Dimensionering av UPS-system och generatorer för reservkraftsystem på sjukhus och flygplatser / Dimensioning of UPS-systems and generators forreserve power at hospitals andairports

Jacobsson, Erik

January 2018

Sjukhus och flygplatser är precis som resten av samhället, beroende av el. Med dagens teknik är sjukhus och flygplatser högteknologiska ochväldigt störningskänsliga för elbortfall,vilket gör det viktigt att ha en stabil och säker kraftförsörjning utan avbrott. Ett avbrott i strömförsörjningen kan orsaka allvarliga,till och med livsfarliga konsekvenser. Att säkerställa ett bra och redundant reservkraftsystemär väsentligt för sjukhusen och flygplatserna. Syftet med studien var att undersöka samt ta fram reservkraftsystem med redundansförsjukhus och flygplatser. Under arbetets gång har litteraturstudie om generatorer och UPS-system (uninterruptible power supply) gjorts samt intervjuer med experter inom båda ämnena. Resultat visar de fundamentala delarna som är viktiga att ta hänsyn till vid dimensionering av reservkraftsystem. Men det visar också på att det finns många faktorersom spelar in vid dimensionering av systemen, vilket leder till att alla system ser olika ut och det finns inte riktigtnågon specifik mall att följa. / Hospitals and airports are just like the rest of society, dependent onelectricity. With today's technology, hospitals and airports are highly technological and highly sensitiveto electricity loss. Thatmakes it important to have stable and secure power supply without interruptions. An interruption of power supply can cause serious even fatal consequences. Ensuring a good and redundant reserve power system is essential for hospitals and airports. The purpose of the study was to investigate and provide good redundant solutions for reserve systems in hospitals and airports. During the course of the thesis, literature studies ofgenerators and UPS (uninterruptible power supply) systems have been conducted as well as interviews with experts in both subjects.Results show the fundamental aspects that should be taken into account when dimensioning reserve power systems. But it also shows that there are many aspects that affectthe system dimensioning, which means that all systems look different and there is no specific template to follow.

Reserve power

uninterruptible power supply

Elkraft

Reservkraft

UPS-system

Generator

Elektroteknik och elektronik

Participation Of Combined Cycle Power Plants To Power System Frequency Control: Modeling And Application

Yilmaz, Oguz

01 April 2006

This thesis proposes a method and develops a model for the participation of a combined cycle power plant to power system frequency control. Through the period of integration to the UCTE system, (Union for Coordination of Transmission of Electricity in Europe) frequency behavior of Turkey&rsquo / s grid and studies related to its improvement had been a great concern, so is the reason that main subject of my thesis became as &ldquo / Power System Frequency Control&rdquo / . Apart from system-wide global control action (secondary control) / load control loops at power plants, reserve power and its provision even at the minimum capacity generation stage, (primary control) are the fundamental concerns of this subject. The adjustment of proper amount of reserve at the power plants, and correct system response to any kind of disturbance, in the overall, are measured by the quality of the frequency behaviour of the system. A simulator that will simulate a dynamic gas turbine and its control system model, together with a combined cycle power plant load controller is the outcome of this thesis.

Energiewirtschaftliche Auswirkungen der Power-to-Heat-Technologie in der Fernwärmeversorgung bei Vermarktung am Day-ahead Spotmarkt und am Regelleistungsmarkt

Böttger, Diana

06 November 2017

Durch den Ausbau insbesondere wetterabhängiger erneuerbarer Energien steigen zukünftig die Anforderungen an die Bereitstellung von Flexibilität im Stromsektor. Wärmespeicher und Power-to-Heat-Anlagen in der Fernwärmeversorgung können einen großen Beitrag zur Bereitstellung von Flexibilität an der Schnittstelle von Strom- und Wärmesektor liefern. Die vorliegende Arbeit untersucht vor dem Hintergrund von unterschiedlichen regulatorischen Rahmenbedingungen, an welchen Märkten der Einsatz der Power-to-Heat-Anlagen aus Systemsicht den größten Mehrwert zur Integration von erneuerbaren Energien liefern kann. Mithilfe des Strommarktmodells MICOES-Europe wird der stündliche Kraftwerkseinsatz aller europäischen Kraftwerke vor dem Hintergrund des Ausbaus der erneuerbaren Energien untersucht. Ziel der gemischt-ganzzahligen Optimierung, die insbesondere techno-ökonomische Charakteristika thermischer Kraftwerke berücksichtigt, ist die kostenminimale Deckung des Strombedarfs im Großhandelsmarkt bei gleichzeitiger Erfüllung der Leistungsvorhaltung für Regelenergie. In Deutschland werden die größten Fernwärmenetze mit ihren zugehörigen Erzeugungsanlagen (Kraft-Wärme-Kopplungsanlagen, Heizwerke, Wärmespeicher) abgebildet und stündlich die optimale Deckung des Wärmebedarfs berechnet. In einem Szenario für das Jahr 2025 wird die Verfügbarkeit von 1.000 MW an Elektrokesseln in großen deutschen Fernwärmenetzen angenommen. Hierbei wird deren Einsatz nur am Spotmarkt oder nur für negative Sekundärregelleistung dem Fall gegenübergestellt, dass die Anlagen auf beiden Märkten agieren und sich situationsabhängig zwischen ihnen entscheiden können. Es werden dabei die Fälle verglichen, bei denen Elektrokessel entweder Abgaben auf den Stromverbrauch zahlen oder keine zusätzlichen Abgaben tragen müssen. Der Einsatz der Elektrokessel in Verbindung mit Wärmespeichern in der Fernwärmeversorgung kann den Einsatz der KWK-Anlagen so flexibilisieren, dass sich deren Stromerzeugung stärker an die Einspeisesituation der erneuerbaren Energien anpassen kann. Auf diese Weise kann in allen betrachteten Szenarien die marktbedingte Abregelung von erneuerbaren Energien verringert werden. Dabei sinken die CO2-Emissionen der Strom- und Wärmeversorgung ebenfalls in allen Szenarien. Die größten Reduktionen sowohl bei CO2-Emissionen als auch bei den variablen Kosten der Strom- und Wärmeerzeugung werden dabei in den Szenarien mit Teilnahme der Elektrokessel am Regelleistungsmarkt erreicht. Stellen Elektrokessel negative Sekundärregelleistung bereit, kann hierdurch die Must-run-Erzeugung thermischer Kraftwerke in Stunden mit hoher Einspeisung von erneuerbaren Energien deutlich gesenkt werden. Hierdurch ergibt sich ein großer Hebel für die Integration von Strom aus erneuerbaren Energien. / The requirements for the provision of flexibility in the power sector will increase in the future due to the expansion of the usage of weather-dependent renewable energy sources. Heat storage and power-to-heat-plants (electric boilers) in the district heating supply can provide flexibility at the interface of the power and heat sector. At the moment the use of power-to-heat plants is only cost-effective on the control power market due to the current regulation. High charges for the direct use of electricity impede a use on the spot market. The present work examines from a system perspective on which market the use of electric boilers can provide the largest benefits for the integration of renewable energies considering different regu-latory frameworks. The year 2025 is considered where Germany aims to reach a share of 40 to 45 % renewable energy generation in the gross power consumption. For this purpose the hourly power plant dispatch of all European power plants is examined using the electricity market model MICOES-Europe. The model describes the wholesale electricity market and the control power market (secondary and tertiary reserve). The aim of the mixed-integer optimization is the calculation of the cost-minimal coverage of the electricity demand in the wholesale market while at the same time fulfilling the provision of control power. The optimization takes into account in particular the techno-economic characteristics of thermal power plants. In Germany, the largest district heating grids with their associated generation plants (combined heat and power plants, fossil-fuel and electric boilers, heat storage) are modelled and the optimal coverage of the heat demand is calculated for every hour. With the assumed payment of high electricity charges the use of electric boilers on the spot market is no business case in 2025. The situation changes in the scenario without electricity charges. Here, electric boilers reach between 1,050 and 2,140 full load hours. If the electric boilers provide negative secondary control power, the must-run generation of thermal power plants in hours with a high feed-in of renewable energies can be reduced significantly. This results in a large lever for the integration of renewable energies. Electric boilers reach up to 1,800 full load hours by providing control energy, if they provide control power all year round and without payment of electricity charges. The use of the electric boilers in combination with heat storages in the district heating system can make the dispatch of combined heat and power plants more flexible, so that their electricity generation can be better adapted to the feed-in situation of renewable energies. In this way, the market-dependent curtailment of renewable energies can be reduced in all scenarios. The CO2-emissions of the electricity and heat supply can be reduced by this technology in Germany. Furthermore, CO2-emissions in other European countries can be reduced as well due to effects of the power trade. The highest reductions in both CO2-emissions and variable costs of electricity and heat generation are achieved in the scenarios with electric boilers participating in the control power market.

info:eu-repo/classification/ddc/330

ddc:330

Zajištění havarijního napájení jaderné elektrárny / Providing emergency supply of nuclear power plants

ROZMILER, Jiří

January 2013

Work "Providing emergency power nuclear power plant" describes how solving their own consumption nuclear power plant, as emergency power supply is designed and how it should be a solution of known states of emergency, having an immediate impact on the power consumption of their own nuclear power plants. The aim of this thesis is to propose options to strengthen its own emergency power consumption of nuclear power plants, one might say-more resistant to harsh extremes, which could lead to loss of employment, reserve and emergency power, that is the condition called Station Black Out (SBO) - total loss of power. The work also includes calculations of short-circuit ratios emergency resources considered as strengthening, as well as the calculation of acceleration heaviest drive and a summary of the overall impacts of the proposed hardening.

Posouzení výhodnosti výstavby přečerpávací vodní elektrárny velkého výkonu v lokalitě Cukrová bouda, okres Šumperk / The assessment of advantages of construction of large hydroelectric power plants in the area of Cukrova bouda, district Sumperk

Knápek, Michal

January 2012

The subject matter of the master´s thesis is, in particular, an evaluation of the advantageousness of the construction of a pumped-storage hydroelectric power station in the vicinity of Cukrová Bouda. In the master´s thesis introduction the utilisation of pumped-storage hydroelectric power stations in providing reserve power generation to the operator of a power transmission system is discussed. The thesis then focuses on a technical design solution where two alternatives are drawn up for which the nominal parameters of individual designs for a pumped-storage hydroelectric power station are specified. The following part deals with the impact of the structure and the plant’s subsequent operation on the environment. A further key part is the determination of investment and subsequent operating costs and an evaluation of the plant according to economic pointers. The final part of the master´s thesis contains a SWOT analysis and an assumed programme of works for the plant’s preparation and actual construction. The conclusion contains an overall evaluation.