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191	Mažųjų generatorių prijungimo prie skirstomojo tinklo tyrimas / The investigation of connection of small generators to distribution network Girgždys, Vaidotas 16 August 2007 (has links) Mažieji generatoriai nėra kokia tai naujiena elektros energetikai. Pirmiausia šie generatoriai yra pasiskirstę po visą elektros sistemą, dažniausiai yra arti tiesioginių elektros vartotojų ir yra įjungti į skirstomąjį tinklą. Antra, jie dažnai naudoja atsinaujinančiosios energijos šaltinius, pavyzdžiui vėją arba saulės šviesą. Todėl kalbant apie vėjo elektrines arba mažąsias hidroelektrines tarp atsinaujinančiosios energijos, paskirstytojo generavimo ir mažųjų generatorių sąvokų didelių skirtumų nėra. Atsinaujinančiųjų energijos šaltinių panaudojimas, globalinis gamtos atšilimas ir su tuo susijusi pasaulio visuomenės veikla yra įgijusi tarptautinių susitarimų ir planų formą. Kartu pasaulio energetikai perspėja, kad atsinaujinančios energijos šaltiniai gali pakeisti tik nedidelę tradicinės energetikos dalį. Pirminės energijos vartojimo taupymas, perdirbimo efektyvumo didinimas yra žymiai daugiau naudos atnešančios priemonės. Ateityje atsinaujinantys energijos ištekliai vis labiau įtakos energijos tiekimo įvairovę, emisijų sumažinimą ir tinkamą energijos naudojimą. Šiuo metu veikia per 20 tūkstančių vėjo elektrinių, įrengtų įvairiose pasaulio šalyse. Šiuolaikinė technologijų pažanga garantuoja šios energijos eksploatacijos patikimumą ir pelningumą. Esamų technologijų elektrinių galingumas kinta plačiose ribose: nuo kelių kilovatų iki keleto megavatų. Taigi ši technologija sudaro galimybę labai įvairiai panaudoti vėjo energiją, pvz., baterijos krovimui ar būsto apšvietimui... [toliau žr. visą tekstą] / Girgždys V. The investigation of connection of small generators to distribution network: Master thesis of electrical engineer / research advisor doc. dr. E. V. Nevardauskas; Šiauliai University, Technological Faculty, Electrical Engineering Department – Šiauliai, 2007. – 52 p. Small generators aren't the new thing for energetics. First, these generators are distributed among all electric system. Second, they often use renovated electric sources. Small generators are used in small hydro – elekctric power stations as well as in wind electric power stations. For that purpose in research there is chosen small generator which is used in wind electric power stations. At these days more than 20 000 wind electric power stations function all over the world. Contemporary progress of technology guarantees the reliability and profitableness of explotation of this energy. The aim of this research is to analyze the principles of small generators, effects and – the main demands of adopting them to the approprate places and their connection to the distributive electric wiring network. Power and Thermal Engineering Mažieji generatoriai Tyrimas Apsaugos Small generators Investigation Generators protection
192	Investigating the dynamic performance of generator-pole-slip protection. Goncalves, Sergio de Freitas. January 1900 (has links) Generators in an interconnected power system normally remain in synchronism with one another. However, severe faults that lead to loss of heavily loaded generators or large load blocks can cause oscillations in the generator rotor angles that are large enough to result in a pole slip in which a generator, or a group of generators, loses synchronism with the rest of the power system. When a generator pole slips and falls out-of-step with the power system, the generator and system voltages sweep past one another at a slip frequency, producing a pulsating current, which can be greater than a three-phase fault at the generator terminals. An out-of-step generator should therefore be isolated from the power system to prevent damage to the generator, generator transformer and the turbine. This dissertation analyses the dynamic performance of generator-pole-slip protection during various stable and unstable power swing events. For the purpose of this dissertation, the Siemens 7UM622 machine protection relay is used to test the response of generator-pole-slip protection. This is done in two stages, firstly, within the DigSilent PowerFactory software by modelling the Siemens 7UM622 relay and then applying simulated time domain stable and unstable power swing conditions to the relay model to evaluate its response. Secondly, the actual 7UM622 hardware relay is injected with currents and voltages, which are produced during the time domain pole-slip simulations to determine if the relay hardware device operates in accordance with the Siemens relay technical manual. The power system analysed in the dissertation was heavily interconnected and a generator pole slip was rather unlikely. If an unlikely generator pole slip were to occur when the system is operating in a normal configuration (all power station outgoing feeders in service), the generator-pole-slip protection was able to detect and disconnect the generator after a single pole-slip cycle. v The critical fault clearing time decreases when an outgoing power station feeder is out of service (n-1 contingency) and therefore the probability of a generator pole slip increases. If a generator pole slip occurs when operating the network under a n-1 contingency, the pole-slip system electrical centre is usually located within the transmission network. In practice, the generator-pole-slip protection settings that are implemented at the power station do not reach into the transmission network (zone 2 disabled). Therefore, if a pole slip were to occur under a n-1 contingency, the generator-pole-slip protection would not be able to detect this condition. The zone 2 generator-pole-slip protection should rather reach into the transmission network, but the trip should only be issued after the third or fourth pole-slip cycle to allow the transmission line out-of-step protection sufficient time to separate the network into islands. The pole-slip function of the Siemens 7UM622 relay model within DigSilent PowerFactory operated in accordance with the Siemens relay technical manual and can be used in future to optimise and test generator-pole-slip protection settings. In the majority of cases, the Siemens 7UM622 relay hardware device operated in accordance with the Siemens relay technical manual. The only time that the relay operated incorrectly was when the measured impedance trajectory of a three-phase fault lingers on the inside and outside edge of the pole-slip impedance characteristic before exiting the pole-slip impedance characteristic. The stable and unstable power swing COMTRADE files that were generated for the tests performed in this dissertation can be used in future to test the generator-pole-slip protection at Kendal power station since it is rather difficult to test the pole-slip protection function properly without a COMTRADE file. / Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2013. Electric generators. Electric power system stability. Transients (Electricity) Theses--Electronic engineering.
193	The nature of torsional interactions in synchronous generators / Joós, Géza. January 1986 (has links) No description available. Phase modulation
194	Induction Generators Behavior Under Unbalanced Voltage And Fault Conditions Vekanuru, Sasikiran 01 1900 (has links) (PDF) In this thesis first the behavior of induction generators under unbalanced voltage conditions is studied. In this context, first the existing schemes for characterizing the unbalance in simple ways have been studied. The two schemes IEC, NEMA which are in use to quantify the unbalance, as an unbalance factor require the use of complex algebra. A new scheme to characterize voltage unbalance, without using any complex algebra has been proposed and its effectiveness is compared with the NEMA scheme. The performance of the induction generators under unbalanced voltage conditions is first studied using the symmetrical component approach and a detailed simulation. The machine currents for the same unbalanced conditions are estimated using the proposed scheme and its effectiveness is highlighted. Existing approximate schemes based on unbalance factor do not consider the phase differences between positive and negative sequence voltages while estimating currents. A method of including this feature is proposed here. A simple way to find the maximum line current among the three phases as a function of the positive and negative voltages has been proposed. Knowing the positive, negative sequence voltages and the angle between them, a scheme to compute the generator currents under unbalanced conditions is proposed. Finally a few affecting the machine heating due to unbalanced currents have been studied. The nature of the induction generator fault currents is studied to understand their implication on the system performance. First the fault currents that have been recorded from experiments on relatively small induction motors(26kW and 122kW) are compared with those obtained through detailed dynamic simulation, in order to validate the usage of the detailed dynamic simulations to study the fault current behavior of the induction machines in the absence of experimental or field records. In order to assess the impact of error in the measured machine parameters on the estimated fault current values, the sensitivity of the estimated values of fault currents to machine parameter variations is investigated. The fault currents in large grid connected induction generators (3MW to 500kW) have been estimated through detailed simulation. The effect of the instant of fault (w.r.t voltage cycle), input load levels and shunt capacitors on the fault current values is investigated. An eigen value analysis of the generator model has been carried out to understand the reasons for the observed behavior using the linearized machine model. Fitting functions have been adopted to quantify the fault currents, in order to facilitate comparison of fault currents. A method of including induction generators into the system fault studies has been proposed. Methods of choosing proper sequence impedances for representing the induction generator have been developed and validated using simulated values of balanced and unbalanced fault currents. Simulations of self excited generators have been used for determining the unbalanced fault currents, so as to ensure that the induction generator fault currents correspond to only those contributed by the machine. The impact of the induction generators penetration on the short circuit levels is investigated considering a 14 bus test system by incorporating the proposed induction generator models in a system level fault study. Electricity Generators Induction Motors Fault Analysis Voltage Fluctuations Induction Generators Unbalanced Voltage Unbalanced Current Electrical Engineering
195	Potential effects of wind electric generators on conventional electric generators in Kansas Duffey, Christopher Kear. January 1984 (has links) Call number: LD2668 .T4 1984 D83 / Master of Science Wind power. Electric generators--Power supply. Agriculture and energy. Masters theses
196	Fast-response rotating brushless exciters for improved stability of synchronous generators Nøland, Jonas Kristiansen January 2016 (has links) The Norwegian Network Code FIKS from the Norwegian Transmission System Operator (TSO) Statnett, states that synchronous generators ≥ 25 MVA must have a static excitation system. It also includes requirements on the step time response and the available field winding ceiling voltage of the excitation system. An improved brushless excitation system is in operation in some pilot power plants. A rotating thyristor bridge is controlled via Bluetooth. The step time response is as fast as conventional static excitation systems. However, a ceiling voltage factor of 2 requires the thyristor bridge to operate at firing angles about 60 degrees. High torque pulsations, low power factor and low utilization of the exciter is the end result. New power electronic interfaces on the shaft results in a betterutilization of the designed exciter and improves the mechanical performance as well as the controllability of the generator field winding. Permanent magnet rotating exciters increase the field forcing strength of the synchronous generator, yielding improved transient stability (Fault Ride-Through req.). Brushless exciters also reduces regular maintenance of the generator. The thesis includes experiments on a state of the art synchronous generator test setup including constructed PM exciter and different power electronic solutions. Some investigations has been done on industrial power plants as well. synchronous generators permanent magnet machines excitation systems power electronic interfaces
197	Rationalised protection for embedded generation Alshamali, M. A. M. January 2001 (has links) No description available. 621.319
198	Structural optimisation of permanent magnet direct drive generators for 5MW wind turbines Zavvos, Aristeidis January 2013 (has links) This thesis focuses on permanent magnet "direct drive" electrical generators for wind turbines with large power output. A variety of such generator topologies is reviewed, tested and optimised in an attempt to increase their potential as commercial concepts for the wind industry. Direct drive electrical generators offer a reliable alternative to gearbox drivetrains. This novel technology reduces energy loses thus allowing more energy to be yield from the wind and decreases the maintenance cost at the same time. A fundamental issue for these generators is their large size which makes them difficult to manufacture, transport and assembly. A number of structural designs have been suggested in the literature in an attempt to minimise this attribute. A set of design tools are set out in an attempt to investigate the structural stiffness of the different permanent magnet direct drive generator topologies against a number of structural stresses that apply to such wind turbine energy converters. Optimisation techniques, both analytical and structural, are also developed for minimising the total mass of a variety of "directly driven" machines with power output of 5MW or greater. Conventional and promising generator designs are modelled and optimised with the use of these optimisation techniques. The topologies under examination are then compared in terms of structural mass, stiffness and cost. As the number of wind turbine manufactures who adopt the direct drive concept increases, it is important to outline the unique characteristics of the different topologies and increase their manufacturing potential. Discussions and conclusions will provide an indication of the design solutions that could help decrease the mass and cost of such machines.
199	Demagnetization and Fault Simulations of Permanent Magnet Generators Sjökvist, Stefan January 2016 (has links) Permanent magnets are today widely used in electrical machines of all sorts. With their increase in popularity, the amount of research has increased as well. In the wind power project at Uppsala University permanent magnet synchronous generators have been studied for over a decade. However, a tool for studying demagnetization has not been available. This Ph.D. thesis covers the development of a simulation model in a commercial finite element method software capable of studying demagnetization. Further, the model is also capable of simulating the connected electrical circuit of the generator. The simulation model has continuously been developed throughout the project. The simulation model showed good agreement compared to experiment, see paper IV, and has in paper III and V successfully been utilized in case studies. The main focus of these case studies has been different types of short-circuit faults in the electrical system of the generator, at normal or at an elevated temperature. Paper I includes a case study with the latest version of the model capable of handling multiple short-circuits events, which was not possible in earlier versions of the simulation model. The influence of the electrical system on the working point ripple of the permanent magnets was evaluated in paper II. In paper III and VI, an evaluation study of the possibility of creating a generator with an interchangeable rotor is presented. A Neodymium-Iron-Boron (Nd-Fe-B) rotor was exchanged for a ferrite rotor with the electrical properties almost maintained. Demagnetization Permanent magnet Finite Element Method Synchronous generators Wind power
200	Advanced thermophotovoltaic cells modeling, optimized for use in radioisotope thermoelectric generators (RTGS) for Mars and deep space missions Davenport, Bradley P. 06 1900 (has links) Approved for public release; distribution is unlimited. / Thermophotovoltaic cells are a good candidate for use in high efficiency radioisotope thermoelectric generator (RTG) power devices for deep space missions. This thesis examines the use of Silvaco Virtual Wafer Fabrication Software as a tool for designing and optimizing TPV cells for different possible spectra. It gives results for GaSb and InGaAs cells optimized to the AM0 spectrum which closely match published data as well as hypothetical cells optimized to the spectrum of a 1300K blackbody. / Ensign, United States Navy Radioisotopes in aeronautics Thermoelectric generators Photovoltaic effect Solar cells

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