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Zasnova algoritma za vodenje prožnosti odjema in proizvodnje v distribucijskih omrežjih
ID Knez, Klemen (Author), ID Blažič, Boštjan (Mentor) More about this mentor... This link opens in a new window

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Abstract
Magistrsko delo obravnava zasnovo algoritma vodenja prožnosti odjema in proizvodnje v distribucijskih omrežjih. Potreba po takšen algoritmu vodenja izhaja iz naslova vedno večjega priključevanja novih tipov naprav, kot so električna vozila, toplotne črpalke ali sončne elektrarne, ki s svojim obnašanjem sodobna distribucijska omrežja postavljajo pred velike izzive na področju obratovanja. K tem izzivom lahko pristopimo na dva načina. Prvi način predstavlja tradicionalni načrtovalski pristop, ki ne upošteva prožnosti, ki jih lahko nudijo novi tipi naprav in odjemalci. Načrtovalci omrežij se tu poslužujejo predvsem nadgradnje omrežij z ojačitvijo obstoječih elementov, kar vodi v neizkoriščenost novo vgrajenih elementov. Alternativo lahko predstavlja upoštevanje potenciala prožnosti odjema in proizvodnje, ki tradicionalno pasivne odjemalce postavi v vlogo aktivnih uporabnikov, ki lahko s svojim prilagajanjem odjema ali proizvodnje pozitivno vplivajo na razmere v omrežju. Cilj magistrskega dela je zasnova algoritma, ki upošteva potencial prožnosti odjema in proizvodnje pri samem obratovanju distribucijskega omrežja. V prvem delu naloge so na kratko predstavljene lastnosti in značilnosti nizkonapetostnih distribucijskih omrežij in njihove obratovalne omejitve. Podrobneje so opisane napetostne in termične omejitve omrežja ter izgube, ki se pojavljajo med obratovanjem distribucijskih omrežij. Te omejitve predstavljajo osnovo pri izračunu priključne zmogljivosti distribucijskega omrežja. V nadaljevanju naloge je predstavljen koncept priključne zmogljivosti distribucijskega omrežja, ki se je do sedaj uporabljal predvsem med načrtovanjem distribucijskega omrežja. Za izračun priključne zmogljivosti lahko uporabimo več vrst metod, med katere sodijo deterministične, stohastične in optimizacijske metode, katerih prednosti in slabosti so predstavljene v priču-jočem delu. Sledi predstavitev obeh metod, ki sta bili preizkušeni znotraj magistrskega dela. Kot potencialno metodo za zasnovo algoritma vodenja prožnosti odjema in proizvodnje smo prepoznali metodo optimizacije z rojem delcev, ki spada med optimizacijske metode, in metodo z občutljivostnimi koeficienti, ki se je do sedaj uporabljala predvsem za regulacijo napetosti na visokonapetostnem nivoju. V zadnjem delu magistrske naloge sta metodi preizkušeni na realnem nizkonapetostnem distribucijskem omrežju znotraj simulacijskega okolja. V prvem delu preizkusa metodi uporabimo za razbremenjevanje omrežja, da bo omrežje zopet obratovalo znotraj postavljenih obratovalnih kriterijev. Simulacijski rezultati prikazujejo, da rezultati obeh metod uspešno zagotovijo, da bo obravnavano omrežje zopet obratovalo znotraj obratovalnih kriterijev. V drugem delu preizkusa smo z metodo, ki temelji na občutljivostnih koeficientih, poizkušali določiti vozliščno priključno zmogljivost, ki bi jo agregator lahko izkoristil za nudenje sistemskih storitev.

Language:Slovenian
Keywords:priključna zmogljivost, distribucijsko omrežje, optimizacija z rojem delcev, občutljivostna teorija, prožnost.
Work type:Master's thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2023
PID:20.500.12556/RUL-147015 This link opens in a new window
COBISS.SI-ID:156767491 This link opens in a new window
Publication date in RUL:20.06.2023
Views:996
Downloads:136
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Secondary language

Language:English
Title:Algorithm design for management of demand and generation flexibility in distribution networks
Abstract:
The master's thesis deals with the design of a flexibility control algorithm for demand and production in distribution networks. The need for such a control algorithm arises from the increasing connection of new types of devices, such as electric vehicles, heat pumps, or solar power plants, which pose great challenges to the operation of modern distribution networks. There are two approaches to addressing these challenges. The first approach is the traditional approach that does not consider the flexibility that new types of devices can provide. Network planners mainly upgrade grids by replacing existing elements, which leads to the underutilization of newly installed elements. An alternative approach could be to consider the flexibility potential of newly connected devices, which puts traditionally passive consumers in the role of active users or prosumers who can positively influence network conditions by adjusting their consumption or production. The goal of the master's thesis is the design of an algorithm that takes into account the potential of demand and production flexibility in the operation of the distribution network. The first part of the thesis briefly describes the characteristics and features of low-voltage distribution networks and their operating limitations. Voltage and thermal limitations of the network, as well as losses that occur during the operation of distribution networks, are described in detail. These limitations form the basis for calculating the hosting capacity of the distribution network. Then, the concept of the hosting capacity of the distribution network, which has so far been used in the planning of the distribution network, is described. Several types of methods can be used to calculate the hosting capacity, including deterministic, stochastic, and optimization methods, whose advantages and disadvantages are presented in this work. The following section introduces both methods that were tested within the master's thesis. As potential methods for designing the flexibility control algorithm, the particle swarm optimization method, which belongs to optimization methods, and the method based on sensitivity theory, which has been mainly used for voltage regulation at the high voltage level, were identified. In the final part of the master's thesis, both methods are tested on a real low-voltage distribution network within a simulation environment. In the first part of the test, the methods are used to ensure, that the network operates within established operational criteria. Simulation results show that the results of both methods successfully ensure that the considered network operates within the established criteria. In the second part of the test, we used the sensitivity coefficient-based method to determine the nodal capacity that an aggregator could utilize to provide system services.

Keywords:hosting capacity, distribution network, particle swarm optimization, sensitivity theory, flexibility.

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