magistrsko delo
Povzetek
Sodobni načini rabe električne energije, pri katerih so porabniki z omrežjem povezani preko pretvornikov močnostne elektronike, so pomemben vir harmonskega popačenja omrežnih napetosti in tokov. Nekatere kombinacije omrežnih induktivnosti in kapacitivnosti lahko v odvisnosti od topologije omrežja pri določeni frekvenci povzročijo izrazit porast ali padec impedance, preko katere se že razmeroma majhen tok preslika v visok padec napetosti oziroma se razmeroma nizka napetost preslika v velik tok. Pojav se imenuje resonanca in je škodljiv, saj vodi v krajšanje življenjske dobe elementov omrežja, problematičen pa je zlasti takrat, ko nastopi v bližini katerega od značilnih harmonikov, s katerimi so omrežni tokovi ali napetosti popačeni, saj je takrat ojačenje harmonskih komponent največje. Klasična metoda resonančne analize z izračunom frekvenčnih karakteristik in harmonskih pretokov moči ne daje neposrednih informacij o vplivu elementov na posamezne resonančne pojave, nastale zaradi omrežnih impedanc, zato smo v tem magistrskem delu opravili pregled metode modalne analize, ki omenjeno omejitev odpravlja.
Metoda temelji na transformaciji omrežja v modalni prostor, s čimer se omogoči ločeno obravnavo različnih resonančnih pojavov. Glavni koraki predstavljene metode so izračun lastnih vrednosti in vektorjev, koeficientov občutljivosti na spremembo parametrov za amplitudo modalne impedance in resonančne frekvence, razširitev metode na analizo serijskih resonanc in premikanje resonančnih frekvenc s prilagoditvijo omrežnih parametrov. Poleg teoretičnega pregleda posameznih korakov metode so za različna omrežja prestavljeni še rezultati analize skupaj z demonstracijskimi rešitvami omejevanja paralelne resonance pri frekvencah značilnih harmonikov.
Pregled dobljenih rezultatov kaže, da je metoda modalne analize učinkovito orodje za proučevanje resonančnih pojavov. Uspešno smo namreč ovrednotili vlogo omrežnih vozlišč pri resonančnih pojavih in vpliv omrežnih parametrov na modalne in posredno vozliščne impedance ter s prilagoditvijo resonančnih frekvenc omejili možnosti za nastanek harmonskega popačenja.
Ključne besede
kakovost električne energije;harmoniki;resonanca;modalna analiza;občutljivostni koeficienti;lastne vrednosti;lastni vektorji;omejevanje resonance;admitančna matrika;impedanca;magisteriji;
Podatki
Jezik: |
Slovenski jezik |
Leto izida: |
2021 |
Tipologija: |
2.09 - Magistrsko delo |
Organizacija: |
UL FE - Fakulteta za elektrotehniko |
Založnik: |
[J. Lokar] |
UDK: |
621.31(043.2) |
COBISS: |
75494403
|
Št. ogledov: |
504 |
Št. prenosov: |
75 |
Ocena: |
0 (0 glasov) |
Metapodatki: |
|
Ostali podatki
Sekundarni jezik: |
Angleški jezik |
Sekundarni naslov: |
Analysis of harmonic resonance phenomena in electric power networks using modal analysis |
Sekundarni povzetek: |
Due to a large share of the modern electrical devices being connected to the power grid through power electronics converters, impedance resonances are an important issue. Namely, certain combinations of inductive and capacitive elements located in a power network may, depending on the network topology, result in substantial increase or decrease of the network impedances. This may result in a parallel or series resonance which is a phenomenon that occurs when a relatively small current injection causes a large voltage drop or a relatively small voltage causes a large current, respectively. A resonance has negative effect on a power network as it shortens the life span of the network components. It is especially critical when the impedance resonance frequency is close to a frequency that a distorted voltage or current signal contains as the amplification of the harmonic components is the largest in this case. The classical harmonic resonance analysis approach using frequency scan and harmonic power flow calculations cannot directly offer enough information for a comprehensive analysis. Because of this, the modal analysis technique, which is addressed in this master's thesis, has been developed in order to bypass the aforementioned limitations.
The fundamental step of the harmonic resonance mode analysis is eigen-decomposition of network admittance matrix. This enables the individual study of different resonance phenomena. The key steps of the analysis are as follows. Admittance matrix eigen-decomposition yields the eigenvalues and the eigenvectors, which are used to determine network bus harmonic excitability and observability. The modal sensitivity indices are used next to determine the effect that network parameters have on a modal impedance magnitude and resonance frequency. The calculation is performed using the eigen-decomposition results. Furthermore, the modifications needed in order to perform the series resonance analysis and the modal resonance frequency shift method using Newton's method are presented. In addition to the theoretical overview, the analysis results for different network models are also presented, including demonstrative proposals of the possible parallel harmonic resonance mitigation solutions.
The analysis of the calculation results shows that the modal analysis is an effective tool for the resonance harmonic analysis. Namely, bus participation in different resonance phenomena and network parameter influence on modal impedance charasteristics were successfully evaluated. Moreover, by successful modal resonance frequency shift calculations the possibilities for parallel harmonic resonance has been successfully mitigated. |
Sekundarne ključne besede: |
power quality;harmonics;resonance;modal analysis;sensitivity;eigenvalues;eigenvectors;resonance mitigation;admittance matrix;impedance; |
Vrsta dela (COBISS): |
Magistrsko delo/naloga |
Študijski program: |
1000316 |
Konec prepovedi (OpenAIRE): |
1970-01-01 |
Komentar na gradivo: |
Univ. v Ljubljani, Fak. za elektrotehniko |
Strani: |
XXIV, 159 str. |
ID: |
13331889 |