes. Electrical link systems are chosen in this study due to their fast responses and high reliabilities. The power conversion stage may be a dc link with a line-commutated converter, a dc link with a self-commutated inverter, or a cycloconverter. The line-commutated converter and cycloconverter power stages require a fixed frequency supply for operation whereas the self-commutated inverter is capable of stand-alone operation, thus making it attractive. Two cases of variable speed power generation using a permanent magnet synchronous machine (hereafter referred to as PMSM) and a switched reluctance machine (hereafter referred to as SRM) were studied in this dissertation. The possible use of PMSMs has been proved by the good correlation between the experimental results and the theoretically predicted results. Three different control strategies have been proposed, implemented in hardware, and experimentally verified. The efficiency of the VSCF power conversion with a self commutated converter were comparable to the one using a line-commutated converter. A novel converter topology with no dc link capacitor has been proposed for the application of SRMs to the VSCF power conversion. The proposed topology directly links the constant frequency ac source to the SRM. This feature enhances the reliability of the power conversion scheme and reduces the weight and volume of the system. The correlation between the theoretical and experimental results of some key issues showed the feasibility of the proposed VSCF power conversion scheme. In the course of the study, one stage ac to dc power conversion with a compact transformer was required for dc loads. However, phase-controlled ac to dc conversion has the disadvantages of low power factor and harmonic pollution on the utility side, particularly in the case where dc voltage regulation is required. Therefore, a novel single phase rectifier for dc load which provides ohmic isolation with a high frequency transformer is extensively investigated. The proposed scheme had a wide output variation on dc output while maintaining unity power factor and sinusoidal current in the ac input side. Three control strategies for the operation of the converter were proposed and verified experimentally. The harmonic spectra on ac and dc sides are analytically derived and experimentally proved under some load conditions. / Ph. D. LD5655.V856 1992.R55 Digital-to-analog converters Pulse-duration modulation Switching theory -- Mathematical models Variable speed drives
97	Safety Evaluation of Active Traffic Management Strategies on Freeways by Short-Term Crash Prediction Models Hasan, Md Tarek 01 January 2023 (has links) (PDF) Traditional crash frequency prediction models cannot capture the temporal effects of traffic characteristics due to the high level of data aggregation. Also, this approach is less suitable to address the crash risk for active traffic management strategies that typically operate for short-time intervals. Hence, this research proposes short-term crash prediction models for traffic management strategies such as Variable Speed Limit (VSL)/Variable Advisory Speed (VAS), and Part-time Shoulder Use (PTSU). By using high-resolution traffic detectors and VSL/VAS operational data, short-term Safety Performance Functions (SPFs) are estimated at weekday hourly and peak period aggregation levels. The results indicate that the short-term SPFs could capture various crash contributing factors and safety aspects of VSL/VAS more effectively than the traditional highly aggregated Average Annual Daily Traffic (AADT)-based approach. The study also investigates the safety effectiveness of VSL/VAS for different types and severity levels of traffic crashes. The results specify that the VSL/VAS system is effective in reducing rear-end crashes in the Multivariate Poisson Lognormal (MVPLN) crash type model as well as Property Damage Only (PDO) and C (non-incapacitating) crashes in the MVPLN crash severity model. Recommendations include deploying the VSL/VAS system combined with other traffic management strategies, strong enforcement policies, and drivers' compliance to increase the effectiveness of this strategy. Further, this research estimates the Random Parameters Negative Binomial-Lindley (RPNB-L) model for PTSU sections and provides valuable insights on potential crash contributing factors related to PTSU operation, design elements, and high-risk areas. Last, the study proposes a novel integrated crash prediction approach for freeway sections with combined traffic management strategies. By incorporating historical safety conditions from SPFs, real-time crash prediction performance could be improved as a part of proactive traffic management systems. The findings could assist transportation agencies, policymakers, and practitioners in taking appropriate countermeasures for preventing and reducing crash occurrence by incorporating safety aspects while implementing traffic management strategies on freeways. Active Traffic Management (ATM) Safety Performance Functions (SPFs) Variable Speed Limit (VSL) Part-time Shoulder Use (PTSU) Crash Prediction Models
98	Modelling of Traffic Performance for Swedish Roads and Motorways Strömgren, Per January 2016 (has links) This thesis consists of five scientific articles oriented towards capacity. Managing capacity constraints with associated delays is a big issue at new design as well as at trimming existing traffic facilities. In larger Swedish cities these challenges have become more and more important as a result of growing traffic demand due to rapid population increase.Models for estimating capacity and delay are available, but not many are calibrated for Swedish conditions due to the high effort required. This thesis documents development and calibration of new models for motorway links, entry and exit lanes and weaving areas and an developed space-time model with the ability to calculate queue length, delay, etc.The first article is focused on identifying weaknesses in the former Swedish capacity method for motorways, and development of new models overcoming these shortcomings. The development includes new models for jam density at queue, capacity in weaving areas and fundamental flow-density relationships for 15 different highway types for inclusion in the new Swedish capacity manual.The second article describes the development of a Swedish motorway space-time model to estimate travel times and queues in oversaturated conditions based on the American FREEVAL model in Highway Capacity Manual 2010 (HCM 2010). Calibration and validation of the model has been performed with data from the Motorway Control System (MCS) in Stockholm. A good correspondence was obtained for most cases, but further calibration and validation efforts are required for entry and exit lanes.The third article describes further development of the intersection model in the Swedish microscopic model “Rural Traffic Simulator (RuTSim). This is a continuation of the work documented in the author’s licentiate thesis published in 2002. The development focused on simulation of intersections using a new concept on lane use not included in the old RuTSim model. The model describes Swedish rural intersections with flared approaches providing a non-discreet lane use due to vehicle types in queue. New data for calibration and validation data was also generated. The validation results showed good correspondence between simulated and empirical delay results. The new intersection model is now implemented in RuTSim, providing new tools for estimation of capacity, delay and queue length already included in Swedish guidelines and capacity manuals/software (Capcal).The fourth article describes the development of a new capacity model for roadwork zones. Focus is on the resulting capacity of one lane due to several reduction factors. These factors include impacts of closed road shoulders, reduction of number of lanes, diversion of traffic to the opposite carriageway, commuting traffic, length of work zone, lane width and type of road work. The first two correction factors were successfully validated in a full-scale test on the E6 motorway in Gothenburg.The fifth article describes development and implementation of a new harmonization algorithm for MCS systems on motorways designed to increase bottleneck capacity and throughput. Two different models were developed, one of which was implemented in the existing MCS system on E4 Södertäljevägen south of Stockholm. Full-scale trials were carried out with a model based on trigger levels in terms of flow. The second model based on the difference in the variance of speed during two following time periods was tested offline also with very good results. / <p>QC 20160429</p> Rural highway Intersection Capacity Critical gap Flare Micro simulation Motorway Ramp Weaving Merging Queue Delay Over-saturated Time-space Roadwork zone variable speed limit harmonization
99	Élaboration d'un système de suivi de l'endommagement de composants mécaniques fonctionnant en régime variable et à très basse vitesse : Application au diagnostic sur roulements / Development of a surveillance system for very low and variable speed machines’ mechanical components : An application for bearing diagnosis Moustafa, Wael 09 June 2016 (has links) Dans la majorité des secteurs industriels, les coûts de maintenance des systèmes de production représentent une partie non négligeable de l’ensemble de ces coûts. Pour améliorer les performances et la fiabilité des systèmes, différentes stratégies de maintenance sont utilisées. L’objectif est d’être capable de détecter toutes défaillances potentielles susceptibles d’affecter la production. L’analyse vibratoire est aujourd’hui un des outils les plus performants en termes de détection et de suivi de ces défaillances. Cependant, l’application de cette technique reste difficile dans le cas de machines fonctionnant avec des vitesses de rotation faibles et variables. Dans la présente thèse, nous proposons une technique alternative à l’analyse vibratoire pour surveiller l’état de fonctionnement de ces machines. Nous nous intéresserons plus particulièrement au suivi des roulements. Cette technique alternative se base sur l’analyse des variations de la vitesse angulaire instantanée qui sont générées par un défaut de roulement. Cette technique sera testée sur un banc d’essai et comparée avec d’autres techniques telles que l’analyse des signaux vibratoires et ultrasonores pour différentes conditions de chargement et pour différents types de défauts de roulement. Cette étude montre une grande efficacité de cette méthode dans le cas de très basses vitesses de rotation, constantes ou variables. L’ensemble de cette méthodologie a ensuite été implémentée sur un four de diffusion d’une unité de production sucrière. Les mesures réalisées montrent que cette technique est une technique prometteuse pour le suivi de systèmes fonctionnant avec des vitesses de rotation faibles et variables. / In the majority of industrial sectors, production systems’ maintenance costs represent an important part of the whole process’s cost. In order to improve systems’ reliability and performance, different maintenance strategies are used. The goal is to be able to detect all potential malfunction that may affect the production. Nowadays, vibration analysis is one of the best tools in term of detection and defect monitoring. However, the application of these vibration based techniques remain difficult in the case of machines functioning at low speeds. In this thesis, we propose an alternative technique of vibration analysis for the surveillance of these machines that operate on very low speeds and variable speeds. We are specifically interested in bearings’ monitoring. This alternative technique is based on instantaneous angular speed’s variations analysis that are induced by a bearing defect. This technique is tested on a test bench and compared with other techniques such as vibration and ultrasound analysis for different loading conditions and for different bearing fault types. This study shows a high efficiency of this method in the case of very low speeds, constant and variable. This methodology has then been implemented on sugar diffusion oven in a sugar production factory. The measurements shows that this technique is a promising technique for machines’ surveillance in very low and variable speeds working conditions. Suivi d'endommagement Détection des défauts Régime non stationnaire Basse vitesse de rotation Vitesse variable Transmission sans fil Fault detection Non stationnary regime Low rotation speed Variable speed Wireless data transfer
100	Commandes non linéaires robustes de systèmes éoliens / Nonlinear robust control of wind turbines systems Guenoune, Ibrahim 08 February 2018 (has links) Le travail de cette thèse s’inscrit dans la commande non linéaire des structures éoliennes. Le premier objectif de cette thèse est la commande d’une éolienne standard fonctionnant à vitesse et angle de calage variables. Les stratégies de commande proposées permettant de commander l’éolienne dans des zones de fonctionnement différentes (optimisation et limitation de la puissance produite). Le deuxième objectif consiste en la conception de commande d’une nouvelle structure d’éolienne à double rotor. L’originalité de cette structure réside dans le fait qu’elle peut pivoter face au vent sans actionneur dédié, et ce grâce à la rotation libre du bras portant les deux éoliennes. Deux architectures de commande sont proposées afin d’orienter la structure face au vent : l’une crée un différentiel des angles de calage des pales des deux éoliennes, l’autre agissant via la différence de puissance produite par les deux génératrices. Étant donné que l’environnement est incertain et fortement perturbé (variations du vent, erreurs de modélisation, bruits de mesure), des lois de commande non linéaires robustes sont proposées. L’efficacité des stratégies de commande a été vérifiée selon différents scénarios. / This work deals the nonlinear control of wind turbine structures. The first objective is the design of control laws of a standard wind turbine with variable speed-variable pitch angle. The proposed control strategies allow controlling the wind turbine indifferent operating areas (optimization and powerlimitation).The second objective consists in controlling a new structure of twin wind turbines. The originality of this structure lies in the fact that it can rotate face the wind without using a dedicated actuator, thanks to the free rotation of the arm carrying the wind turbines. Two control architectures are proposed in order to ensure the structure face the wind : pitch angles differential and the produced power difference. Given that the environment is uncertain (windvariations, modeling errors, noise), robust nonlinear control laws are proposed for a multiple objectives. The efficiency of the control strategies have been carried out according to several scenarios. Éolienne double rotor Commande par mode glissant Backstepping Variable speed and pitch wind turbine Twin wind turbine Sliding mode Backstepping

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