975 resultados para Electric power transmission networks
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This paper focus on the problem of locating single-phase faults in mixed distribution electric systems, with overhead lines and underground cables, using voltage and current measurements at the sending-end and sequence model of the network. Since calculating series impedance for underground cables is not as simple as in the case of overhead lines, the paper proposes a methodology to obtain an estimation of zero-sequence impedance of underground cables starting from previous single-faults occurred in the system, in which an electric arc occurred at the fault location. For this reason, the signal is previously pretreated to eliminate its peaks voltage and the analysis can be done working with a signal as close as a sinus wave as possible
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Through the history of Electrical Engineering education, vectorial and phasorial diagrams have been used as a fundamental learning tool. At present, computational power has replaced them by long data lists, the result of solving equation systems by means of numerical methods. In this sense, diagrams have been shifted to an academic background and although theoretically explained, they are not used in a practical way within specific examples. This fact may be against the understanding of the complex behavior of the electrical power systems by students. This article proposes a modification of the classical Perrine-Baum diagram construction to allowing both a more practical representation and a better understanding of the behavior of a high-voltage electric line under different levels of load. This modification allows, at the same time, the forecast of the obsolescence of this behavior and line’s loading capacity. Complementary, we evaluate the impact of this tool in the learning process showing comparative undergraduate results during three academic years
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OBJECTIVES: To monitor HIV-1 transmitted drug resistance (TDR) in a well defined urban area with large access to antiretroviral therapy and to assess the potential source of infection of newly diagnosed HIV individuals. METHODS: All individuals resident in Geneva, Switzerland, with a newly diagnosed HIV infection between 2000 and 2008 were screened for HIV resistance. An infection was considered as recent when the positive test followed a negative screening test within less than 1 year. Phylogenetic analyses were performed by using the maximum likelihood method on pol sequences including 1058 individuals with chronic infection living in Geneva. RESULTS: Of 637 individuals with newly diagnosed HIV infection, 20% had a recent infection. Mutations associated with resistance to at least one drug class were detected in 8.5% [nucleoside reverse transcriptase inhibitors (NRTIs), 6.3%; non-nucleoside reverse transcriptase inhibitors (NNRTIs), 3.5%; protease inhibitors, 1.9%]. TDR (P-trend = 0.015) and, in particular, NNRTI resistance (P = 0.002) increased from 2000 to 2008. Phylogenetic analyses revealed that 34.9% of newly diagnosed individuals, and 52.7% of those with recent infection were linked to transmission clusters. Clusters were more frequent in individuals with TDR than in those with sensitive strains (59.3 vs. 32.6%, respectively; P < 0.0001). Moreover, 84% of newly diagnosed individuals with TDR were part of clusters composed of only newly diagnosed individuals. CONCLUSION: Reconstruction of the HIV transmission networks using phylogenetic analysis shows that newly diagnosed HIV infections are a significant source of onward transmission, particularly of resistant strains, thus suggesting an important self-fueling mechanism for TDR.
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We present a new asymptotic formula for the maximum static voltage in a simplified model for on-chip power distribution networks of array bonded integrated circuits. In this model the voltage is the solution of a Poisson equation in an infinite planar domain whose boundary is an array of circular pads of radius ", and we deal with the singular limit Ɛ → 0 case. In comparison with approximations that appear in the electronic engineering literature, our formula is more complete since we have obtained terms up to order Ɛ15. A procedure will be presented to compute all the successive terms, which can be interpreted as using multipole solutions of equations involving spatial derivatives of functions. To deduce the formula we use the method of matched asymptotic expansions. Our results are completely analytical and we make an extensive use of special functions and of the Gauss constant G
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A mathematical model of the voltage drop which arises in on-chip power distribution networks is used to compare the maximum voltage drop in the case of different geometric arrangements of the pads supplying power to the chip. These include the square or Manhattan power pad arrangement, which currently predominates, as well as equilateral triangular and hexagonal arrangements. In agreement with the findings in the literature and with physical and SPICE models, the equilateral triangular power pad arrangement is found to minimize the maximum voltage drop. This headline finding is a consequence of relatively simple formulas for the voltage drop, with explicit error bounds, which are established using complex analysis techniques, and elliptic functions in particular.
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Sähkönjakeluverkkojen kehittäminen nykyistä käyttövarmemmiksi ja taloudellisemmiksi vaatii jatkuvasti uusia ratkaisumalleja. Lupaavaksi tekniikaksi sähkönjakeluverkkojen kehittämisessä on osoittautumassa tasasähkönjakelu tehoelektronisten komponenttien kehittyessä ja hintojen laskiessa samanaikaisesti. Pienjännitedirektiivi mahdollistaa tasajännitteen myötä aiempaa suurempien jännitteiden käytön pienjänniteverkoissa. Tasajännitteen käytöllä voidaan saavuttaa etuja mm. tehonsiirtokyvyssä, sähkönlaadussa, käyttövarmuudessa sekä kustannuksissa. Työssä tehdään yksityiskohtaisia teknistaloudellisia tarkasteluja perinteistä 20/0,4 kV tekniikkaa, 1000 V sähkönjakelua sekä tasasähköjärjestelmiä hyödyntäen ja verrataan näiden järjestelmien kustannuksia ja ominaisuuksia toisiinsa. Tutkimusalueet on valittu Fortum Sähkönsiirto Oy:n maaseutu- ja taajamaverkoista. Työssä pyritään hahmotta-maan teknistaloudellista käyttöaluetta eri tasasähkönjakelujärjestelmille sekä määrittä-mään tasasähkönjakelun käyttöpotentiaali tutkimuskohteena olleissa verkoissa. Lisäksi tutkitaan eri tekijöiden vaikutuksia tasasähköjakelun kannattavuuteen ja käyttövarmuu-teen sekä pyritään tuomaan esiin muitakin tasasähkönjakelujärjestelmien ominaisuuksia.
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The globalization and development of an information society promptly change shape of the modern world. Cities and especially megacities including Saint-Petersburg are in the center of occuring changes. As a result of these changes the economic activities connected to reception and processing of the information now play very important role in economy of megacities what allows to characterize them as "information". Despite of wide experience in decision of information questions Russia, and in particular Saint-Petersburg, lag behind in development of information systems from the advanced European countries. The given master's thesis is devoted to development of an information system (data transmission network) on the basis of wireless technology in territory of Saint-Petersburg region within the framework of FTOP "Electronic Russia" and RTOP "Electronic Saint-Petersburg" programs. Logically the master's thesis can be divided into 3 parts: 1. The problems, purposes, expected results, terms and implementation of the "Electronic Russia" program. 2. Discussion about wireless data transmission networks (description of technology, substantiation of choice, description of signal's transmission techniques and types of network topology). 3. Fulfillment of the network (organization of central network node, regional centers, access lines, description of used equipment, network's capabilities), financial provision of the project, possible network management models.
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Tässä kandidaatintyössä on käsitelty hajautetun sähköntuotannon verkostovaikutuksia eri näkökulmista. Työssä on esitelty keskeisimmät sähkötekniset vaikutukset jakeluverkkoon ja tarkasteltu vaikutuksia suojauksen, käyttövarmuuden, verkkoliiketoiminnan ja suunnittelun näkökulmasta. Tarkastelu osuuden lopuksi on esitetty yksinkertainen esimerkki pienvoimalan liittämisen vaikutuksista jakeluverkkoon. Työn lopuksi on otettu katsaus tuleviin vaikutuksiin tuotantoyksiköiden lisääntyessä jakeluverkoissa. Hajautettu sähköntuotanto mahdollistaa paikallisten energiavarojen hyödyntämisen sähköntuotantoon jakeluverkon alueella. Tämä tarkoittaa, että siirtoetäisyydet pienenevät, jolloin häviöt saadaan minimoitua. Haittapuolena tällaisessa järjestelmässä on epävarmuus jakeluverkon ja tuotantoyksiköiden käyttäytymisestä eri tilanteissa, kuten myös jännitteen nousu. Suojauksen toimivuus on myös suuri ongelma, koska sen täytyy toimia riippumatta siitä onko voimala verkossa vai ei. Suojauksen toiminta hajautetun tuotannon yhteydessä on epävarmaa ja selvästi tällä hetkellä suurin este järjestelmän laajempaan hyödyntämiseen.
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A mathematical model of the voltage drop which arises in on-chip power distribution networks is used to compare the maximum voltage drop in the case of different geometric arrangements of the pads supplying power to the chip. These include the square or Manhattan power pad arrangement, which currently predominates, as well as equilateral triangular and hexagonal arrangements. In agreement with the findings in the literature and with physical and SPICE models, the equilateral triangular power pad arrangement is found to minimize the maximum voltage drop. This headline finding is a consequence of relatively simple formulas for the voltage drop, with explicit error bounds, which are established using complex analysis techniques, and elliptic functions in particular.
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La qualitat d'ona en el servei elèctric
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Control de la qualitat de la Xarxa elèctrixa
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The amount of installed wind power has been growing exponentially during the past ten years. As wind turbines have become a significant source of electrical energy, the interactions between the turbines and the electric power network need to be studied more thoroughly than before. Especially, the behavior of the turbines in fault situations is of prime importance; simply disconnecting all wind turbines from the network during a voltage drop is no longer acceptable, since this would contribute to a total network collapse. These requirements have been a contributor to the increased role of simulations in the study and design of the electric drive train of a wind turbine. When planning a wind power investment, the selection of the site and the turbine are crucial for the economic feasibility of the installation. Economic feasibility, on the other hand, is the factor that determines whether or not investment in wind power will continue, contributing to green electricity production and reduction of emissions. In the selection of the installation site and the turbine (siting and site matching), the properties of the electric drive train of the planned turbine have so far been generally not been taken into account. Additionally, although the loss minimization of some of the individual components of the drive train has been studied, the drive train as a whole has received less attention. Furthermore, as a wind turbine will typically operate at a power level lower than the nominal most of the time, efficiency analysis in the nominal operating point is not sufficient. This doctoral dissertation attempts to combine the two aforementioned areas of interest by studying the applicability of time domain simulations in the analysis of the economicfeasibility of a wind turbine. The utilization of a general-purpose time domain simulator, otherwise applied to the study of network interactions and control systems, in the economic analysis of the wind energy conversion system is studied. The main benefits of the simulation-based method over traditional methods based on analytic calculation of losses include the ability to reuse and recombine existing models, the ability to analyze interactions between the components and subsystems in the electric drive train (something which is impossible when considering different subsystems as independent blocks, as is commonly done in theanalytical calculation of efficiencies), the ability to analyze in a rather straightforward manner the effect of selections other than physical components, for example control algorithms, and the ability to verify assumptions of the effects of a particular design change on the efficiency of the whole system. Based on the work, it can be concluded that differences between two configurations can be seen in the economic performance with only minor modifications to the simulation models used in the network interaction and control method study. This eliminates the need ofdeveloping analytic expressions for losses and enables the study of the system as a whole instead of modeling it as series connection of independent blocks with no lossinterdependencies. Three example cases (site matching, component selection, control principle selection) are provided to illustrate the usage of the approach and analyze its performance.
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The objective of this dissertation is to improve the dynamic simulation of fluid power circuits. A fluid power circuit is a typical way to implement power transmission in mobile working machines, e.g. cranes, excavators etc. Dynamic simulation is an essential tool in developing controllability and energy-efficient solutions for mobile machines. Efficient dynamic simulation is the basic requirement for the real-time simulation. In the real-time simulation of fluid power circuits there exist numerical problems due to the software and methods used for modelling and integration. A simulation model of a fluid power circuit is typically created using differential and algebraic equations. Efficient numerical methods are required since differential equations must be solved in real time. Unfortunately, simulation software packages offer only a limited selection of numerical solvers. Numerical problems cause noise to the results, which in many cases leads the simulation run to fail. Mathematically the fluid power circuit models are stiff systems of ordinary differential equations. Numerical solution of the stiff systems can be improved by two alternative approaches. The first is to develop numerical solvers suitable for solving stiff systems. The second is to decrease the model stiffness itself by introducing models and algorithms that either decrease the highest eigenvalues or neglect them by introducing steady-state solutions of the stiff parts of the models. The thesis proposes novel methods using the latter approach. The study aims to develop practical methods usable in dynamic simulation of fluid power circuits using explicit fixed-step integration algorithms. In this thesis, twomechanisms whichmake the systemstiff are studied. These are the pressure drop approaching zero in the turbulent orifice model and the volume approaching zero in the equation of pressure build-up. These are the critical areas to which alternative methods for modelling and numerical simulation are proposed. Generally, in hydraulic power transmission systems the orifice flow is clearly in the turbulent area. The flow becomes laminar as the pressure drop over the orifice approaches zero only in rare situations. These are e.g. when a valve is closed, or an actuator is driven against an end stopper, or external force makes actuator to switch its direction during operation. This means that in terms of accuracy, the description of laminar flow is not necessary. But, unfortunately, when a purely turbulent description of the orifice is used, numerical problems occur when the pressure drop comes close to zero since the first derivative of flow with respect to the pressure drop approaches infinity when the pressure drop approaches zero. Furthermore, the second derivative becomes discontinuous, which causes numerical noise and an infinitely small integration step when a variable step integrator is used. A numerically efficient model for the orifice flow is proposed using a cubic spline function to describe the flow in the laminar and transition areas. Parameters for the cubic spline function are selected such that its first derivative is equal to the first derivative of the pure turbulent orifice flow model in the boundary condition. In the dynamic simulation of fluid power circuits, a tradeoff exists between accuracy and calculation speed. This investigation is made for the two-regime flow orifice model. Especially inside of many types of valves, as well as between them, there exist very small volumes. The integration of pressures in small fluid volumes causes numerical problems in fluid power circuit simulation. Particularly in realtime simulation, these numerical problems are a great weakness. The system stiffness approaches infinity as the fluid volume approaches zero. If fixed step explicit algorithms for solving ordinary differential equations (ODE) are used, the system stability would easily be lost when integrating pressures in small volumes. To solve the problem caused by small fluid volumes, a pseudo-dynamic solver is proposed. Instead of integration of the pressure in a small volume, the pressure is solved as a steady-state pressure created in a separate cascade loop by numerical integration. The hydraulic capacitance V/Be of the parts of the circuit whose pressures are solved by the pseudo-dynamic method should be orders of magnitude smaller than that of those partswhose pressures are integrated. The key advantage of this novel method is that the numerical problems caused by the small volumes are completely avoided. Also, the method is freely applicable regardless of the integration routine applied. The superiority of both above-mentioned methods is that they are suited for use together with the semi-empirical modelling method which necessarily does not require any geometrical data of the valves and actuators to be modelled. In this modelling method, most of the needed component information can be taken from the manufacturer’s nominal graphs. This thesis introduces the methods and shows several numerical examples to demonstrate how the proposed methods improve the dynamic simulation of various hydraulic circuits.
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Tutkimuksen tavoitteena on analysoida kokonaisratkaisuja tarjoavan järjestelmätoimittajan suorituskyvyn mittaamisen suunnittelua johdon päätöksenteon tukivälineeksi. Alitavoitteena oli suunnitella mittaristo case-yrityksen valitulle yksikölle sekä konsernitasolle. Tutkimuksen myötä havaittiin tarpeelliseksi tunnistaa järjestelmätoimittajan toimialatason vahvimmat ydinkyvykkyydet ja esittää ratkaisuja niiden mittaamiselle. Tutkimuksesta rajattiin mittariston hyödyntäminen yksilötason ohjauksessa. Tutkimusta lähestyttiin toiminta-analyyttisenä tapaustutkimuksena. Tutkimuksen yhteydessä määriteltiin järjestelmätoimittaja teollisen palveluliiketoiminnan toimijaksi, jonka mittaus painottuu asiakaslähtöisen toiminnan edistämiseen. Suurimmat haasteet muodostuivat aineettoman pääoman, pääosin uudistuvan ja uuden liiketoiminnan verkostojen mittaamisesta. Tutkimustuloksena voitiin havaita, että toimialatason keskeisimpiin ydinkyvykkyyksiin ja case-yrityksen linjaamiin menestystekijöihin pohjautunut tarkastelu onnistui tunnistamaan keskeisiä ongelmakohtia järjestelmätoimittajan mittariston suunnittelussa. Merkittävimmät toimenpidesuositukset ja laaditut mittariehdotukset painottavat asiakkaan prosessien tuntemista, oman osaamisen johtamista asiakkaan prosesseihin soveltuviksi, uusien innovaatioiden ja kyvykkyyksien luomista, erilaisten verkostojen tunnistamista ja kehittämistä, kyvykkyyksien johtamista ja tuotekeskeisen myynnin kehittämistä palvelukeskeiseen suuntaan. Tutkimus esittää näihin tuloksiin pohjautuvan mittariston ja prosessin aikana syntyneet mittariehdotukset.
