Your search keyword '"TECHNICAL SCIENCES. Electrical Engineering. Power Engineering"' showing total 1,027 results

1. LCD TV recyclability analysis

Author

Bošnjaković, Petar, Rozing, Goran, and Buljić, Dalibor

Subjects

LCD televizor, LCD television, recyclability, recikliranje, EE waste, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, EE otpad, recycling, recikičnost

Abstract

U završnom radu prikazani su i pojednostavljeni osnovni pojmovi recikliranja, problematika oko EE otpada i zakonska regulativa u Hrvatskoj vezana za EE otpad. Pomoću metode vrednovanja provedena je analiza recikličnosti na primjeru dva LCD televizora. Nakon usporedbe rezultata predložene su konstrukcijske smjernice i postupci zbrinjavanja. LCD TV recyclability analysis The final paper presents and simplifies basic concepts of recycling, problems surrounding EE waste and legislation related to EE waste in Croatia. Using the evaluation method, recyclability analysis was performed on the example of two LCD television. After comparing the results, construction guidlines and disposal methods are proposed

Published

2023

2. Description of the thermal power plant Osijek

Author

Blažević, Vedran and Ćorluka, Venco

Subjects

Blok 45MW, ložište, turbina, TE-TO, generator, KNOT, vrelovod, has the task of producing steam for steam consumers, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, BE-TO, powered by forest biomass, gorivo, parni bubanj, PTA, kotao, kondenzator, toplinska energija, električna energija, SBK, Agregat, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, pumpe, producing electricity and raising the temperature of the water at the return of the hot water pipe

Abstract

U završnom radu opisana je povijest i sva glavna postrojenja TE-TO Osijek. Termoelektranatoplana Osijek sastoji se od nekoliko blokova koji zajedno imaju funkciju proizvodnju i distribuciju električne i toplinske energije. Steamblok kotlovnica (SBK) sastoji se od 3 parna kotla koji služe samo za proizvodnju toplinske energije, dok plinsko turbinska elektrana zajedno sa KNOT-om ima zadaću proizvoditi i toplinsku i električnu energiju. Glavni blok snage 45MW zajedno sa dva visokotlačna kotla, parnom turbinom i generatorom - najveći je i najmoćniji u pogonu za proizvodnju toplinske i električne energije. BE-TO Osijek kao najnoviji pogon u Osijeku, pogonjen na šumsku biomasu ima zadaću proizvoditi paru za parne potrošače, proizvoditi električnu energiju i podignuti temperaturu vode kod povrata vrelovoda. In the final paper, the history and all the main plants of TE-TO Osijek are described. Osijek thermal power plant consists of several blocks that together have the function of producing and distributing electricity and heat energy. The steam block boiler room (SBK) consists of 3 steam boilers that are used only for the production of heat energy, while the gas turbine power plant, together with the KNOT, has the task of producing both heat and electricity. The main unit with a power of 45MW, together with two high-pressure boilers, a steam turbine and a generator - is the largest and most powerful in the plant for the production of heat and electricity. BE-TO Osijek, as the newest plant in Osijek, powered by forest biomass, has the task of producing steam for steam consumers, producing electricity and raising the temperature of the water at the return of the hot water pipe.

Published

2023

3. Dynamic adaptive protection for distribution networks using intelligent search methods

Author

Tošić, Josip and Marušić, Ante

Subjects

roj čestica, IEC 61850, umjetne neuronske mreže, Elektrotehnika, particle swarm, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, adaptivna zaštita, udc:621.3(043.3), upravljanje po dubini mreže, napredna distribucijska mreža, smart distribution network, remote control, HEP Koprivnica, Electrical engineering, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, adaptive protection, smart grid, samoobnavljajuća mreža, optimizacija, self-healing grid, optimization, artificial neural networks

Abstract

U ovom doktorskom prikazana je primjena naprednih metoda upravljanja i zaštite distributivnih mreža. Zbog razvoja i učestalih promjena u distribucijskoj mreži, potrebno je unaprijediti postojeće metode. Cilj ovoga istraživanja bio je razviti metode i algoritme koji imaju sposobnost automatizirati procese vođenja i zaštite u mreži na optimalan način i time skratiti vrijeme bez napajanja. Primjenom metoda inteligentnog pretraživanja razvijena je metoda adaptivne zaštite u okviru naprednih mreža. Predložen je novi algoritam za rješenje problema optimalne koordinacije i udešenje adaptivne zaštite, te algoritam za optimalnu rekonfiguracije mreže. Na osnovu rezultata algoritma optimalne koordinacije zaštite i algoritma optimalne rekonfiguracije mreže, predložen je model dinamičke adaptivnosti zaštite i algoritam samo-obnavljajuće mreže za zaštitu i vođenje srednjenaponskih mreža u stvarnom vremenu. Na izrađenom laboratorijskom modelu napredne mreže napravljena je simulacije primjene adaptivne zaštite i samoobnavljajuće mreže u različitim pogonskim uvjetima. Primjenom adaptivne zaštite povećava se selektivnost zaštite i raspoloživost sustava, te da se smanjuje vrijeme trajanje i učestalost prekida, i vrijeme isklopa zaštite. In this doctoral thesis, the application of advanced methods of management and protection of distribution networks was investigated. Due to the development and frequent changes in the distribution network, it is necessary to improve the existing methods. The aim of this research is to develop methods and algorithms that have the ability to automate the processes of management and protection in the network in an optimal way and thus shorten the time without power. The application of intelligent search methods will develop the method of adaptive protection within advanced networks. A new algorithm for solving the problem of optimal coordination and adjustment of adaptive protection, and an algorithm for optimal network reconfiguration will be proposed. Based on the results of the algorithm of optimal coordination of protection and the algorithm of optimal reconfiguration of the network, the model of dynamic adaptability of protection and the algorithm of self-healing network for protection and control of medium voltage networks in real time will be proposed. Simulations of the application of adaptive protection and self-healing network in different operating conditions will be made on the developed laboratory model of the advanced network. The application of adaptive protection increases the selectivity of protection and the availability of the system, and to reduce the duration and frequency of interruptions and the time of disconnection of protection.

Published

2023

4. Određivanje rezerve snage fotonaponskih elektrana za potrebe regulacije frekvencije elektroenergetskoga sustava

Author

Baškarad, Tomislav and Kuzle, Igor

Subjects

Frequency Regulation, Photovoltaic Power Plants, Cascade Disturbance, Power Reserve, Elektrotehnika, algoritam upravljanja, lančani poremećaj, Frequency Response Approximation, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, udc:621.3(043.3), fotonaponske elektrane, rezerva snage, regulacija frekvencije, aproksimacija frekvencijskog odziva, Control Algorithm, Electrical engineering, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika

Abstract

Utjecaj visokog udjela energetskih pretvarača na dinamiku elektroenergetskog sustava relativno je neistraženo područje. Povećani udio obnovljivih izvora energije priključenih preko pretvarača smanjuje konstantu tromosti elektroenergetskog sustava. Istraživanje je usmjereno prema vrednovanju utjecaja povećane penetracije energetskih pretvarača na dinamičko vladanje frekvencije elektroenergetskog sustava. Osnovni cilj ovog istraživanja je kvantificiranje utjecaja povećane integracije fotonaponskih elektrana (FNE) na stabilnost frekvencije sustava te razvoj algoritma za njihovo sudjelovanje u regulaciji frekvencije. Istraživanje je posebice usmjereno na glavnu značajku regulacije frekvencije (maksimalno odstupanje frekvencije od nazivne vrijednosti) te metodu određivanja potrebnog iznosa rezerve snage s kojom FNE trebaju sudjelovati u regulaciji frekvencije. Da bi se odredila dostatna rezerva snage FNE-a za sudjelovanje u regulaciji frekvencije elektroenergetskog sustava, u disertaciji je razvijena aproksimacijska metoda frekvencijskog odziva elektroenergetskog sustava temeljena na paraboličnoj funkciji. Nakon određivanja potrebnog iznosa rezerve snage, razvijen je upravljački algoritam za sudjelovanje fotonaponske elektrane u regulaciji frekvencije elektroenergetskog sustava u slučaju lančanog poremećaja. Navedeni algoritam upravljanja omogućuje FNE višekratno korištenje rezerve snage u kratkom vremenskom intervalu što u slučaju uzastopnih poremećaja čini FNE sposobnom pružiti doprinos tijekom svakog pojedinog poremećaja. Ovime se značajno povećava stabilnost frekvencije elektroenergetskoga sustava. Cjelokupni model razvijen u disertaciji mogao bi se koristiti kao osnova u simulatorima frekvencije i u planiranju voznog reda elektrana u velikim elektroenergetskim sustavima s visokim udjelom energetskih pretvarača. The impact of a high share of power converters on the power system dynamics is a relatively unexplored research area. The increased share of renewable energy sources connected via converters reduces the inertia constant of the power system. The research is aimed at evaluating the impact of the increased penetration of power converters on the system frequency dynamics. The main goal is to quantify the impact of increased integration of photovoltaic power plants on system frequency stability and to develop an algorithm for their participation in frequency control. The research is particularly focused on the main feature of frequency regulation (maximum frequency deviation from the nominal value) and the method of determination of the required minimum photovoltaic power plant power reserve to maintain the system frequency stability. In order to determine the sufficient power reserve of the photovoltaic power plant for participation in the frequency control, an approximation method of the system frequency response was developed. After determining the required amount of power reserve, a control algorithm was developed for the participation of the photovoltaic power plant for power system frequency support in case of cascading events. The control algorithm aims to enable rapid recovery of the photovoltaic power plant power reserve which makes the photovoltaic system capable of providing support to the cascading disturbance events. This significantly improves the frequency stability of the power system. The model developed in the thesis could be used as a basis in frequency response simulations and in scheduling power plants in large power systems with a high proportion of power converters.

Published

2023

5. Design specifics of alternative insulation liquid filled power transformers

Author

Šegović, Dario and Janić, Žarko

Subjects

sintetski ester, vatrootpornost, biorazgradivost, Energetski transformator, insulation, synthetic ester, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, natural ester, fire resistance, mineralno ulje, mineral oil, biodegradable isoparaffinic oil, alternativna izolacijska tekućina, Power transformer, biodegradability, biorazgradivo izoparafinsko ulje, alternative insulation liquid, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, prirodni ester, izolacija

Abstract

Ovaj rad ističe razlike u dizajnu, procesu izrade i ispitivanja te cijeni energetskog transformatora punjenog alternativnom izolacijskom tekućinom, prirodnim i sintetskim esterom ili biorazgradivim izoparafinskim uljem, u odnosu na snagom i prijenosnim omjerom ekvivalentan transformator punjen konvencionalnim mineralnim uljem. Prednost korištenja alternativnih izolacijskih tekućina u odnosu na konvencionalna mineralna ulja su biorazgradivost i povećana vatrootpornost u slučaju estera, a mane povećana cijena i kompleksniji dizajn energetskog transformatora. This paper emphasizes differences in the design, the manufacturing process, the testing and the price of alternative insulation liquid, synthetic and natural ester or biodegradable isoparaffinic oil, filled power transformer in comparison to power and voltage ratio equivalent power transformer filled with conventional mineral oil. The advantage of alternative insulation liquids to conventional mineral oils is biodegradability and higher fire resistance in case of esters, while the disadvantage is higher price and more complex power transformer design.

Published

2022

6. Techno-economic analysis of application on disc and interleaved winding in medium power transformer

Author

Gardlo, Eleonore and Ilić, Damir

Subjects

preloženi namot, upleteni namot, transformator, disc winding, transformer, interleaved winding, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering

Abstract

U uvodnom dijelu opisani su glavni dijelovi transformatora (jezgra, provodnici, vrste vodiča). Nakon toga opisane su vrste namota (spiralni, regulacijski, preloženi i upleteni namot). Opisani su načini izračuna kapaciteta u nadomjesnoj shemi i opis programa u kojemu su računate različite verzije transformatora. Tehno-ekonomska analiza napravljena je za primjene preloženog i upletenog namota u srednje energetskim transformatorima tipičnih nazivnih snaga (2,5 MVA, 6,3 MVA, 10 MVA i 20 MVA) s različitim nazivnim naponima (123 kV, 145 kV i 170 kV) koji se koriste u KONČAR D&ST-u. In the introductory part, the main parts of the transformer (core, bushings, types of windings) are described. After that, the types of windings are described (spiral, regulation, disc and interleaved winding). The methods of calculating the capacity in the substitute scheme are described, as well as a description of the program in which the different versions of the transformer are calculated. A techno-economic analysis was made for the application of disc and interleaved winding in medium power transformers of typical rated power (2.5 MVA, 6.3 MVA, 10 MVA and 20 MVA) with different rated voltages (123 kV, 145 kV and 170 kV) used in KONČAR D&ST.s

Published

2022

7. Determination of generator excitation system parameters by multiobjective optimisation and finding minimal oscillation solutions

Author

Špoljarić, Tomislav and Pavić, Ivica

Subjects

Elektrotehnika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, stabilnost elektroenergetskog sustava, udc:621.3(043.3), AVR regulator, automatic voltage regulator, rotor angle stability, multi-objective optimization, višeciljna optimizacija, power system stability, power system stabilizer, Electrical engineering, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, kutna stabilnost, PSS stabilizator

Abstract

U doktorskom radu obrađena je problematika vezana za optimizaciju parametara PSS stabilizatora (engl. Power System Stabilizer) i AVR regulatora (eng. Automatic Voltage Regulator) kroz upotrebu modeliranja elektroenergetskog sustava (EES-a) i simuliranja rada sustava u specifičnim operativnim stanjima. Operativna stanja su vezana za ispitivanje kutne stabilnosti i uključuju realne pogonske situacije kao što su privremeni ispad interkonekcijskog voda, kratkotrajni ispad opterećenja, tropolni kratki spoj ili uklop dodatnog tereta. Kroz simulaciju se koristi višeciljna metaheuristička optimizacija sa svrhom nalaženja optimalnih parametara za koje sustav treba reagirati sa što manjim oscilacijama odziva. Predviđeni algoritmi su algoritmi starije i novije generacije metaheurističke inteligencije: VRPSO (eng. Velocity Relaxed Particle Swarm Optimization), ALO (eng. Ant Lion Optimizer), SSA (eng. Salp Swarm Algorithm) i SA (eng. Simulated Annealing). Ciljne funkcije su vezane za integral umnoška vremena i odstupanja promatranih veličina, te pokazatelje kvalitete prijelaznog procesa. U višeciljnoj optimizaciji tih dviju funkcija koristi se analiza Pareto optimalnosti dva stanja. This dissertation discusses problems and proposes methods regarding parameter optimization of PSS (Power System Stabilizer) and AVR (Automatic Voltage Regulator) devices in power system. This problem is inspected by using power system modelling and simulation of various operating conditions. These simulations are a part of rotor angle stability inspection, and they present real-world power system contingency problems such as: interconnection transmission line outage, short term load outage, short circuit, additional load injection, etc. Multiobjective swarm optimization is applied with purpose of finding parameters optima for which a system should respond with oscillations as minimal as possible. Algorithms predicted for use in such optimization are VRPSO (velocity relaxed particle swarm optimization), ALO (Ant Lion Optimizer), SSA (Salp Swarm Algorithm) and SA (Simulated Annealing). Used objective functions include ITAE (integral of time multiplied with absolute error) and time domain transitional process quality indicators, which are analyzed through Pareto optimality.

Published

2022

8. Control systems of a photovoltaic-fed quasi-Z-source inverter with a novel pulse-width modulation

Author

Grgić, Ivan and Vukadinović, Dinko

Subjects

Elektrotehnika, mrtvo vrijeme izmjenjivača, regulacijski sustav, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, dinamički model, photovoltaic source, udc:621.3(043.3), fotonaponski izvor, dynamic model, pulsno-širinska modulacija, maximum power point tracking, prijenosna funkcija, pulse-width modulation, poluvodički gubici, prostrijelno stanje, Electrical engineering, izmjenjivač kvazi Z-tipa, praćenje točke maksimalne snage, transfer function, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, semiconductor losses, control system, shoot-through state, quasi-Z-source inverter, inverter dead-time

Abstract

U ovoj doktorskoj disertaciji predstavljena su tri nova regulacijska sustava s izmjenjivačem kvazi Z-tipa napajanim iz fotonaponskog izvora. Prvi sustav je bez baterija te izmjenjivač radi u spoju s mrežom, dok su druga dva sustava s baterijama a izmjenjivač radi u jednom slučaju u spoju s mrežom, a u drugom u otočnom načinu rada. Za upravljanje izmjenjivačem kvazi Z-tipa korištena je nova pulsno-širinska modulacija, s dodanim trećim harmonikom i implementiranim mrtvim vremenom, kod koje je početak prostrijelnog stanja sinkroniziran s početkom nultog stanja i koja rezultira značajnim smanjenjem poluvodičkih gubitaka. Razvijena su dva nova algoritma za izračun poluvodičkih gubitaka izmjenjivača kvazi Z-tipa upravljanog novom pulsno-širinskom modulacijom, čija je točnost eksperimentalno provjerena. Prvi novi regulacijski sustav s izmjenjivačem kvazi Z-tipa napajanim iz fotonaponskog izvora i spojenim na električnu mrežu osigurava praćenje točke maksimalne snage bez oscilacija i bez mjerenja struje fotonaponskog izvora. Simulacijska analiza ovog sustava provedena je za novi dinamički model fotonaponskog izvora s dvije diode i s uračunatim efektom kapaciteta osiromašenog područja i difuzijskog kapaciteta svake od dioda. Drugi novi regulacijski sustav s baterijama potpomognutim izmjenjivačem kvazi Z-tipa u otočnom načinu rada za traženje točke maksimalne snage fotonaponskog izvora umjesto struje izvora koristi struju baterija, dok treći novi regulacijski sustav s baterijama potpomognutim izmjenjivačem kvazi Z-tipa, u mrežnom načinu rada, za istu svrhu koristi d-komponentu vektora struje mreže. Za sintezu oba regulacijska sustava s baterijama primijenjene su eksperimentalno potvrđene prijenosne funkcije dobivene na temelju novog lineariziranog usrednjenog matematičkog modela sustava. This doctoral thesis presents three novel control systems of a photovoltaic-fed quasi-Z-source inverter. The first system does not contain batteries and the inverter is grid-tied, whereas the other two contain batteries and operate both in the stand-alone mode in one case and in grid-tied mode in the other. The quasi-Z-source inverter is controlled by means of a novel pulse-width modulation with injected third harmonic and implemented dead-time, where the start of a shoot-through state is synchronized with the start of a zero-switching state and which results in a significant reduction of semiconductor losses. Two novel semiconductor loss-calculation algorithms were developed for the quasi-Z-source inverter with the novel pulse-width modulation and their accuracy was experimentally evaluated. The first proposed control system of the photovoltaic-fed, grid-tied quasi-Z-source inverter ensures the maximum power point tracking without oscillations and without measurement of the photovoltaic source current. A simulation analysis of this control system was carried with the novel dynamic two-diode model of the photovoltaic source, which accounts for diffusion and junction capacitances of both diodes. The second proposed control system of the battery-assisted, stand-alone quasi-Z-source inverter utilizes the battery current instead of the photovoltaic source current for the maximum power point tracking of the photovoltaic source, whereas the third proposed control system of the battery-assisted, grid-tied quasi-Z-source inverter utilizes the d-axis grid current for the same purpose. The design of both these control systems was carried out by means of the experimentally validated transfer functions, which were obtained based on the novel small-signal model of the respective system.

Published

2022

9. Optimal use of the battery storage of an electric vehicle in a system with a photovoltaic power plant in a common parking lot under market conditions

Author

Pleskalt, Martin and Knežević, Goran

Subjects

battery tank, photovoltic systems, električna vozila, market, electrical vehicles, fotonaponski sustavi, tržište, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, baterijski spremnik, optimizacija, optimization

Abstract

Svrha ovog rada je izraditi model za optimizaciju punjenja, odnosno pražnjenja baterijskog spremnika više električnih vozila, na primjeru zgrade na čijem je krovu ugrađena fotonaponska elektrana i koja ima zajedničko parkiralište na kojem se sama vozila spajaju na punionice. Postavljena je teorijska osnova za moderna električna vozila dostupna na tržištu. Navedene su i objašnjene glavne tehnologije, fotonaponskih modula te sami fotonaponski sustavi. Postavljena je funkcija cilja za minimizaciju troškova električne energije zgrade te je izrađen računalni model u programu GAMS za optimizaciju korištenja baterija električnih vozila. Nakon primjene optimiziranog modela na različite scenarije, prikazani su rezultati simulacije, konačni troškovi i komentari za svaki scenarij. The purpose of this work is to create a model for optimizing the charging and discharging of the battery tank of several electric vehicles, using the example of a building on the roof of which a photovoltaic power plant is installed and which has a common parking lot where the vehicles themselves are connected to charging stations. The theoretical basis for modern electric vehicles available on the market has been laid. The main technologies of photovoltaic modules and the photovoltaic systems themselves are listed and explained. An objective function was set to limit building costs, and a computer model was created in the GAMS program to optimize the use of electric vehicle batteries. After applying the optimized model to different scenarios, simulation results, final costs and comments for each scenario are presented.

Published

2022

10. Application of the PV systems for power supply of Heat Pumps

Author

Buzov, Dominik and Topić, Danijel

Subjects

obnovljivi izvori energije, power supply, napajanje, heat pumps, photovoltaic systems, fotonaponski sustavi, toplinske crpke, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, renewable energy sources

Abstract

Svijet sve više prepoznaje važnost obnovljivih izvora energije, što je vidljivo po porastu novoinstaliranih kapaciteta iz godine u godinu. Prethodne 2021. godine instalirano je čak 315 GW novih obnovljivih izvora energije, a tu važnost uočava i Republika Hrvatska, koja po udjelu obnovljivih izvora energije u konačnoj potrošnji električne energije premašuje prosjek Europske unije. Ovim radom nastoji se utvrditi isplativost fotonaponskih sustava za napajanje toplinskih crpki, na način da se postojeće grijanje na plin objekta u Slavonskom Brod zamjenilo toplinskom crpkom (zrak-voda) napajanom fotonaponskim sustavom. Postojeći sustav grijanja predstavlja stvarno stanje potrošnje, preračunato po trenutnim tržišnim cijenama, dok je potrošnja toplinske crpke procijenjena na temelju energije potrošene u prvom slučaju. Radom se zaključilo kako je za povrat investicije potrebno 11 godina po trenutnim tržišnim cijenama, kako energenata tako i samih sustava. Utvrđeno je da je kombinacija fotonaponskih sustava i toplinskih crpki ekonomična i profitabilna investicija. The world is recognizing the importance of renewable energy sources, which is evident from the increase in newly installed capacities from year to year. In the previous year2021, as many as 315 GW of new renewable energy sources were installed, and this importance is also noticed by Republic of Croatia, which exceeds the average of the European Union in terms of the share of renewable energy sources in the final consumption of electricity. This work aims to determine the profitability of photovoltaic systems for powering heat pumps, in such a way that the existing gas heating of an object in the city of Slavonski Brod is replaced by a heat pump (air-water) powered by a photovoltaic system. The existing heating system represents the actual state of consumption, recalculated at current market prices, while the counsumption of the heat pump is estimated bassed on the energy consumed in the first case. The work concluded that it takes 11 years to pay back the investment at current market prices, both for energy sources and for the systems themselves. It was found that the combination of photovoltaic systems and heat pumps is an economical and profitable investment.

Published

2022

11. Influence of ASIC hardware on the power quality in the distribution network

Author

Beretić, Mario and Klaić, Zvonimir

Subjects

filters, ASIC hardware, Power quality, harmonics, Kvaliteta električne energije, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, filteri, harmonici, ASIC sklopovlje

Abstract

Svakim danom se povećava broj potrošača u sustavu. Većina novih potrošača sadrže neke sklopove energetske elektronike. Takvi uređaji imaju jako velik utjecaj na parametre kvalitete električne energije. Ako je veliki broj takvih potrošača priključen na mrežu može doći do znatnih promjena napona i frekvencije koje će rezultirati raznim problemima prilikom opskrbe, a može doći i do potpunog prekida opskrbe. Najveći problem takvih trošila je pojava viših harmonika koji predstavljaju odstupanje valnog oblika od pravilne sinusoide. Problemi ovog tipa rješavaju se pomoću aktivnih i pasivnih filtera iako se često koristi i kombinacija. Stoga, potrebno je provjeriti utjecaj jednog takvog trošila na pokazatelje kvalitete električne energije. ASIC uređaji se jako rijetko samostalno spajaju na mrežu, većinom su to postrojenja od nekoliko kilovata. Zbog nemogućnosti mjerenja kvalitete električne energije cijelog postrojenja, problem je riješen pomoću metode skaliranja i simulacijom u programskom alatu. The number of consumers in the system is increasing every day. Most of the new consumers contain some power electronics circuits. Such devices have a very large influence on the parameters of the power quality. If a large number of such consumers are connected to the network, significant changes in voltage and frequency may occur, which will result in various problems during supply, and there may also be a complete interruption of supply. The biggest problem of such consumers is the appearance of current harmonics, which represent a deviation of the waveform from a regular sinusoid. Problems of this type are solved using active and passive filters, although a combination is often used. Therefore, it is necessary to check the influence of such a consumer on the indicators of the power quality. ASIC devices are rarely connected to the network independently, mostly they are plants of several kilowatts. Due to the impossibility of measuring the quality of electricity of the entire plant, the problem was solved using the scaling method and simulation in software tool.

Published

2022

12. Installation of photovoltaic systems

Author

Golić, Luka, Šljivac, Damir, and Žnidarec, Matej

Subjects

photovoltaic module, instalirana snaga, fotonaponski modul, photovoltaic plant, fotonaponsko postrojenje, elektroenergetska mreža, mjerenja, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, measurements, installed power, electric power network

Abstract

Diplomski rad „Instaliranje fotonaponskih postrojenja“ bavi se opisom realizacije projekta za izgradnju fotonaponske elektrane, odnosno fotonaponskog postrojenja. U radu su raščlanjeni dijelovi elektrane, počevši s osnovnom jedinicom elektrane, fotonaponskim modulom koji se sastoji od niza fotonaponskih ćelija. Prikazano je kako se spajanjem fotonaponskih modula mogu dobiti upotrebljivi iznosi napona i struja. Za prikaz procesa instalacije uzet je primjer elektrane instalirane snage 230 kW s priključkom na elektroenergetsku mrežu koja je podijeljena u dva fotonaponska sustava. Daje se detaljan popis opreme uključujući tehničke karakteristike korištenih pretvarača i modula. Opisan je redoslijed montažnih radova s popratnim fotografijama pojedinih dijelova montaže. Nakon toga navedeni su elaborati utjecaja elektrane na elektroenergetsku mrežu i elaborat podešenja zaštite te opisana su dodatna mjerenja koja su potrebna da bi se elektrana mogla sigurno i bez smetnji pustiti u pogon. The Master thesis "Installation of photovoltaic plants" deals with the description of the project implementation for the construction of a photovoltaic power plant. The paper breaks down the parts of the power plant, starting with the basic unit of the power plant, the photovoltaic module, which consists of a series of photovoltaic cells. It is shown how usable amounts of voltage and current can be obtained by connecting photovoltaic modules. To illustrate the installation process, an example of a power plant with an installed power of 230 kW with a connection to the power grid, which is divided into two photovoltaic systems, is taken. A detailed list of equipment is given, including the technical characteristics of the used inverters and modules. The sequence of assembly works is described with accompanying photos of individual assembly parts. After that, studies of the influence of the power plant on the electric power network and the study of protection settings are listed, and additional measurements are described, which are necessary in order for the power plant to be put into operation safely and without problems.

Published

2022

13. Electric and magnetic field of lines for different configurations of transmission line poles

Author

Budim, Nikola and Knežević, Goran

Subjects

magnetsko polje, električno polje, stupovi dalekovoda, magnetic field, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, transmission line poles, electric field

Abstract

U uvodnom dijelu rada opisan je značaj električnog i magnetskog polja te zadatak ovog rada. U drugom poglavlju pregledavajući različitu literaturu opisani su štetni utjecaji elektromagnetskih polja kao i načini smanjenja štetnosti istih. Osnovna teorijska podloga o električnom i magnetskom polju opisana je u naredna dva poglavlja ovog rada. U petom poglavlju su opisane razne konfiguracije stupova, sastavni dijelovi svakog stupa kao i materijali od kojih se izrađuju. U narednom poglavlju opisani su parametri modela, granične vrijednosti jakosti elektromagnetskih polja, rezultati simulacija te njihova analiza. U sedmom poglavlju opisani su i uspoređeni rezultati simulacija za različite konfiguracije stupova dalekovoda. The introductory part of the paper describes the importance of electric and magnetic fields and the task of this paper. In the second chapter, reviewing various literature, the harmful effects of electromagnetic fields are described, as well as ways to reduce their harmfulness. The basic theoretical background of electric and magnetic fields is described in the next two chapters of this paper. The fifth chapter describes various configurations of transmission line poles, their constituent parts, as well as the materials from which they are made. The next chapter describes the parameters of the models of transmission line poles, the limit values of the strength of electromagnetic fields, and the results of the simulations and their analysis. The seventh chapter describes and compares the results of simulations for different configurations of transmission line poles.

Published

2022

14. Zero energy buildings with high RES share

Author

Oreški, Josip and Šljivac, Damir

Subjects

HOMER Grid, zero energy buildings, obnovljivi izvori energije, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, ergetske zgrade, renewable energy sources, techno-economical analysis, tehnološkoe

Abstract

Cilj ovog rada je definirati pojam nula energetske zgrade, opisati trenutno stanje najbolje dostupnih tehnologija za postizanje nZEB standarda i simulacijom u programskom paketu HOMER Grid postići nZEB standard optimizacijom i tehnološko-ekonomskom analizom fotonaponskog sustava i baterijskog sklopa spojenih na mrežu za obiteljsku kuću na lokaciji Tenja. Rezultati simulacije su pokazali kako je sustav za pohranu električne energije u početku bio uključen, ali je kasnije uklonjen kako bi se ostvarile veće uštede i optimizirao udio obnovljive energije. Udio energije iz obnovljivih izvora se povećao na 62,7%, dok se nivelirani trošak (LCoE) smanjio sa 0,883 kn/kWh na 0,199 kn/kWh. U današnje vrijeme gotovo je nemoguće postići nZEB standard obiteljske kuće bez vlastite proizvodnje. Osim što fotonaponski sustavi smanjuju trošak električne energije, u korelaciji sa drugim sustavima grijanja kao na primjer sa toplinskom crpkom mogu uvelike smanjiti mjesečne troškove za grijanje. The aim of this study is to define the concept of zero energy building, describe current state and best avaliable technologies for achieving the nZEB standard and, conduct a techno-economic performance and optimisation analysis of grid-connected photovoltaic system and battery packs for residential house situated in Tenja. The simulation software HOMER Grid was used to analyse and optimise the renewable energy required by the institution. The simulation results showed that the energy storage system was initially included, but it was later removed to achive greater savings and optimeze the share of renewable energy. The renewable energy faction incresed to 62,7%, while local cots of energy (LCoE) decresed from HRK 0,883/kWh to HRK 0,199/kWh. Nowadays, it is almost impossible to achive the nZEB standard of residential house without on-site electricity production. In addition to the fact that photovoltaic system reduce the cost of electricity, in combination with other heating systems, such as heat pump, they can greatly reduce monthly heating bills.

Published

2022

15. Application of active power filter (PQFS) in the distribution network

Author

Ćosić, Nives, Klaić, Zvonimir, and Primorac, Mario

Subjects

active filter, generator harmonika, nonlinear loads, harmonic generator, distribucijska mreža, harmonics, aktivni filter, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, harmonici, distribution network, nelinearna trošila

Abstract

Ovaj diplomski rad govori o problematici pojave naponskih i strujnih harmonika u distribucijskoj mreži, kao i o metodama za ublažavanje njihovog utjecaja na mrežu i kvalitetu električne energije. Prvotno je definiran pojam harmonika i nelinearnih trošila, objašnjeno je harmonijsko izobličenje signala matematičkom analizom te je dana podjela i opis harmonika u trofaznom sustavu. Osim toga predstavljeni su najvažniji izvori strujnih i naponskih harmonika, a potom i utjecaj harmonika na elektroenergetsku mrežu i uređaje. Također, definirani su i pokazatelji harmonijskog izobličenja, a bilo je nužno i predstaviti norme kvalitete električne energije koje propisuju udio viših harmonika napona i struje u distribucijskoj mreži. Nadalje, navedena i objašnjena su neka od postojećih rješenja za snižavanje utjecaja viših harmonika, s naglaskom na ugradnji aktivnih filtera. Opisan je princip rada paralelnih, serijskih, UPQC i hibridnih aktivnih filtera. Na kraju, opisana je sama oprema i dane su upute za rukovanje aktivnim filetrom. Prikazan je primjer unosa harmonika u generator harmonika i aktivni filter, te na temelju izmjerenih veličina, analiziran povratni utjecaj filtera na mrežu. Donesen je zaključak o utjecaju harmonika na mrežu i učinkovitosti aktivnog filtera na snižavanje iznosa viših harmonika u distribucijskoj mreži. Ključne riječi: Ovaj diplomski rad govori o problematici pojave naponskih i strujnih harmonika u distribucijskoj mreži, kao i o metodama za ublažavanje njihovog utjecaja na mrežu i kvalitetu električne energije. Prvotno je definiran pojam harmonika i nelinearnih trošila, objašnjeno je harmonijsko izobličenje signala matematičkom analizom te je dana podjela i opis harmonika u trofaznom sustavu. Osim toga predstavljeni su najvažniji izvori strujnih i naponskih harmonika, a potom i utjecaj harmonika na elektroenergetsku mrežu i uređaje. Također, definirani su i pokazatelji harmonijskog izobličenja, a bilo je nužno i predstaviti norme kvalitete električne energije koje propisuju udio viših harmonika napona i struje u distribucijskoj mreži. Nadalje, navedena i objašnjena su neka od postojećih rješenja za snižavanje utjecaja viših harmonika, s naglaskom na ugradnji aktivnih filtera. Opisan je princip rada paralelnih, serijskih, UPQC i hibridnih aktivnih filtera. Na kraju, opisana je sama oprema i dane su upute za rukovanje aktivnim filetrom. Prikazan je primjer unosa harmonika u generator harmonika i aktivni filter, te na temelju izmjerenih veličina, analiziran povratni utjecaj filtera na mrežu. Donesen je zaključak o utjecaju harmonika na mrežu i učinkovitosti aktivnog filtera na snižavanje iznosa viših harmonika u distribucijskoj mreži. This master's thesis deals with the issue of voltage and current harmonics that occur in distribution networks, as well as the methods to mitigate their impact on the power grid and power quality. First, the definitions of harmonics and nonlinear loads are defined, the harmonic signal distortion is explained by mathematical analysis, and the description of harmonics in a three-phase system is given. Furthermore, the most important sources of current and voltage harmonics are presented and the impact of harmonics on the power grid and equipment is described. Besides that, harmonic distortion indicators were defined, as well as power quality standards that specify the content of higher voltage and current harmonics in distribution networks. In addition, some solutions for harmonic effects minimization are listed and explained, focusing on the installation of active power filters. The working principle of shunt, series, UPQC, and hybrid active power filters is described. Finally, the device description and operating instructions of active power filter are given. An example of harmonic input into the harmonic generator and active filter is shown. The effect active power filter have on distribution networks is analyzed based on the measured values. The conclusion gives an insight about the influence harmonics have on the distribution network and the effect of active power filters have in reducing harmonic distortion.

Published

2022

16. Design of photovoltaic system with example of PV plant KBC Osijek 230 kW

Author

Mikić, Andreja, Šljivac, Damir, and Žnidarec, Matej

Subjects

main project, PV*SOL Premium, photovoltaic modules, glavni projekt, designing, photovoltaic cells, projektiranje, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, photovoltaic system, fotonaponske ćelije, električna energija, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, electrical energy, fotonaponski sustav, fotonaponski moduli

Abstract

Cilj uporabe obnovljivih izvora energije za proizvodnju električne energije je čistija proizvodnja električne energije te neovisnost o fosilnim gorivima Zato se sve veći napori ulažu u razvoj tehnologije fotonaponskih sustava. Svrha ovog rada bila je teorijski proći kroz postupke projektiranja i dimenzioniranja fotonaponskog sustava, te u programskog paketu PV*SOL Premium simulirati fotonaponski sustav Kliničkog bolničkog centra Osijek prema glavnom projektu. Instalirana snaga elektrane je 230 kW i podijeljena je u dva podsustava. Prvi podsustav je zgrada prehrane na čiji krov se predviđa instalacija fotonaponskog sustava od 110 kW, a drugi podsustav čine zgrade radiologije i onkologije na koje se planirala instalacija fotonaponskog sustava 120 kW. Na kraju analize svih tehničkih podataka bilo je potrebno ispitati ekonomsku isplativost instalacije takvog fotonaponskog sustava. Ključne riječi: fotonaponski sustav, fotonaponski moduli, fotonaponske ćelije, električna energija, PV*SOL Premium, projektiranje, glavni projekt. The goal of using renewable energy sources for the production of electrical energy is a cleaner production of electrical energy and independence from fossil fuels. That is the reason why more and more efforts are being invested in the development of photovoltaic system technology. The purpose of this thesis was to theoretically go through the procedures of designing and dimensioning the photovoltaic system and to simulate the photovoltaic system of the Osijek Clinical Hospital Center in the program package PV*SOL Premium according to the main project. The installed power of the power plant is 230 kW and it is divided into two subsystems. The first subsystem is a catering building on which's roof a 110 kW photovoltaic system is planned to be installed, meanwhile a second subsystem consists of radiology and oncology buildings on which a 120 kW photovoltaic system is planned to be installed. At the end of the analysis of all the technical data, it was necessary to examine the economic viability of installing photovoltaic system.

Published

2022

17. Comparison of heat pumps energy performances

Author

Šplajt, Luka and Šljivac, Damir

Subjects

Heat pumps, Toplinski množitelj, Energetske performanse, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, Učinkovitost, Coefficient of performance [Key words], Efficiency, Energy performance, Obnovljivi izvori energije, Toplinske crpke, Renewable energy sources

Abstract

U ovom radu razmatraju se različite izvedbe toplinskih crpki, po čemu se razlikuju, te koje su im prednosti i mane. U prvome dijelu smo započeli sa definicijom toplinskih crpki, te njihovoj povijesti. Zatim smo odredili toplinski množitelj, te godišnji toplinski množitelj. Nakon toga smo odredili prednosti i mane, tipove, izvore i načine rada toplinskih crpki. Detaljno smo analizirali izvore toplinske energije i tipove toplinskih crpki koje se koriste njima. Definirali smo radne točke, temperaturne režime i vanjske faktore bitne kod rada toplinskih crpki. Za kraj smo krenuli sa analizom energetskih performanci, počevši od definiranja energetskih performansi za ovaj rad, te simuliranjem grijanja objekta različitim toplinskim crpkama u dva načina rada, u GeoT*Sol programu. Title: Comparison of heat pump energy performances In this thesis we look at different heat pump solutions, what makes them different from one another and what are their pros and cons. In the first part we started with the definition of heat pumps, aswell as their history. After that, we defined the Coefficient of performance and Seasonal performance factor. Next, we took a look at the pros and cons, types, sources and work modes of heat pumps. We have analysed the energy sources and types of heat pumps that use them, in detail. We have defined the work points, temperature regimes and outer factors that are important for heat pump operation. For the end we have started by energy performance analysis, starting with defining energy performance for this thesis, aswell as simulating the heating of an object via various heat pump types, in two operation modes, in GeoT*Sol aplication. Key words: Coefficient of performance, Efficiency, Energy performance, Heat pumps, Renewable energy sources

Published

2022

18. Application of smart sensors and visualization systems in agriculture

Author

Ester, Josip and Dorić, Dražen

Subjects

poljodjelstvo, vizualization elements, vizualizacijski sustavi, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, smart senzor, agriculture

Abstract

Suvremena poljoprivreda suočava se sa sve većim zahtjevima, uz loše vremenske prilike poput suše i čestih nanosa leda poljoprivrednicima je teško osigurati vrhunski proizvod a da pri tome imaju što manje troškove i da je sirovina (proizvod) zadovoljavajuće kvalitete. Razvoj Internet stvari (IoT) i pametnih senzorskih sustava omogućio je poljoprivrednicima da na precizniji i brži način mogu pratiti stanje usjeva na poljoprivrednim površinama. Osim toga, poljoprivrednici sada imaju uvid u karakteristike tla i biljaka što im omogućuje da optimiziraju korištenje gnojiva, pesticida i ostalih resursa što će naravno smanjiti troškove proizvodnje. Modern agriculture is faced with increasing demands, with bad weather conditions such as drought and frequent ice deposits, it is difficult for farmers to provide a top quality product while keeping costs as low as possible and that the raw material (product) is of satisfactory quality. The development of the Internet of Things (IoT) and smart sensor systems has enabled farmers to monitor the condition of crops on agricultural land in a more precise and faster way. In addition, farmers now have insight into soil and plant characteristics, which allows them to optimize the use of fertilizers, pesticides and other resources, which will naturally reduce production costs.

Published

2022

19. Modeliranje lokalnoga tržišta električnom energijom na razini distribucijskih mreža

Author

Herenčić, Lin and Rajšl, Ivan

Subjects

obnovljivi izvori energije, Elektrotehnika, distribucijska mreža, Energy Community, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, Renewable Energy Sources, udc:621.3(043.3), Local Energy Market, energetska zajednica, Peer-to-Peer Energy Trading, Electrical engineering, lokalno tržište električnom energijom, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, uzajamno trgovanje električnom energijom, Distribution Network

Abstract

The energy sector is characterized by a growing share of variable renewable energy sources, primarily solar and wind power plants, and the spread of electrification in the heating, transport and industry sectors. Such trends require an increase in flexibility in the power system, which can be achieved by developing smart grids and new business models. The dissertation explores the potential of local energy markets to mitigate unfavourable consumption/production patterns and contribute to maintaining voltages and currents within limits. Furthermore, if local energy trading can increase the competitiveness of local flexibility providers and improve social welfare, meaning it could serve as a mean to enhance the integration of renewable energy sources in electrical distribution networks through price incentives for supply/demand balancing. The original scientific contribution was achieved as follows: 1. Short-term model for near real-time local electricity market over a distribution network; 2. Method for determining the effects of local energy trading on voltage profiles and power flows over electrical distribution networks; and 3. Method for assessing the impacts of the local electricity market on market participants. Energetski sektor karakterizira rastući udio varijabilnih obnovljivih izvora energije, prvenstveno sunčanih i vjetrenih elektrana, te širenje elektrifikacije u sektorima grijanja, prometa i industrije. Ovakvi trendovi zahtijevaju povećanje fleksibilnosti u elektroenergetskom sustavu što se može postići razvojem naprednih mreža i novih poslovnih modela. Disertacija istražuje potencijal lokalnih energetskih tržišta za ublažavanje nepovoljnih obrazaca potrošnje i proizvodnje te doprinos održavanju napona i struja unutar granica u distribucijskim mrežama. Nadalje, modelira se i analizira mogućnost lokalnog trgovanja za povećanje konkurentnosti lokalnih pružatelja usluga fleksibilnosti i poboljšanje društvenog blagostanja, odnosno njihov potencijal za poboljšanje integracije obnovljivih izvora energije u elektroenergetske distribucijske mreže putem cjenovnih poticaja za uravnoteženje ponude i potražnje. Izvorni znanstveni doprinos postignut je na sljedeći način: 1. Kratkoročni model za lokalno tržište električne energije u gotovo stvarnom vremenu na razini distribucijske mreže; 2. Metoda za određivanje utjecaja lokalnog trgovanja električnom energijom na profile napona i tokove snaga u lokalnoj distribucijskoj mreži; i 3. Metoda za procjenu učinka lokalnih tržišta električnom energijom na tržišne sudionike.

Published

2022

20. Specifics of short circuit current calculation in networks with different renewables technologies

Author

Jukić, Anica and Fekete, Krešimir

Subjects

biogas power plant, photovoltaic system, DigSILENT, kratak spoj, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, short circuit, fotonaponski sustav, bioplinska elektrana

Abstract

U ovom radu je opisan utjecaj distribuiranih izvora temeljenih na inverteru i sinkronih generatora na struju kratkog spoja. Na primjeru 10/0,4 kV niskonaponske distributivne mreže proračunata je jednofazna i trofazna struja kratkog spoja pomoću programa DigSILENT. Proračun je izvršen za četiri slučaja: kada nisu spojeni fotonaponski sustav i bioplinska elektrana, kada je spojen fotonaponski sustav, kada je spojena bioplinska elektrana i kada su spojeni i bioplinska elektrana i fotonaponski sustav. Na kraju je analiziran doprinos fotonaponskog sustava (distribuiranog izvora temeljenog na inverteru) i bioplinske elektrane (temeljene na sinkronom generatoru) na struju kratkog spoja. This paper describes the influence of distributed sources based on inverters and synchronous generators on the short-circuit current. On the example of a 10/0.4 kV low-voltage distribution network, single-phase and three-phase short-circuit currents were calculated using the DigSILENT program. The calculation was made for four cases: when the photovoltaic system and the biogas power plant are not connected, when the photovoltaic system is connected, when the biogas power plant is connected and when both the biogas power plant and the photovoltaic system are connected. At the end, the contribution of the photovoltaic system (distributed source based on the inverter) and the biogas power plant (based on the synchronous generator) to the short-circuit current was analyzed.

Published

2022

21. Impact of amendments to the Renewable Energy Sources and High Efficiency Cogeneration Act on FNE

Author

Kocijan, Filip and Kraus, Zorislav

Subjects

testiranje, web aplikacija, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, application programming interface, automotive, automotiv, web application, baza podataka, database, testing, aplikacijsko programsko sučelje

Abstract

U ovom diplomskom radu opisana je primjena baze podataka u sustavu za testiranje programske podrške u automobilskoj industriji. Na početku rada opisane su tehnologije korištene za izradu baze podataka i web aplikacije, postojeća rješenja problema i usporedbe između NoSQL i SQL baze podataka te koji je model pogodniji za izvršavanje postojećih zahtjeva. U trećem poglavlju prikazani su dizajn i implementacija baze podataka i aplikacijsko programskog sučelja (API). Opisane su i prikazane metode za dodavanje, brisanje, pregled i uređivanje podataka iz baze podataka pomoću aplikacijsko programskog sučelja implementiranog u Python Flask programskom jeziku. Četvrto poglavlje sadrži testiranje dijelova i cjelokupnog sustava, tablični i grafički prikaz rezultata testova. Na kraju rada nalaze se zaključak cijelog rada i priloženi kodovi za implementaciju aplikacijsko programskog sučelja. In this master thesis was described application of the database in the system for testing software support in automotive industry. At the beginning of the work, the technologies used to create the database and web application are described, existing solutions to problems and comparisons between NoSQL and SQL databases and which model is more suitable for the execution of existing requirements. The third chapter presents the design and implementation of the database and the application programming interface (API). Methods for adding, deleting, viewing and editing data from the database using the application programming interface implemented in the Python Flask programming language are described and presented. The fourth chapter contains testing of parts and the entire system, tabular and graphical presentation of test results. At the end of the thesis, there is a conclusion of the entire thesis and attached codes for the implementation of the application programming interface.

Published

2022

22. Optimal bid of aggregators of networked battery storages and renewable sources in the energy and ancillary services market

Author

Jukić, Ilija and Knežević, Goran

Subjects

model agregata, electricity markets, tržišta električne energije, baterijski spremnici, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, aggregate model, battery tanks

Abstract

U ovom radu dan opis tržišta električne energije i njegovih sudionika, objašnjen je pojam aktivnog kupca kao sudionika na tržištu, te agregatora. Objašnjena je mogućnost vršenja pomoćnih usluga u elektroenergetskom sustavu i način nastupa na tržištu pomoćnih usluga te temeljne karakteristike za mogućnost pružanja pomoćnih usluga. Izvršen je opis fotonaponskih sustava te utjecaj obnovljivih izvora na EES. Opisani su različiti tipovi baterijskih spremnika, te je zasebno opisan Li-ion tip baterijskih spremnika korišten za izradu modela. Opisan je matematički model agregatora umreženih baterijskih spremnika i fotonaponskog sustava za nastup na energetsko i tržište pomoćnih usluga te su prikazani rezultati dobiveni simulacijom modela. This paper describes the power market and its participants, explains the concept of an prosumer as a market participant, and an aggregator. The possibility of performing ancillary services in the electric power system and the way of trading on the market of ancillary services, as well as the basic characteristics for the possibility of providing ancillary services, are explained. Photovoltaic systems are described and the influence of renewable sources on EES. Different types of batteries are described, and the Li-ion type of batteries used to make the model is described separately. The mathematical model of the aggregator of combined battery systems and photovoltaic systems for entry into the power and ancillary services market is described, and the results obtained from the model simulation are presented

Published

2022

23. Measuring system for fault detection in electrical machines

Author

Mores, Mislav and Ćorluka, Venco

Subjects

kvar, spektralna analiza, diagnostics, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, dijagnostika, električni motor, electric motor, spectral analysis, failure

Abstract

Glavni cilj ovog rada bio je navesti i opisati najčešće moguće kvarove kod električnih strojeva u radnom pogonu, te navesti i opisati sve moguće mjerne metode za otkrivanje kvarova i na osnovu svakog mjerenja spektralnom analizom dati ocjenu stanja svakog pojedinog dijela stroja. U prvom dijelu rada navedene su i opisane vrste kvarova. Kvarovi električnog stroja podijeljeni su po njegovim dijelovima, to jest kvarovi rotora, statora, namota, ležaja i osovine. U drugom dijelu rada opisan je velik broj metoda za otkrivanje kvarova, a to su: vizualni pregled kao najstarija metoda, mjerenje vibracija, mjerenje temperature, termovizijska dijagnostika, upotreba penetranta, metoda provjere utrazvukom, mjerenje struje i otpora rotora, mjerenje magnetskog polja i mjerenje fizikalnih veličina osovine. Na kraju rada posebno je opisana metoda spektralne analize. The main task of this work was to list and describe the most common possible failures of electrical machines in operation, and to list and describe all possible measurement methods for detecting failures and, based on each measurement, to give an assessment of the condition of each individual part of the machine through spectral analysis. In the first part of the work, the types of failures are listed and described. Electrical machine failures are divided by its parts, i.e. rotor, stator, winding, bearing and shaft failures. In the second part of the paper, a large number of methods for detecting faults are described, like visual inspection as the oldest method, vibration measurement, temperature measurement, thermal imaging diagnostics, use of penetrants, ultrasonic testing method, measurement of rotor current and resistance, measurement of the magnetic field and measurement physical dimensions of the shaft. At the end of the paper, the spectral analysis method is specifically described.

Published

2022

24. Techno-economic analysis of the installation of energy-efficient distribution transformers

Author

Liović, Robert and Topić, Danijel

Subjects

conventional transformer, energetski učinkoviti transformator, gubici transformatora, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, gubici distributivne mreže, konvencionalni transformator, transformer losses, distribution nerwork losses, energy – efficient transformer

Abstract

Diplomski rad opisuje ulogu energetskih transformatora u elektroenergetskom sustavu, objašnjen je princip rada i opisani su konstrukcijski dijelovi. Prikazani su parametri transformatora u ovisnosti o naponskoj razini i napravljena je usporedba konvencionalnih i energetski učinkovitih transformatora u pogledu dimenzija i gubitaka. Zbog sve veće cijene energije i utjecaja na okoliš Europska unija donosi mjere kojima se žele smanjiti gubici energetskih transformatora. Cilj rada je prikazati kakav će biti utjecaj na distributivnu mrežu u pogledu smanjenja gubitaka nakon ugradnje energetski učinkovitih transformatora i isplati li se njihova investicija. U praktičnom dijelu rada korištenjem programskog paketa DigSILENT Power Factory izrađena je distributivna mreža u kojoj je 5 konvencionalnih transformatora naponske razine 20/0,4 kV zamijenjeno energetski učinkovitim. Provođenjem simulacije ukupni gubici u mreži se smanjuju za 16,02 kW (2,43 %). Investicija u energetski učinkovite transformatore je opravdana, a procijenjena je na temelju troška posjedovanja TCO transformatora. Ukupna novčana ušteda koja bi se ostvarila u mreži nakon 40 godina iznosi 2.222.098,31 kn. The thesis describes the role of transformers in the power system, the principle of operation is explained and the structural parts are described. The parameters of the transformer are shown depending on the voltage level and a comparison of conventional and energy – efficient transformers in terms of dimensions and losses is made. Due to the ever – increasing price of energy and the impact on the environment, the European Union is adopting measures aimed at reducing the losses of distribution transformers. The aim of the paper is to show the impact on the distribution network in terms of loss reduction after the installation of energy – efficient transformers and whether their investment is justified. In the practical part of the paper, using the DigSILENT Power Factory software, a distribution network was created in which 5 conventional transformers of voltage level 20/0,4 kV were replaced with energy – efficient ones. By running the simulation, the total losses in the network are reduced by 16,02 kW (2,43 %). The investment in energy – efficient transformers is justified, and was evaluated based on the total cost of ownership TCO. The total financial savings that would be realized in the network after 40 years amounts to 2.222.098,31 kn.

Published

2022

25. Power quality monitoring in the building of the Faculty of Electrical Engineering, Computer Science and Information Technologies Osijek

Author

Balenović, Ivan and Klaić, Zvonimir

Subjects

mjerenje, analiza, indicator, measurement. analysis, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, pokazatelj, Quality, photovoltaics, PQube, Kvaliteta, fotonapon, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, energija, energy

Abstract

U ovom radu prikazani su parametri napona kao pokazatelji kvalitete električne energije, koji se mjere i analiziraju posebnim uređajima. Mjerenja i analiza provedena je s uređajem PQube 3e proizvođača Powerside. Kvaliteta dovedene električne energije utječe na komfor kućanstava, dok kod industrija može uzrokovati financijske gubitke i kvarove. Utjecaj distribuiranih izvora ima sve veći utjecaj u kvaliteti isporučene električne energije. Mijenja se prikazivanje tokova energije od proizvođača do potrošača, dižu se naponske razine, jer u modernim mrežama potrošač može imati dualnu ulogu potrošača i proizvođača. Zbog promjene potrošnje tijekom dana u zgradi fakulteta, mijenja se i naponska razina. Fotonaponska elektrana ima velik utjecaj kod promjene naponske razine tako što diže naponsku razinu tijekom sunčanih sati u danu. This paper presents the voltage parameters as indicators of the quality of electricity, which are measured and analyzed with special devices. Measurements and analysis were carried out with the PQube 3e device manufactured by Powerside. The quality of supplied electricity affects the comfort of households, while it can cause financial losses and breakdowns in industries. The influence of distributed sources has an increasing impact on the quality of delivered electricity. The presentation of energy flows from producer to consumer is changing, voltage levels are rising, because in modern networks the consumer can have a dual role of consumer and producer. Due to the change in consumption during the day in the faculty building, the voltage level also changes. Photovoltaic power plant has a big impact on changing the voltage level by raising the voltage level during the sunny hours of the day.

Published

2022

26. Project management analysis

Author

Kvesić, Filip and Stojkov, Marinko

Subjects

leadership, vođenje, coordination, project, koordinacija, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, projekt, planning, planiranje

Abstract

Dobro vođenje projekta vrlo je bitno za konačnu dobru realizaciju projekta. Bitno je dobro se upoznati s gradilištem i elektrotehničkim projektom kako bi se na vrijeme mogle poduzimati eventualne korekcije. Međusobna komunikacija svih izvođača vrlo je bitna iz razloga što su jedni drugima potrebni za dobru realizaciju projekta. Pri radu se treba pripaziti na sigurnost i zaštitu svih radnika i ljudi koji se mogu naći na gradilištu, a radnike je potrebno rasporediti prema trenutnoj situaciji posla na gradilištu. Nakon završetka posla potrebno je provesti sva ispitivanja koja su propisana te pripremiti svu dokumentaciju za tehnički pregled nakon kojeg se posao smatra zaključenim. Good project management is very important for the final good realization of the project. It is important to get well acquainted with the construction site and the electrical project so that possible corrections can be made in time. Mutual communication of all contractors is very important because they need each other for a good project implementation. When working, care should be taken to ensure the safety and protection of all workers and people who may be on the construction site, and workers should be assigned according to the current job situation on the construction site. After the completion of the work, it is necessary to carry out all the tests that are prescribed and prepare all the documentation for the technical inspection after which the work is considered concluded.

Published

2022

27. Analysis of large adaptive loads impact on power system frequency stability

Author

Seder, Lidija and Marić, Predrag

Subjects

mikromreže, microgrid, stabilnost, power system, elektroenergetski sustav, električna vozila, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, stability, DIgSILENT, electric vehicles

Abstract

U ovom radu se opisuje mikromreža u kojoj se nalaze distribucijski izvori električne energije, te podjela i načini povezivanja mikromreže sa elektroenergetskim sustavom. Kroz rad se predstavljaju punionice električnih vozila, počevši od vrsta i načina punjenja te opisa pojedinih tipova električnih vozila. Na kraju rada predstavljena je analiza koja se provodi u programskom paketu DIgSILENT Power Factroy 2022. Pored navedenog u analizi se nalaze grafikoni kako bi se stekla šira slika primjene punionica za električna vozila u sklopu mikromreža, te utjecaj na naponsku i frekvencijsku stabilnost. This paper describes the microgrid in which the distribution sources of electricity are located, as well as the division and methods of connecting the microgrid to the power system. The paper presents charging stations for electric vehicles, starting with the types and methods of charging and descriptions of individual types of electric vehicles. At the end of the paper, an analysis is presented, which is carried out in the program package DIgSILENT Power Factroy 2022. In addition to the above, the analysis contains graphs in order to get a broader picture of the application of charging stations for electric vehicles as part of microgrids, and the impact on voltage and frequency stability.

Published

2022

28. ENERGY BALANCE OF CARS

Author

Tomeković, Josip and Glavaš, Hrvoje

Subjects

traffic, energy bilance, energetska bilanca, utility, promet, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, energetska učinkovitost, korisnost, energy efficiency

Abstract

Rad se odnosi na energetski prikaz tijeka energije kod osobnih vozila. Kako bi se prikazao tijek energije potrebno je osvrnuti se na svaki model pogonskih motora, jer svaki od njih ima određene prednosti i nedostatke. Opisani su svi trenutni izvedeni pogonski sustavi osobnih automobila te su iskazane njihove energetske učinkovitosti. Zatim su se opisivali drugi sustavi koji su podjednaki kod svih modela osobnih automobila, a to su prijenosni sistem koji je opisan kratkom analizom, te sistem kočenja i spomenuti su ostali gubitci. Prikaz učinkovitosti se prikazao kroz dinamičku promjenu brzine po putu. Prikazi su nam pokazali kako se u različitim situacijama energija mijenja, te kako je energija potrebna za kretanje upravo ovisna o brzini vozila i masi vozila. This thesis describes the energy display of the energy flow in personal vehicles. In order to show the flow of energy, it is necessary to take a look at each model of power units because each of them has some advantages, as well as disadvantages. In this dissertation are described all types of power units in personal vehicles and their energy efficiency. A similar system in all models of personal vehicles were discussed, too, such as transmission system covered by short analysis, breaking system and other losses. The efficiency system has been described as dynamic speed change along the way. Graphic representations have shown how energy is being changed in different situations and how energy needed for movement depends on speed of vehicles and vehicles mass.

Published

2022

29. DS SMITH PAPER PRODUCTION AND PROCESSING PLANT

Author

Janković, Ante and Barić, Tomislav

Subjects

corrugated cardboard, valoviti karton, generator, transformator, papirna rola, transformer, stari papir, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, old paper, paper roll

Abstract

Ovaj rad opisuje različite pogone tvornice za proizvodnju i preradu papira DS Smith. To su pogon za proizvodnju i preradu starog papira, proizvodnju kartonske ambalaže i pogon za proizvodnju električne i toplinske energije. U pogonu za proizvodnju i preradu papira navedeni su i opisani strojevi: (papir stroj 2 i papir stroj 3) koji sudjeluju u cijelom procesu prerade starog papira u papirne role. Na Wellpap stroju se od papirnih rola proizvode kartonske ploče. Strojevi (Bobst masterflex 160, Bobst 1600, Martin 924, Signode/Octopus) služe za tisak, štancanje i pakiranje kartonske ambalaže. Navedeni su postupci opskrbe, distribucije električne energije i svrha pojedinih elemenata kao što su generatori, transformatori i diesel-agregat. Naglašena je svrha zaštite i signalizacije u sustavu. Cijeli sadržaj je popraćen odgovarajućim slikama i shemama koje služe za približavanje slike rada pogona. This paper describes the various facilities of the DS Smith paper mill. These are the plant for production and processing of waste paper, the production of cardboard packaging and the plant for the production of electricity and thermal energy. In the plant for the production and processing of paper, the following machines are listed and described: (paper machine 2 and paper machine 3) which participate in the entire process of processing waste paper into paper rolls. Cardboard panels are produced from paper rolls on the Wellpap machine. Machines ((Bobst masterflex 160, Bobst 1600, Martin 924, Signode/Octopus) are used for printing, stamping and packaging of cardboard packaging. The procedures for supply and distribution of electricity and purpose of individual elements such as generators, transformers and diesel-generators are listed. The purpose of protection and signaling in the system is emphasized. The entire content is accompanied by appropriate pictures and diagrams that serve to bring the picture of the operation of the drive closer.

Published

2022

30. Chocolate production plant Kandit

Author

Jelošek, Filip and Barić, Tomislav

Subjects

Technological process, srednjenaponski blok, zaštita, niskonaponski blok, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, Tehnološki proces, medium voltage block, low voltage block, protection, electric motors, elektromotori

Abstract

U završnom radu obrađen je pogon tvornice čokolade Kandit d. o. o. . U prvom dijelu ukratko je opisana povijest Kandita, zatim je obrađen tehnološki proces proizvodnje mliječne čokolade na liniji Buhler, detaljno je opisana svrha i način rada svih strojeva koji sudjeluju u radu na ovoj liniji sve od ulaska sirovine u pogon do skladištenja i distribucije gotovog proizvoda. Obrađen je elektroenergetski sustav tvornice, od napajanja iz sustava HEP-a do svih drugih izvora napajanja tvornice. U nastavku završnog rada analizirane su rasvjeta i električne instalacije tvornice, a zatim zaštita i zaštitne mjere koje pružaju sigurnost pri radu, zatim je utvrđen broj elektromotora, njihove vrste i načini upravljanja. U zadnjem dijelu završnog rada napravljen je proračun ukupnog otpora uzemljenja tvornice čokolade Kandit. In the final paper, the plant of the chocolate factory Kandit d. o. o. was covered. In the first part of the final paper, the history of the Kandit is described. Next was described, the technological process of milk chocolate production on the Buhler line, the purpose, and mode of operation of all the machines participating in the work on this line, from the entry of raw materials into the plant to the storage and distribution of the finished product. The power system of the factory was processed, from the power supply from the HEP system to all other power sources of the factory. In the continuation of the final paper, the lighting and electrical installations of the factory were analyzed, followed by protection and protective measures that provide safety at work. Then the number of electric motors, their type, and control methods were determined. In the last part of the final paper, the calculation of the total grounding resistance of the Kandit chocolate factory was made.

Published

2022

31. Mitigating the influence of harmonics in the distribution network using an active power filter

Author

Felber, Matija, Klaić, Zvonimir, and Primorac, Mario

Subjects

viši harmonici, active power filter, distribucijska mreža, harmonics, nelinearno opterećenje, aktivni filter snage, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, nonlinear load, total harmonic distortion, distribution network, ukupno harmonijsko izobličenje

Abstract

Uvodni dio rada sadrži pregled područja teme i zadatak diplomskog rada. U trećem poglavlju opisana je teorijska osnova o harmonicima. U tom poglavlju navedeni su pokazatelji harmonijskog izobličenja i opisani su utjecaji harmonijskog izobličenja na pojedine elemente u distribucijskoj mreži. Zatim se opisuju elementi u distribucijskom sustavu koji se ponašaju kao izvor viših harmonika. Četvrto poglavlje navodi metode pomoću kojih se ublažuje utjecaj viših harmonika u distribucijskom sustavu. Peto poglavlje analizira primjenu aktivnog filtera snage za snižavanje iznosa harmonika u dijelu distribucijske mreže. Analiza je provedena u programskom paketu DIgSILENT Power Factory. U zadnjem poglavlju sažeti su glavni rezultati primjene aktivnog filtera snage. The introductory part of the paper contains an overview of the subject area and the task of the thesis. The third chapter describes the theoretical basics of harmonics. In that chapter, indicators of harmonic distortion are listed and the effects of harmonic distortion on individual elements in the distribution network are described. Then the elements in the distribution system that act as a source of harmonics are described. The fourth chapter lists the methods used to mitigate the influence of harmonics in the distribution system. The fifth chapter analyzes the application of an active power filter to reduce the amount of harmonics in a part of the distribution network. The analysis was performed in the DIgSILENT Power Factory software package. The last chapter summarizes the main results of the application of the active power filter.

Published

2022

32. TESTING OF PHOTOVOLTAIC POWER PLANTS IN PRACTICE

Author

Živković, Antonio and Glavaš, Hrvoje

Subjects

elektroluminiscencija, PN spoj, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, fotonaponski efekt, infracrvena termografija, fotonaponska ćelija, photovoltaic cell, I-U characteristic, photovoltaic effect, infrared thermography, electroluminescence, I-U karakteristika, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, vizualni pregled, PN junction, visual inspection

Abstract

Ovaj rad opisuje metode ispitivanja fotonaponskih elektrana u praksi te nedostatke i kvarove koji se mogu otkriti pojedinom metodom. Opisane su fizikalne osnove fotonaponskih modula, PN spoj i fotonaponski efekat. Navedena su i tehnička svojstva fotonaponskih panela, najčešće upotrebljeni materijali pri proizovdnji fotonaponskih ćelija, postupak proizdovnje te princip rada fotonaponske ćelije. Također definirani su fotonaponski sustavi, njihova osnovna podjela te dijelovi svake fotonaponske elektrane. Nadalje, u radu su detaljno opisane glavne metode ispitivanja fotonaponskih elektrana u praksi: vizualni pregled fotonaponskih modula, ispitivanje pomoću I-U karakterstike, testiranje infracrvenom termografijom te ispitivanje elektroluminiscencijom. Istaknute su karateristike ovih testiranja te kvarovi i nepravilnosti koji se mogu identificirati pojedinom metodom ispitivanja. Svi teorijski dijelovi upotpunjeni su formulana, tablicama i slikama iz prakse. This paper describes the methods of testing photovoltaic power plants in practice and the defects and faults that can be detected by a particular method. The physical basis of photovoltaic modules, the PN junction and the photovoltaic effect are described. The technical properties of photovoltaic panels, the most commonly used materials in the production of photovoltaic cells, the production process and the principle of operation of photovoltaic cells are also listed. Photovoltaic systems, their basic division and parts of each photovoltaic power plant are also defined. Furthermore, the paper describes in detail the main methods of testing photovoltaic power plants in practice: visual inspection of photovoltaic modules, testing using I-U characteristics, testing with infrared thermography and testing with electroluminescence. The characteristics of these testing failures and irregularities that can be identified by a particular testing method are highlighted. All theoretical parts are completed with formulas, tables and pictures from practice.

Published

2022

33. Energy efficiency using smart installations

Author

Šašlić, Đorđe and Klaić, Zvonimir

Subjects

Energy efficiency, napredne instalacije, smart installations, KNX, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, Energetska učinkovitost

Abstract

U završnom radu opisane su napredne instalacije i od kojih se dijelova sastoje, prikazano je povećanje energetske učinkovitosti primjenom samih naprednih instalacija u zgradarstvu. Isto tako, sve je to objašnjeno na primjeru obiteljske kuće u kojoj je prikazan raspored elemenata KNX sustava. U svrhu postizanja bolje energetske učinkovitosti trebaju se provoditi određeni zakoni i mjere. Cilj je upotreba što manje količine energije koja je potrebna da bi se obavio neki posao. In the final paper, smart installations are described and what parts they consist of, an increase in energy efficiency is shown through the use of smart installations in the building industry. Likewise, all of this is explained on the example of a family house in which the layout of the elements of the KNX system is shown. In order to achieve better energy efficiency, certain laws and measures should be implemented. The goal is to use as little energy as possible to get some work done.

Published

2022

34. Recyclability analysis and evaluation of photovoltaic panels

Author

Maglica, Anton, Rozing, Goran, and Buljić, Dalibor

Subjects

recikliranje, construction guidelines, photovoltaic panels, konstrukcijske smjernice, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, recycling, fotonaponski paneli

Abstract

Pomoću fotonaponskih panela omogućava se iskorištavanje obnovljivih izvora energije, no problem predstavlja kako i na koji način najefikasnije reciklirati fotonaponske panele. Recikliranjem fotonaponskih panela dolazi do ponovne uporabe istih materijala s ciljem stvaranja novih fotonaponskih panela. Problem gomilanja fotonaponskih panela još nije prisutan u Europskoj uniji jer se još nije došlo do velikih odbačenih količina fotonaponskih panela, no s obzirom da su troškovi električne energije znatno porasli i to će se promijeniti. Upravo zbog navedenog problema je i provedena analiza recikličnosti, kako bi se na praktičnom primjeru FN panela uvidjele neke od poteškoća u recikliranju istih. Cilj kvalitetnog recikliranja je pratiti konstrukcijske smjernice. Potrebno je smanjiti količinu opasnog otpada i povećati broj poznatih polimera. Ručno recikliranje je jako zahtjevno te je potrebna posebna oprema kako bi se izvelo kvalitetno recikliranje. S obzirom da fotonaponski paneli spadaju u elektrotehničku i elektroničku opremu potrebno je držati se određenih pravilnika i zakona. Photovoltaic panels enable the use of renewable energy sources, but the problem is how and in what way to recycle photovoltaic panels most effectively. With the recycling of photovoltaic panels comes the reuse of the same materials with purpose of creating new photovoltaic panels. The problem of accumulation of photovoltaic panels is not yet present in the European Union because there are no large amount of photovoltaic panels, but considering today's situation that the costs of electricity have gone significantly higher, this will change. Because of the mentioned problem the analysis of recyclability was carried out, in order to see some of the difficulties in recycling them on the practical example of FN panels. The goal of quality recycling is to follow construction guidelines. It is necessary to reduce the amount of hazardous waste and increase the number of known polymers. Manual recycling is very demanding and requires special equipment to perform quality recycling. Given that photovoltaic panels belong to electrotechnical and electronic equipment, it is necessary to adhere to certain regulations and laws.

Published

2022

35. Reactive power compensation management system

Author

Vincetić, Ivan and Ćorluka, Venco

Subjects

jalova energija, loads, SVC and Matlab, elektroenergetska mreža, electricity grid, SVC i Matlab, reactive energy, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, opterećenja

Abstract

U ovom završnom radu opisana su opterećenja koja se javljaju u elektroenergetskoj mreži. Prvo su pojašnjeni električni parametri snaga i njihova djelovanja na elektroenergetsku mrežu. Pojašnjena je kompenzacija jalove energije i njeni učinci na mrežu. Objašnjeni su problem visokih harmonika i električne rezonancije u mreži. Nabrojane su i pojašnjene vrste kompenzacije u mreži. Nakon toga pojašnjena je svrha i primjena statičkih var kompenzatora. Pojašnjena je struktura SVC i simulirana je u programskom paketu Matlab. This final paper describes the loads that occur in the electricity network. First, the electrical parameter power and their effects on the electricity network are clarified. The compensation of reactive energy and its effects on the grid is clarified. The problem of high accordions and electrical resonance in the network are explained. The types of compensation in the network are listed and clarified. After that, the purpose and application of static var compensators was clarified. The structure of the SVC has been clarified and simulated in the Matlab software package.

Published

2022

36. Material development on the example of photovoltaic systems

Author

Pavić, Martina, Rozing, Goran, and Buljić, Dalibor

Subjects

Solar panels, tradicionalne izvore enrgije, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, Solarni paneli, fossil fuels, set of solar cells, traditional energy sources, skup solarnih čelija, fosilna goriva

Abstract

Solarni paneli su oni uređaji koji se koriste za prikupljanje sunčevih zraka i njihovo pretvaranje u električnu energiju ili toplinu. Solarni panel zapravo je skup solarnih (ili fotonaponskih) ćelija, koje se mogu koristiti za proizvodnju električne energije putem fotonaponskog efekta. Te su ćelije raspoređene u obliku mreže na površini solarnih ploča. Većina solarnih panela izrađena je od solarnih ćelija od kristalnog silicija. Postavljanje solarnih panela u domove pomaže u borbi protiv štetnih emisija stakleničkih plinova i tako pomaže u smanjenju globalnog zatopljenja. Solarni paneli ne dovode do zagađenja i čisti su izvori energije. Oni također smanjuju oslanjanje na fosilna goriva (koja su ograničena) i tradicionalne izvore energije. Solar panels are those devices which are used to absorb the sun's rays and convert them into electricity or heat. A solar panel is actually a collection of solar (or photovoltaic) cells, which can be used to generate electricity through photovoltaic effect. These cells are arranged in a grid-like pattern on the surface of solar panels. Most solar panels are made of crystalline silicon solar cells. Installing solar panels in homes helps combat harmful greenhouse gas emissions and thus helps reduce global warming. Solar panels do not lead to any form of pollution and are clean. They also reduce reliance on fossil fuels (which are finite) and traditional energy sources.

Published

2022

37. Comparison of small wind power plant energy performances

Author

Glogoški, Rene, Šljivac, Damir, and Žnidarec, Matej

Subjects

wind turbine, obnovljivi izvori energije, vjetar, vjetroagregat, wind, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, renewable energy sources, performances, performanse

Abstract

U ovome radu je opisan način proizvodnje električne energije kroz desetljeća pa sve do danas. Naprave pomoću kojih to ostvarujemo zovu se vjetroturbine ili vjetroagregati. Na samome početku rada općenito se govori o obnovljivom izvoru energije – vjetru. Zatim, opisani su načini i uporaba energije vjetra kroz povijest i svi čimbenici koji utječu na vjetar. Dana su objašnjenja za eksperimentalna mjerenja i praćenja vjetra. U drugome dijelu su detaljno opisani sami vjetroagregati, njihova uporaba i razvoj kroz povijest. Opisane su podjele vjetroagregata, optimalno mjesto instalacije i aerodinamičnost vjetroturbine. Istraženi su neki od modernijih modela vjetroagregata današnjice i opisane su njihove karakteristike i značajke. Napravljena je usporedba proizvodnje električne energije na različitim mikrolokacijama s različitim vjetroagregatima i modelima. This paper describes the method of electricity production throughout the decades until today. The devices with which we achieve this are called wind turbines or wind aggregates. At the very beginning of the paper, we generally talk about a renewable source of energy - wind. Then, the ways and use of wind energy throughout history and all the factors that influence wind are described. Explanations are given for experimental measurements and wind monitoring. In the second part, the wind turbines are described, their use and development throughout history are described in detail. The divisions of wind turbines, the optimal installation location and the aerodynamics of the wind turbine are explained. Some of today's more modern models of wind turbines were investigated and their characteristics and features were mentioned. A comparison of electricity production was made at different locations with different wind turbines and models.

Published

2022

38. Sensorless control of permanent magnet wind generator based on sliding-mode observer

Author

Jukić, Filip and Sumina, Damir

Subjects

Elektrotehnika, upravljanje bez mjernog člana brzine vrtnje, inductance adaptation, opserver u kliznom načinu rada, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, sinkroni generator s permanentnim magnetima, udc:621.3(043.3), adaptacija induktiviteta, permanent magnet generator, wind energy conversion system, Electrical engineering, sensorless control, leteći start, sliding-mode observer, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, flying start, vjetroagregat

Abstract

Ovaj doktorski rad predstavlja istraživanje bezsenzorskog upravljanja vjetrogeneratorom s permanentnim magnetima temeljeno na opserveru u kliznom načinu rada. Prvi dio disertacije donosi pregled najčešće korištenih topologija vjetroagregata, fizikalne osnove pretvorbe energije vjetra, matematički model sinkronog generatora s permanentnim magnetima te standardne algoritme upravljanja AC-DC-AC pretvaračem. Nakon toga, dan je uvod u teoriju kliznih režima. Zatim je opisan laboratorijski postav na kojem je izvršena eksperimentalna verifikacija predloženih algoritama. Iza opisa laboratorijskog postava, predstavljen je znanstveni doprinos disertacije koji se dijeli na tri dijela: 1) metoda za bezsenzorsko upravljanje sinkronim vjetrogeneratorom s permanentnim magnetima temeljena na opserveru u kliznom načinu rada, estimiranom rotirajućem koordinatnom sustavu i modelu aktivnog magnetskog toka vjetrogeneratora, 2) metoda za leteći start sinkronog vjetrogeneratora s permanentnim magnetima temeljena na opserveru u kliznom načinu rada prilagođenom isprekidanom radu energetskog pretvarača i 3) metoda za adaptaciju induktiviteta u poprečnoj osi rotirajućeg koordinatnog sustava primjenom aproksimativne funkcije s ciljem smanjenja estimacijske greške opservera u kliznom načinu rada. Razvijene metode eksperimentalno su potvrđene. Laboratorijski postav sastoji se od sinkronog generatora s permanentnom magnetima, pretvarača i asinkronog stroja. Upravljački algoritmi za pretvarač napisani su u programskom jeziku C i implementirani u digitalni upravljački sustav temeljen na procesoru Delfino C28343. This dissertation presents a study of sensorless control of a permanent magnet wind generator based on a sliding mode observer. The first part gives an overview of the most common topologies of wind energy conversion systems, the physical principles of wind energy conversion, a mathematical model of a synchronous generator with permanent magnets, and the standard algorithms for controlling AC-DC-AC converters. This is followed by an introduction to sliding mode theory. Then, the laboratory setup in which the proposed algorithms were verified is described. Finally, the scientific contribution of the thesis is presented, which is divided into three parts: 1) a method for sensorless control of a permanent magnet wind generator based on a sliding mode observer modeled in an estimated rotating coordinate system using a model of the active magnetic flux of the rotor, 2) a method for sensorless flying start of a permanent magnet wind generator based on a sliding mode observer adapted to the discontinuous operation of the converter, and 3) a method for reducing the estimation error of the sliding mode observer based on the approximation function for fitting the q-axis inductance. The developed methods were experimentally confirmed. The laboratory setup consists of a permanent magnet wind generator, a converter and an asynchronous machine. The control algorithms for the converter were written in the C programming language and implemented in a digital control system based on the Delfino C28343 processor.

Published

2022

39. COMPARISON OF DIFFERENT BATTERY TECHNOLOGIES FOR ELECTRICAL ENERGY STORAGE

Author

Kurkutović, Hrvoje and Topić, Danijel

Subjects

pohrana električne energije, usporedba, comparison, examination process, characteristics, tehnologije baterija, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, karakteristike, electrical energy storage, battery technology, proces ispitivanja

Abstract

Ovaj rad temelji se na isticanju važnosti pohrane električne energije, njezina potreba u sadašnjosti pa tako i budućnosti. Navedena je podjela sustava pohrane, dok su detaljno opisani elektrokemijski odnosno baterijski sustavi pohrane te je istaknuta njihova važnost u daljnjem napretku cijelog elektroenergetskog sustava. Također su opisani neki od osnovnih modela baterije te njen princip rada. Detaljno je opisano devet tehnologija baterija za pohranu električne energije, a to su: olovne baterije (Pb-acid), litij-ionske baterije (Li-ion), nikal-kadmij baterije (NiCd), nikal-metal hidrid baterije (NiMH), natrij-sumpor baterije (NaS), natrij nikal klorid baterije (NaNiCl), vanadij-redoks protočne baterije (VRFB), cink-brom protočne baterije (ZBFB) te polusulfid-bromid protočne baterije (PBFB). Istaknute su njihove karakteristike, prednosti i nedostaci te njihova primjena. U praktičnom dijelu rada provedeno je ispitivanje karakteristika navedenih tehnologija baterija, a sam proces ispitivanja napisan je i izveden u programu Matlab (MATrix LABoratory), dok su rezultati i analize predstavljeni pomoću programa Microsoft Excel-a. Istaknute su karakteristike poput punjenja odnosno pražnjenja baterija, stanja napunjenosti baterija (SoC), te količine energije koja predstavlja višak ili manjak u odnosu na količinu energije potrebne za napunjenost baterije. Time se dobio bolji prikaz svih obrađenih tehnologija baterija za pohranu električne energije i mogućnost usporedbe istih. This paper is based on emphasizing the importance of electrical energy storage, its need in the present and also in the future. The division of the storage system is indicated, while the electrochemical and battery storage systems are described in detail and their importance in the further progress of the entire power system is highlighted. Some of the basic models of the battery and its working principle are also described. Nine battery technologies for electrical energy storage are described in detail, namely: lead batteries (Pb-acid), lithium-ion batteries (Li-ion), nickel-cadmium batteries (NiCd), nickel-metal hybrid batteries (NiMH), sodium-sulfur batteries (NaS), sodium nickel chloride batteries (NaNiCl), vanadium-redox flow batteries (VRFB), zinc-bromine flow batteries (ZBFB) and polysulfide-bromine flow batteries (PBFB). Their characteristics, advantages and disadvantages and their application are highlighted. In the practical part, a test of the characteristics of the mentioned battery technologies was carried out, and the test process itself was written and performed in the Matlab program (MATrix LABoratory), while the results and analyzes were presented using the Microsoft Excel program. Characteristics such as charging or discharging batteries, the state of charge of batteries (SoC), and the amount of energy that represents an excess or deficit in relation to the amount of energy needed to charge the battery are highlighted. This resulted in a better presentation of all processed battery technologies for electric energy storage and the possibility of comparing them.

Published

2022

40. Comparison of solar collectors technologies energy performances

Author

Stanić, Ružica and Šljivac, Damir

Subjects

solarni kolektor, solar hot water system, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, solarni toplovodni sustav, potrošna topla voda (PTV) [Ključne riječi], domestic hot water (DHW), solar collector

Abstract

Ovaj završni rad predstavlja pregled osnovnih vrsta solarnih kolektora te dijelova i primjene istih. Pregled tržišta predstavlja vodeće proizvođače pločastih i vakuumskih kolektora. Navedene su pojedine karakteristike i materijali izabranih kolektora. Provedena je metoda proračuna toplovodnog solarnog sustava za obiteljsku kuću. Na temelju potrebne topline za zagrijavanje potrošne tople vode, određena je površina kolektora i zapremina spremnika. This final paper presents an overview of the basic types of solar collectors and their parts and applications. Market overview represents the leading manufacturers of flat plate and vacuum tube collectors. Some characteristics and materials of selected collectors are listed. The calculation method of the solar hot water system for a single-family house was implemented. Based on the heat required to warm up domestic hot water, the collector area and the volume of water storage tank were determined.

Published

2022

41. Revitalization of the line bay in high-voltage substation

Author

Bivolčević, Marija and Knežević, Goran

Subjects

revitalization, substation, vodno polje, mjerni transformator, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, line feeder, circuit breaker, prekidač, revitalizacija, disconnector, rastavljač, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, trafostanica, measuring transformer

Abstract

Uvodni dio diplomskog rada navodi zadatak diplomskog rada iza kojeg slijedi pregled područja teme i literature korištene pri izradi diplomskog rada. U trećem poglavlju su navedene i pojašnjene funkcije i parametri opreme koja se nalazi u visokonaponskom vodnom polju. Četvrto poglavlje navodi i pojašnjava kriterije trenutnog stanja, značaja u sustavu i ekonomske opravdanosti prema kojima se izrađuje lista kandidata za revitalizacije, a također sadrži primjer metodologije pri izradi konačne liste trafostanica za revitalizaciju. Zatim je u petom poglavlju na primjeru jednog vodnog polja trafostanice koja se revitalizira provedena analiza izbora prekidača, rastavljača i mjernih transformatora. The introductory part of the thesis states the task of the thesis, followed by an overview of the subject area and the literature used in the preparation of the thesis. In the third chapter, the functions and parameters of the equipment found in the high-voltage line feeder are listed and explained. The fourth chapter lists and clarifies the criteria of the current state, significance in the power system and economic justification according to which the list of candidates for revitalization is created, also it contains an example of the methodology for creating the final list of substations for revitalization. Then, in the fifth chapter, an analysis of the selection of circuit breaker, disconnectors and measuring transformers was shown through the example of a line feeder of a substation that is being revitalized.

Published

2022

42. Optimal electricity market bidding for aggregators of networked electric vehicles

Author

Đurin, Leo and Knežević, Goran

Subjects

baterija, Aggregation, Agregacija, charging stations, V2G, battery, punionica, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, SoC, EV

Abstract

Promjena potrošnje električne energije tijekom dana, tjedna, godine, zahtjeva od elektroenergetskog sustava da prilagodi proizvodnju što je više moguće da bude jednaka potrošnji. Jedan od načina koji bi riješio taj problem jest skladištenje energije. To rješenje nije najekonomičnije zbog velikih gubitaka u transformaciji energije iz jednog oblika u drugi kao i velika investicija ako se radi o stacionarnim spremnicima električne energije. Povećani broj EV-a omogućuje iskorištavanje baterijskog spremnika koji se nalazi u vozilima za pohranu električne energije za vrijeme punjenja na punionicama ili kućnom punjaču. Agregiranje EV-a je naziv za djelatnost koja omogućava vlasnicima EV sudjelovanje na tržištu električne energije uz obostrani interes. Sudjelovanjem na tržištu agregator i vlasnik EV ostvaruju financijsku dobit u iznosu koja zavisi o određenim parametrima. Ovaj rad istražuje na temelju predloženog optimizacijskog modela koji parametri i u kojem iznosu djeluju na ukupni profit ostvaren tijekom dana za vrijeme agregiranja punionice ili EV Change in electricity consumption during the day, week, year, requires the power system to adjust production as much as possible to be equal to consumption. One way to solve this problem is to store energy. This solution is not the most economical, due to large losses in the transformation of energy from one form to another as well as a large investment if it is a stationary electricity storage. The increased number of electric vehicles allows the use of the battery tank located in electricity storage vehicles during charging at a charging station or home charger. Aggregation of electric vehicles is the name for an activity that allows owners of EV to participate in the electricity market with mutual interest. By participating in the market, the aggregator and owner of EV make a financial profit in the amount that depends on certain parameters. This paper investigates, based on the optimization model which parameters and in what amount affect the total profit made during the day during the aggregation of charging stations or EV.

Published

2022

43. MODERN SYSTEMS FOR EFFECTIVE ENERGY MANAGEMENT IN BUILDINGS

Author

Pedić, Petar and Klaić, Zvonimir

Subjects

smart buildings, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, Sustav za upravljanje energijom, BMS, Energy management system, pametne zgrade

Abstract

Završnim radom se htjelo prikazati sto su to pametne zgrade. Opisano je što je to sustav za upravljanje energijom te njegova konstrukcija i komponente. Objašnjena je funkcija uređaja koji čine BMS. Prikazan je primjer zgrade poduzetničkog inkubatora u Vinkovcima koja sadrži suvremeni sustav za upravljanje energijom. The final work wanted to show what smart buildings are. It describes what an energy management system is and its construction and components. The function of the devices that make up the BMS is explained. An example of a business incubator building in Vinkovci, which contains a modern energy management system, is presented.

Published

2022

44. SCADA in the electric power system

Author

Šabić, Ivana and Topić, Danijel

Subjects

SICAM PAS, MicroSCADA PRO, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, SCADA, Elektroenergetski sustav, SCIAM SCC, Power system

Abstract

Završni rad obrađuje SCADA sustav u elektroenergetskom sustavu kroz njezinu povijest i razvoj, pokazuje njezin princip rada te podjelu i arhitekturu sustava te njezinu primjenu u energetskom sustavu Republike Hrvatske te je prikazan SCADA laboratorij. Također su predstavljeni primjeri SCADA sustava: sustav SCIAM PAS i sustav SCIAM SCC te sustav MicroSCADA PRO. Naposljetku, navedene su SCADA kompanije diljem svijeta, prednosti i mane sustava i naravno, njegova budućnost. The final paper deals with the SCADA system in the power system through its history and development, shows its working principle and the division and architecture of the system and its application in the energy system of the Republic of Croatia and the SCADA laboratory is presented. Examples of SCADA systems are also presented: SCIAM PAS system and SCIAM SCC system MicroSCADA PRO. Last, SCADA companies around the world, the advantages and disadvantages of the system and of course, its future are listed.

Published

2022

45. SECOND-ORDER LINEAR DIFFERENTIAL EQUATIONS WITH CONSTANT COEFFICIENTS AND APPLICATION IN MECHANICS

Author

Jurić, Krešimir and Katić, Anita

Subjects

mehanika, second-order linear differential equation with constant coefficients, diferencijalne jednadžbe, differential equations, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, titranje, vibration, mechanics, linearna diferencijalna jednadžba drugog reda sa konstantnim koeficijentima

Abstract

U završnom radu je potrebno općenito opisati diferencijalne jednadžbe, te posebno opisati linearnu diferencijalnu jednadžbu drugog reda sa konstantnim koeficijentima. U radu je riješeno nekoliko primjera jednadžbi. Općenito je opisana mehanika kao grana fizike, također je napisana podjela mehanike i opisani su Newtonovi zakoni. U nastavku je kroz tri primjera opisana primjena diferencijalnih jednadžbi drugog reda sa konstantnim koeficijentima, a to su titranje matematičkog njihala, serijski RLC spoj i titranje tijela na opruzi. Kako bi smo lakše shvatili primjenu potrebno je koristiti različitu literaturu. Ovim završnim radom se postiglo znanje o diferencijalnim jednadžbama i o primjenama u mehanici. In the final paper, it is necessary to describe differential equations in general, and in particular to describe a linear differential equation of the second order with constant coefficients. Several examples of equations are solved in the paper. Mechanics as a branch of physics is generally described, the division of mechanics is also written and Newton's laws are described. In the following, the application of second-order differential equations with constant coefficients is described through three examples, namely the oscillation of a mathematical pendulum, the series RLC connection and the oscillation of a body on a spring. In order to understand the application more easily, it is necessary to use different literature. With this final work, knowledge of differential equations and applications in mechanics was achieved.

Published

2022

46. EFFICIENCY OF THE USE OF CABLES IN THE DISTRIBUTION SYSTEM

Author

Katić, Matko and Fekete, Krešimir

Subjects

podzemni kabeli, distribucija, distribution, overhead lines, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, underground cables, nadzemni vodovi, simulation, simulacija

Abstract

U ovom radu napravljena je usporedba učinkovitosti korištenja nadzemnih vodova i podzemnih kabela u 35 kV distribucijskoj mreži. Usporedba je odrađena kroz šest simulacija, koje su odrađene na način da je odabrana jedna grana u kojoj je kroz prve tri simulacije bio nadzemni vod kojemu se mijenjala duljina, a zatim u druge tri simulacije podzemni kabel kojemu se također mijenjala duljina. Za svaku simulaciju promatrani su gubitci u mreži, gubitci i pad napona u grani koja se mijenjala kroz šest simulacija, te naponi na svakoj sabirnici mreže. Na temelju dobivenih rezultata zaključeno je da nema velike razlike između promatranih parametara kada se koristi nadzemni vod i podzemni kabel, te da je bolje koristiti nadzemne vodove zbog jeftinije cijene i jednostavnijeg postavljanja. This paper compares the efficiency of using overhead lines and underground cables in the 35 kV distribution network. The comparison was carried out through six simulations, which were carried out in such a way that one branch was selected, in which in the first three simulations there was an overhead line whose length was changed, and then in the second three simulations an underground cable whose length was also changed. For each simulation, losses in the network, losses and voltage drop in the branch that changed through six simulations, and voltages at each bus of the network were observed. Based on the obtained results, it was concluded that there is no big difference between the observed parameters when using an overhead line and an underground cable, and that it is better to use overhead lines due to the cheaper price and easier installation.

Published

2022

47. Visualization of vector and scalar fields by ANSYS software package

Author

Dijaković, Dominik and Barić, Tomislav

Subjects

strujno polje, simulation, Električno polje, naboj, struja, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, magnetic field, magnet, current, current field, magnetsko polje, charge, Electric field, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, simulacija

Abstract

Ovim završnim radom opisano je značenje električnih, magnetskih i strujnih polja, te njihova povezanost u prirodi. Predstavljeni su računski načini rješavanja problema električnih, magnetskih i strujnih polja, tako je predstavljen i moderan način kako simulirati navedena polja pomoću programskog paketa Ansys. U završnom radu odrađene su simulacije pomoću programskog paketa Ansys koje prikazuju ponašanje električnih, magnetskih i strujnih polja. This final paper describes the meaning of electric, magnetic and current fields, and their connection in nature. Computational ways of solving problems of electric, magnetic and current fields are presented, as well as a modern way of simulating these fields using the Ansys software package. In the final paper, simulations were performed using the Ansys program package, which shows the behavior of electric, magnetic and current fields.

Published

2022

48. LIFE CYCLE ANALYSIS ELECTRIC TRIMMER

Author

Pančić, Petra and Rozing, Goran

Subjects

eko-indikatori, cjelovito bilansiranje, LCA, Life-Cycle Assessment, eco-indicators, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, SimaPro, Life-Cycle Analysis

Abstract

U ovom završnom radu provedena je LCA analiza (engl. Life Cycle Assessment) na primjeru električnog trimera Merox MX-CL-18, koristeći programski alat SimaPro. U teorijskom dijelu rada navedene su općenite informacije o LCA analizi i njenoj povijesti. Nakon toga detaljno su opisane faze provođenja analize, čija se primjena vidi i u praktičnom dijelu rada. Također, opisan je pojam eko-indikatora te su prikazana tri područja moguće štete, te su ti pojmovi također bitan dio praktičnog dijela. Za kraj teorijskog dijela i kao uvod u praktični, opisan je korišteni programski alat SimaPro i sve njegove različite verzije. U praktičnom dijelu je u programskom alatu SimaPro provedena LCA analiza na primjeru spomenutog trimera., te je bilo vidljivo kako svaki materijal od kojeg je izrađen trimer utječe na tri područja moguće štete. Nakon toga međusobno su uspoređene četiri životne faze promatranog trimera (proizvodnja, uporaba, odlaganje i ponovna uporaba reciklata) i bilo je moguće vidjeti kako te četiri faze utječu na tri područja moguće štete. Opisani su svi koraci analize, od prikupljanja podataka o trimeru, preko unosa tih podataka u sučelje programskog alata pa sve do interpretacije rezultata izračuna, odnosno rezultantnih grafova The analysis of the environmental impact of the electric trimmer Merox MX-CL-18 using the LCA methods and parameters has been described in this study. The analysis was done in the software called SimaPro. Theoretical part gave some general information about LCA and its history. After that, all phases of LCA have been described in more detail and those phases can later be seen in the practical part of the study. Furthermore, term “eco-indicator” was described, and three damage modules were shown that also play an important role in the practical part of the study. As the end of the theoretical part and as introduction to the practical one, SimaPro was described, along with all its different versions. In the practical part, LCA analysis was conducted on the example of the electric trimmer Merox MX-CL-18, using the mentioned software and it was shown how each of the materials contained in the trimmer affects the three damage modules. After that, four life cycle stages were compared (production, usage, disposal, and new use of the recycled parts) and it was shown how those four stages affect the three damage modules. Every step of the analysis was described, from collecting data about the trimmer and data entry, all the way to the interpretation of the results and resulting graphs

Published

2022

49. Battery storage in PV systems

Author

Knežević, Tomislav and Nikolovski, Srete

Subjects

photovoltaic system, baterijski spremnici, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, fotonaponski sustav, battery tanks

Abstract

Temu ovog rada predstavljaju baterijski spremnici u fotonaponskom sustavu. U radu su opisani osnovni principi rada baterijskih spremnika (punjenje i pražnjenje), različiti tipovi baterija izrađeni od različitih materijala. Za svaki tip baterijskog spremnika navedene su prednosti i nedostaci, te njihovo područje primjene. Ukratko je opisan i fotonaposnki sustav. U tom poglavlju opisani su osnovni i najčešće korišteni tipovi fotonaponskih modula, zajedno sa svojim prednostim i nedostacima. U radu se nalazi i prikaz jednostavnog modela baterijskog spremnika u fotonaponskom susatvu. Model je napravljen u programu EasyPower. Subject of this paper represent batteries in photovoltaic system. Basic principles of work of batteries are being discribed in this paper (charge and discharge), different types of batteries are built from different materials. Adventages and disadventages are stated for each type of battery and also their field of use. Photovoltaic system is also discribed shortly. Basic and most used types of photovoltaic modules are discribed in that chapter together with their adventages and disadventages. A view of simple model of battery in photovoltaic system is also shown inside the paper. The model is made in the EasyPower program.

Published

2022

50. MODERN MAGNETIC MATERIALS

Author

Jozić, Matej and Rozing, Goran

Subjects

crystal structure, feromagnetizam, magnetic field, TECHNICAL SCIENCES. Electrical Engineering. Power Engineering, samarij kobalt, paramagnetism, iron, TEHNIČKE ZNANOSTI. Elektrotehnika. Elektroenergetika, paramagnetizam, coercivity, samarium cobalt, feriti, magnets, ferrites, temperatura, atom, magneti, temperature, ferromagnetism, magnetsko polje, magnetizam, magnetism, željezo, permeabilnost, ion, kristalna struktura, permeability, neodimij, neodymium, koercitivnost

Abstract

U ovom završnom radu opisani su trenutno najzastupljenijih suvremenih magnetskih materijali. Magnetski materijali su jedni od važnijih faktora u industriji, ali i u svakodnevnom životu. Pronalazimo ih u uređaja za magnetsko odvajanje, u aktuatorima, motorima, automobilima, pa sve do najsuvremenijih uređaja koji se koriste u svemirskim istraživanjima. Završni rad sadrži prikaz povijesti magnetizma, podjelu magnetizma, vrstu magnetskih materijal, te strukturu i razvoj suvremenih magnetskih materijala. Na kraju završnog rada su prikazani su primjeri gdje se sve koriste suvremeni magnetski materijali. In this undergraduate thesis, some of the most common contemporary magnetic materials are described. Magnetic materials are one of the most important factors in industry, but also in everyday life. We find them in devices for magnetic separation, in actuators, motors, cars, to the most modern technologies used in space research. The final paper contains a description of the history of magnetism, the division of magnetism, the type of magnetic material, and the structure and development of modern magnetic materials. At the end, some examples are given where modern magnetic materials are used.

Published

2022