Διερεύνηση της λειτουργίας και σχεδιασμός συστήματος ελέγχου του δυναμικού αποκαταστάτη τάσης (DVR) που χρησιμοποιείται στα δίκτυα διανομής

Καφούρος, Σαράντος

19 January 2011

Η παρούσα διπλωματική εργασία έχει ως αντικείμενο τη διερεύνηση της λειτουργίας και το σχεδιασμό συστήματος ελέγχου του δυναμικού αποκαταστάτη τάσης (DVR - Dynamic Voltage Restorer, όπως αναφέρεται στη διεθνή βιβλιογραφία) που χρησιμοποιείται στα δίκτυα διανομής. Η συγκεκριμένη συσκευή ανήκει στην κατηγορία των FACTS (Flexible ac Transmission Systems), παρέχει εν σειρά αντιστάθμιση, και ο σκοπός λειτουργίας της είναι η βελτίωση της ποιότητας της παρεχόμενης ισχύος και η αύξηση της αξιοπιστίας του συστήματος. Εξειδικεύεται στις βυθίσεις τάσεως. Πιο συγκεκριμένα, ο δυναμικός αποκαταστάτης τάσης έχει στόχο, όπως μαρτυρά και το όνομά του, να διατηρεί την τάση ενός φορτίου κατά το δυνατόν σταθερή στην τιμή που αυτή είχε πριν συμβεί η όποια βύθιση. Έτσι, θα καταβληθεί προσπάθεια προκειμένου να προσομοιωθεί η λειτουργία μιας τέτοιας συσκευής σε ένα απλό δίκτυο με τη βοήθεια του λογισμικού PSCAD. Θα κατασκευαστεί ο DVR καθώς και το σύστημα ελέγχου του κι αφού συνδεθεί σε ένα φορτίο, θα δημιουργήσουμε διάφορα είδη σφαλμάτων και θα μελετήσουμε την απόκρισή του και την ικανότητά του να αποκαθιστά την τάση. / This diploma thesis refers to Dynamic Voltage Restorer (DVR), a series compensator used in transmission systems. It is a device that belongs to FACTS and its main function is the mitigation of volatge sags and swells.

Ποιότητα ισχύος

Βύθιση τάσης

621.317

Dynamic voltage restorer (DVR)

Voltage sag

Voltage sag compensation

PSCAD

Flexible ac transmission systems (FACTS)

Multi-objective power quality optimization of smart grid based on improved differential evolution

Saveca, John

10 1900

In the modern generation, Electric Power has become one of the fundamental needs for humans to survive. This is due to the dependence of continuous availability of power. However, for electric power to be available to the society, it has to pass through a number of complex stages. Through each stage power quality problems are experienced on the grid. Under-voltages and over-voltages are the most common electric problems experienced on the grid, causing industries and business firms losses of Billions of dollars each year. Researchers from different regions are attracted by an idea that will overcome all the electrical issues experienced in the traditional grid using Artificial Intelligence (AI). The idea is said to provide electric power that is sustainable, economical, reliable and efficient to the society based on Evolutionary Algorithms (EAs). The idea is Smart Grid. The research focused on Power Quality Optimization in Smart Grid based on improved Differential Evolution (DE), with the objective functions to minimize voltage swells, counterbalance voltage sags and eliminate voltage surges or spikes, while maximizing the power quality. During Differential Evolution improvement research, elimination of stagnation, better and fast convergence speed were achieved based on modification of DE’s mutation schemes and parameter control selection. DE/Modi/2 and DE/Modi/3 modified mutation schemes proved to be the excellent improvement for DE algorithm by achieving excellent optimization results with regards to convergence speed and elimination of stagnation during simulations. The improved DE was used to optimize Power Quality in smart grid in combination with the reconfigured and modified Dynamic Voltage Restorer (DVR). Excellent convergence results of voltage swells and voltage sags minimization were achieved based on application of multi-objective parallel operation strategy during simulations. MATLAB was used to model the proposed solution and experimental simulations. / Electrical and Mining Engineering / M. Tech. (Electrical Engineering)

Smart Grid

Power quality

Evolutionary algorithm

Differential evolution

Multi-objective

Optimization

Mutation schemes

Convergence speed

Dynamic voltage restorer

Sags

Swells

Power network

Parallel operation

621.3191

Electric power system stability

Electric power transmission

High voltages

Voltage regulators

Smart power grids

Electric power systems

Systém pro zobrazování černobílých snímků v nepravých barvách (Pseudocolor) / System for Imaging of the Monochromatic Pictures in the Pseudo Color

Kaděrka, Petr

January 2008

This diploma thesis treats the possibilities of the black-white picture depiction in pseudo colors (Pseudocolor). The individual methods, software or hardware are described there and the detailed block scheme of the system Pseudocolor is suggested. The block scheme is created on the basis of gained theoretical knowledge. In the thesis, individual functional blocks of the scheme are described and their circuit designs are realized. Some of the functional blocks are simulated by the PSpice program and accompanied by corresponding signal process data. The suitable choice of the active and passive components is performed, from which the general integration of the system Pseudocolor is made. All the source materials for the realization of the device are given there – double-sided drawing of the printed circuit, layout and specification of the components.

Měřič odstupu signálu od šumu obrazových signálů / BER Meter for Video Signals

Šimoník, Petr

January 2008

The diplomma thesis is dealing with possibilities of Signal to noise ratio measurement by method, which is based on direct measurement. It is chosen the most suitable method – signal and noise separation to two different parallel signal branches, where is measured signal strength in one branch and root mean square value in the other. The thesis is consisted of a concept of detail block scheme of Signal to noise ratio meter, which was designed in terms of theoretical knowledge. Particular functional blocks were circuit-designed, the active and passive parts were chosen and their function were described. There were made simulation and displayed input and output time flows. There is designed the whole connection of engineered Signal to noise ratio meter in the last part of my thesis. The double-sided board of printed circuit is contained too. It was created simple programme for supervisor micro-processor. Thereby were constructed complete bases for realization.