Výpočet nastavení distančních ochran v síti 110 kV / The calculation of 110 kV network distance protection relays setings.

Bartoš, Petr

January 2012

This master’s thesis is about setting of distance protections. The first part is focused on a brief analysis of the basic types of failures and distance protections tripping characteristics and their co-operation with automatic re-turn. The most extensive theoretical chapter is devoted to specific influences that negatively affect the proper operation of distance protections. The practical part is about calculation of symmetrical short-circuit and dissymmetrical short-circuit conditions with consideration of fault resistance and the actual calculation settings of distance protections. Calculations of short-circuit conditions and setting of distance protections are made on a specific part of the network of E.ON in area Prostejov, which is supplied from the substation 400/110 kV Otrokovice.

Ustálený chod a zkratové poměry v síti 110 kV E.ON při paralelním provozu transformátorů T403 a T402 v transformovnách 400/110 kV Sokolnice a Otrokovice / Steady state and short-circuit conditions within E.ON 110kV power network at parallel operation of transformers T403 and T402 in 400/100kV transformer stations Sokolnice and Otrokovice

Doležal, Marek

January 2014

This master’s thesis is divided into two logical parts. The first part contains theory of calculation of steady state and short-circuits conditions within 110 kV distribution network. Newton’s method and short-circuit current calculation is also explained here. It also deals with classification and aftereffects of transient performance occurring in power networks. The second part contains practical calculation of steady flow and short-circuit conditions at parallel operation of transformers T403 and T402 in 400/110 kV transformer stations Sokolnice and Otrokovice. This calculation is done with program used by system operators called SINAUT Spectrum and consequently analyzed. This part also contains brief description of substations from this region.

Ustálený chod a zkratové poměry v síti 110 kV E.ON při můstkovém provozu transformátorů T402 a T403 v transformovně 400/110 kV Sokolnice / Steady state and short-circuit conditions within E.ON 110kV power network at bridge operation of transformers T402 and T403 in 400/100kV transformer station Sokolnice

Bernát, Jan

January 2014

The master’s thesis deals with a calculation of steady state and short-circuit conditions in a 110 kV system during a bridge operation of transformers in a Sokolnice substation. The theoretical part of the thesis deals with a calculation of steady state of a system using Newton’s iterative method, it investigates short-circuits – their timing, distinctive values and a method of their calculation. In the practical part the 100 kV grid supplied from Sokolnice substation is described. The main goal of the thesis is a comparation of two basic wirings: bridge operation of T202 and T203 transformers (contemporarily in service) and bridge operation of T402 and T403 (in service after 2017). These two wirings were controlled even during one state of emergency during which the Sokolnice substation will be affected by an outage of one busbar. Voltage conditions, loading of power line and transformers and overall power balance were controlled. Short-circuit conditions were also calculated and short-circuit resistance of particular substations was inspected. In the conclusion technical measures needed to ensure smooth bridge operation of convertors T402 and T403.

Napájecí zdroj elektrostatického odlučovače / Power supply of electrostatic separator

Broďák, Kamil

January 2015

The diploma thesis focuses on the problems of electric power precipitators. Due to their current dominant position, the work concentrates on the sources of single phase transformers operating at the frequency of 50 Hz controlled by thyristors. The first part describes the electrostatic precipitator and its principle. This is followed by a brief insight into the proposal for an electrostatic precipitator. The work also explains the high voltage source that is divided into a transformer with a rectifier and into a control box with power circuits and control circuits that provide the power supplied by a transformer. The work also offers an explanation of the HV source system that operates at different conditions. The last part suggests a proposal for cooling cabinet including thyristors, for power line control box resources, for a supply line and a line to the transformer.

Ustálený chod a zkratové poměry v síti 110 kV E.ON napájené z transformovny Čebín / Steady state and short-circuit conditions in 110kV E.ON network fed from Čebín transformer station

Krutiš, Petr

January 2015

Master’s thesis deals with computation of steady state and short-circuit conditions in 110 kV nodal area of Čebín. The first part of thesis is theoretical. There is described computation of steady state and short-circuit conditions. There is description of 110 kV nodal area of Čebín too. There are made computations in the practical part. Two types of operation of transformers T401 and T402 are evaluated. The transformers operate independent at first, then they are connected in parallel. Voltage conditions in substations, load of lines and transformers, power losses and short-circuit resistance of substations in 110 kV nodal area of Čebín are evaluated based on the computations. There are compared the both types of operation of transformers in the end of practical part.

Analýza statického a dynamického namáhání stávající rozvodny 110 kV pro zvýšení zkratové odolnosti / Analysis of Static and Dynamic Stresses the Existing 110 kV Substation for Short Circuit Strength Increasing

Balák, Dušan

January 2016

This thesis is concerned with static and dynamic stress calculation of busbar and wire conductors in HV and EHV substations according to standards ČSN EN 60865-1 ed. 2 and ČSN EN 50341-1 ed. 2. Calculations are done in program made in MS Excel with consideration to corporate regulations of energetics. In introduction is described the construction of HV substations and methodical step-by-step computation. Practical evaluation is applied to the substation R110 kV Dluhonice, where has to be checked up sufficient short-circuit resistance because of short-circuit strength increasing. At the end is analysed the influence of the spring structure constant on short-circuit strength forces in substation. Highly significant utility is the founded program for HV substations designations.

EXPERIMENT AND MODELING OF COPPER INDIUM GALLIUM DISELENIDE (CIGS) SOLAR CELL: EFFECT OF AXIAL LOADING AND ROLLING

Arturo Garcia (8848484)

15 May 2020

<div>In this paper various applications of axial tensile load, bending load, and rolling loading has been applied to a Copper Indium Gallium Diselenide (CIGS) Solar Cell to lean how it would affect the solar cell parameters of: Open circuit voltage (Voc), Short circuit current, (Isc), Maximum power (Pmax), and Efficiency (EFF), and Fill Factor (FF). These Relationships were found for with three different experiments. The first experiment the applies axial tensile stress is to a CIGS solar cell ranging from 0 to 200 psi with various strain rates: 0.0001, 0.001, 0.01, and 0.1 in/sec as well as various relaxation time: 1min, 5min, and 10 min while the performance of solar cell is measured. The results of this gave several trends couple pertaining the Voc . The first is that open circuit voltage increases slightly with increasing stress. The second is the rate of increase (the slope) increases with longer relaxation times. The second set of trend pertains to the Isc. The first is that short circuit current generally is larger with larger stress. The second is there seems to be a general increase in the Isc up to a given threshold of stress. After that threshold the Isc seems to decrease. The threshold stress varies depending on strain rate and relaxation time. The second set of experiments consisted of holding a CIGS solar cell in a fixed curved position while it was in operational use. The radii of the curved cells were: 0.41, 0.20, 0.16, 0.13, 0.11, 0.094, and 0.082 m. The radii were performed for both concave and convex cell curvature. The trends for this show a slight decrease in all cell parameters with decreasing radii, the exception being Voc which is not effecting, the convex curvature causing a slightly faster decrease than the concave. This set of experiments were also processed to find the trends of the single diode model parameters of series resistance (Rs), shunt resistance (Rsh), dark current (I0), and saturation current (IL), which agreed with the experimental results. The second experiment consisted of rolling a CIGS solar cell in tensile (cells towards dowel.) and compression (cells away from dowel) around a dowel to create internal damage. The diameter of the dowels decreased. The dowel diameters were: 2. 1.75, 1.25, 1, 0.75, 0.5, and 0.25 inches. This experiment showed similar trends as the bending one but also had a critical diameter of 1.75 in where beyond that damage much greater. Finally a parametric study was done in COMSOL Multiphysics® to examine how changes in the CIGS material properties of electron mobility (EM), electron life time, (EL), hole mobility 15 (HM), and Hole life time (HL) effect the cell parameters. The trends are of an exponential manner that converges to a given value as the material properties increase. When EL, EM, HL are very small, on the order of 10-4 times smaller than their accepted values, a transient like responses occurs.<br></div>

Stress

CIGS

Solar Cells

Degradation

Short circuit current

Open circuit voltage

Maximum power

Efficiency

Fill Factor

Single Diode Model

Charakterisierung von organischen Solarzellen an einem neu aufgebauten Laser-basierten DSR-Messplatz

Fey, Thomas

22 September 2015

Die Physikalisch-Technische Bundesanstalt (PTB) unterstützt vielfältig die Gesellschaft, Wirtschaft und Wissenschaft. Eine ihrer Kernkompetenzen als das nationale Metrologie-Institut der Bundesrepublik Deutschland ist die Messtechnik. In diesem Sinne kalibriert die Arbeitsgruppe „Solarzellen“ der PTB i. d. R. den Kurzschlussstrom unter Standardtestbedingungen (I_STC) von Referenzsolarzellen. Der I_STC von Referenzsolarzellen ist in Photovoltaik-Kalibrierketten bei der Bestimmung der Bestrahlungsstärke von zentraler Bedeutung und fließt signifikant in die Berechnung der Wirkungsgrad von Solarzellen und Solarmodulen ein. Um den I_STC einer Solarzelle mit geringster Messunsicherheit zu bestimmen, wurde die Differential Spectral Responsivity (DSR)-Methode verwendet. Sie basiert auf der Messung der differentiellen spektralen Empfindlichkeit bei unterschiedlichen Bestrahlungsstärken. Anhand dieser kann die absolute spektrale Empfindlichkeit s(λ) unter Standardtestbedingungen sowie der I_STC berechnet werden. Da jedoch die Umgebungsbedingungen meistens von den STC abweichen, reichen letztere nicht zum umfassenden Vergleich der Wirkungsgrade in der Praxis aus. Um Einflussfaktoren (Temperatur, Bestrahlungsstärke, Winkelabhängigkeit,...) genauer untersuchen zu können, wurde im Rahmen dieser Arbeit an der PTB ein neuer Laser-basierter DSR-Messplatz aufgebaut und charakterisiert. Mit dem neuen Messplatz wurden c-Si Referenzsolarzellen, organische Solarzellen auf Basis kleiner Moleküle sowie Farbstoffsolarzellen umfassend untersucht. Unter anderem wurden die elektrischen Leistungsparameter einer organischen Solarzelle (aktive Schicht: DCV5T-Me:C60) mit denen einer c-Si Solarzelle verglichen. Es zeigt sich, dass der Wirkungsgrad der organischen Solarzelle mit zunehmender Bestrahlungsstärke sinkt und mit zunehmender Temperatur steigt, während die c-Si Solarzelle ein gegensätzliches Verhalten aufweist. Darüber hinaus wurde u.a. die Winkelabhängigkeit der zweiten organischen Solarzelle (aktive Schicht: C60:DCV5T-Me(3,3)) untersucht und mit den Resultaten einer c-Si Solarzelle verglichen. Diese Untersuchungen haben ergeben, dass die Winkelabhängigkeit des Kurzschlussstroms der organischen Solarzelle im Vergleich zu einer c-Si Solarzelle insbesondere zwischen 20° < ϑ < 60° eine „Super-Kosinus-Anpassung“ aufweist. Ergänzend wurde an der PTB im Rahmen dieser Arbeit ein mobiler Messplatz für Outdoormessungen aufgebaut. Mit diesem konnten die mittels Indoor-Untersuchungen erhaltenen spektralen Empfindlichkeiten mit Outdoor-Messungen verglichen werden. Des Weiteren wurden spektrale Charakterisierungen der Himmelshalbkugel durchgeführt und Methoden für Korrekturen von Sekundärkalibrierungen untersucht.

info:eu-repo/classification/ddc/530

ddc:530

Elektrisch‐thermisches Betriebs‐ und Langzeitverhalten hochstromtragfähiger Kontaktelemente

Gatzsche, Michael

12 January 2017

In Geräten und Anlagen des Stromnetzes werden Steckverbinder mit hoher Stromtragfähigkeit eingesetzt, wenn bewegliche Teile kontaktiert werden oder Betriebsmittel mit geringem Aufwand montier- und demontierbar sein müssen. Die elektrische Verbindung der Leiter wird dabei oft mit federnden Kontaktelementen realisiert. Die Kontaktelemente müssen als Teil der Strombahn während der Lebensdauer des Geräts den Betriebsstrom im Kiloampere-Bereich und im Fehlerfall bis zu einige Sekunden lang den eine Größenordnung höheren Kurzschlussstrom tragen. In der vorliegenden Arbeit wurden Rechenmodelle für die innere Erwärmung von Hochstrom-Kontaktsystemen im stationären Dauerbetrieb und im transienten Kurzschlussfall entwickelt. Das elektrische und mechanische Langzeitverhalten im Temperaturbereich (105…180) °C wurde experimentell mit stromdurchflossenen, fettgeschmierten Modellsteckverbindern, die regelmäßig getrennt und neu gesteckt wurden, untersucht. Modellerstellung, Rechnungen und Versuche wurden beispielhaft mit Kontaktelementen vom Typ Multilam durchgeführt. Kontaktelemente und Leiter bestanden aus versilbertem Kupfer. Für das stationäre Betriebsverhalten wurden die mit der analytischen Spannungs-Temperatur-Beziehung nach Kohlrausch berechneten Ergebnisse mit einem Erwärmungsversuch verifiziert. Die Temperaturdifferenz zwischen Kontaktelement und Leiter ist bei Standardanwendungen, wie in Schaltanlagen, mit ≤ 3 K sehr klein. Deshalb ist die Leitertemperatur als Zielgröße beim Dimensionieren der Dauerstrombelastbarkeit ausreichend. Bei Kurzschlussstrombelastung wurde im Kontaktsystem eine schnelle, räumlich unterschiedlich ausgeprägte Erwärmung numerisch berechnet. Leiter und Kontaktelement erwärmen sich kontinuierlich, wobei die mittlere Endübertemperatur im Kontaktelement aufgrund des kleineren stromtragenden Querschnitts eine Größenordnung höher ist. Die Kontakte führen bei 50 Hz-Wechselstrom aufgrund ihrer vernachlässigbaren Wärmekapazität 100 Hz-Temperaturzyklen aus. Dabei können die Maximaltemperaturen noch deutlich größer als die mittlere Temperatur der Kontaktelemente sein. Im Langzeitversuch waren nach 16 000 h Betriebszeit bei 180 °C und regelmäßigen simulierten Steckvorgängen die Verbindungskräfte noch genügend groß, um die elektrischen Anforderungen eines neuen Kontaktsystems zu erfüllen. Allerdings führte bei einer Betriebstemperatur von 105 °C ein thermisch instabiles Schmierfett zum vorzeitigen elektrischen Ausfall eines Teils der Steckverbinder.:Einleitung Hochstrom-Kontaktsysteme – Stand der Technik Theorie der Kontakte bei hoher Strombelastung Stationäres elektrisch-thermisches Betriebsverhalten Transientes elektrisch-thermisches Betriebsverhalten Langzeitverhalten Zusammenfassung Ausblick / Switchgear and devices for the power grid use high-power connectors if moving parts have to be contacted or equipment shall be easily mountable and dismountable. The electrical connection of the conductors is often realized by spring-loaded contact elements. As part of the main circuit, contact elements must carry the full operating current in the kiloampere-range for the entire service life of the device. In case of a fault, the short-circuit current, which is one order of magnitude larger, has to be carried for up to several seconds. In this thesis, calculation models for the inner temperature rise of high-power contact systems in steady-state continuous operation, as well as for the transient short-circuit load case were developed. Electrical and mechanical long-term performance in the temperature range from 105 to 180 °C was experimentally investigated with current carrying, grease-lubricated model connectors which were regularly unplugged and replugged. Modelling, calculations and experiments were exemplarily carried out with Multilam contact elements. Conductors and contact element consisted of silver-plated copper. The analytical voltage-temperature relation was used to calculate the steady-state performance; calculations were verified with a temperature-rise test. The temperature difference from contact element to conductors is very small (≤ 3 K) for standard applications like switchgear. Thus, it is sufficient to use the conductor temperature as a criterion for the design of the continuous ampacity of high-power contact systems. At short-time load, a fast spatially inhomogeneous temperature rise was numerically calculated. Conductor and contact element continuously heat up; due to the smaller current carrying cross section, median final temperature rise in the contact element is one order of magnitude larger than in the conductors. Because of their negligible thermal capacity, contacts perform 100 Hz temperature cycles at 50 Hz AC load; the maximum contact temperatures may be significantly higher than the median temperature of the contact elements. In the long-term test, after 16 000 h operating time at 180 °C and regular plugging operations, contact elements maintained enough joint force to meet the requirements of a new contact system. At 105 °C however, a thermally instable grease led to electrical failure of part of the connectors.:Einleitung Hochstrom-Kontaktsysteme – Stand der Technik Theorie der Kontakte bei hoher Strombelastung Stationäres elektrisch-thermisches Betriebsverhalten Transientes elektrisch-thermisches Betriebsverhalten Langzeitverhalten Zusammenfassung Ausblick

info:eu-repo/classification/ddc/621.3

ddc:621.3

Feature-based Mini Unmanned Air Vehicle Video Euclidean Stabilization with Local Mosaics

Gerhardt, Damon Dyck

01 February 2007

Video acquired using a camera mounted on a mini Unmanned Air Vehicle (mUAV) may be very helpful in Wilderness Search and Rescue and many other applications but is commonly plagued with limited spatial and temporal field of views, distractive jittery motions, disorienting rotations, and noisy and distorted images. These problems collectively make it very difficult for human viewers to identify objects of interest as well as infer correct orientations throughout the video. In order to expand the temporal and spatial field of view, stabilize, and better orient users of noisy and distorted mUAV video, a method is proposed of estimating in software and in real time the relative motions of each frame to the next by tracking a small subset of features within each frame to the next. Using these relative motions, a local Euclidean mosaic of the video can be created and a curve can be fit to the video's accumulative motion path to stabilize the presentations of both the video and the local Euclidean mosaic. The increase in users' abilities to perform common search-and-rescue tasks of identifying objects of interest throughout the stabilized and locally mosaiced mUAV video is then evaluated. Finally, a discussion of remaining limitations is presented along with some possibilities for future work.

feature-based

mini unmanned air vehicle

mUAV

UAV

mUAV vision

UAV vision

video stabilization

video mosaic

Euclidean mosaic

Euclidean stabilization

local mosaic

aerial video

E-mosaic

stable-E

stable-E-mosaic

homography RANSAC filter

short circuit

jitter

Computer Sciences