Magnetic Leakage Fields and End Region Eddy Current Power Losses in Synchronous Generators

Marcusson, Birger

January 2017

The conversion of mechanical energy to electrical energy is done mainly with synchronous generators. They are used in hydropower generators and nuclear plants that presently account for about 80% of the electric energy production in Sweden. Because of the dominating role of the synchronous generators, it is important to minimize the power losses for efficient use of natural resources and for the economies of the electric power companies and their customers. For a synchronous machine, power loss means undesired heat production. In electric machines, there are power losses due to windage, friction in bearings, resistance in windings, remagnetization of ferromagnetic materials, and induced voltages in windings, shields and parts that are conductive but ideally should be non-conductive. The subject of this thesis is prediction of end region magnetic leakage fields in synchronous generators and the eddy current power losses they cause. The leakage fields also increase the hysteresis losses in the end regions. Magnetic flux that takes paths such that eddy current power losses increase in end regions of synchronous generators is considered to be leakage flux. Although only a small fraction of the total magnetic flux is end region leakage flux, it can cause hot spots, discoloration and reduce the service life of the insulation on the core laminations. If unattended, damaged insulation could lead to electric contact and eddy currents induced by the main flux between the outermost laminations. That gives further heating and deterioration of the insulation of laminations deeper into the core. In a severe case, the core can melt locally, cause a cavity, buckling and a short circuit of the main conductors. The whole stator may have to be replaced. However, the end region leakage flux primarily causes heating close to the main stator conductors which makes the damage possible to discover by visual inspection before it has become irrepairable.

magnetic leakage fields

leakage flux

eddy currents

losses

synchronous generator

Annan elektroteknik och elektronik

Mathematical Analysis

Matematisk analys

Strategic Environmental Policy and the Mobility of Firms

Richter, Philipp M., Runkel, Marco, Schmidt, Robert C.

01 April 2019

The loss of international competitiveness of domestic industries remains a key obstacle to the implementation of effective carbon prices in a world without harmonized climate policies. We analyze countries' non-cooperative choices of emissions taxes under imperfect competition and mobile polluting firms. In our general equilibrium setup with trade, wage effects prevent all firms from locating in the same country. While under local or no pollution countries achieve the first-best, under transboundary pollution taxes are inefficiently low and lower than under autarky where only the `standard' free-riding incentive distorts emissions taxes. This effect is more pronounced when polluting firms are mobile.

info:eu-repo/classification/ddc/330

ddc:330

Environmental Policy and Firm Selection in the Open Economy

Kreickemeier, Udo, Richter, Philipp M.

01 July 2019

In this paper, we analyse the effects of a unilateral change in an emissions tax in a model of international trade with heterogeneous firms. We find a positive effect of tighter environmental policy on average productivity in the reforming country through reallocation of labour towards exporting firms. Domestic aggregate emissions fall, due to both a scale and a technique effect, but we show that the reduction in emissions following the tax increase is smaller than in autarky. Moreover, general equilibrium effects through changes in the foreign wage rate lead to a reduction in foreign emissions and, hence, to negative emissions leakage in case of transboundary pollution.

info:eu-repo/classification/ddc/330

ddc:330

Managing immigrant construction workers in peninsular Malaysia : the economic perspective

Mustapa, Fara D.

January 2014

The function of the construction industry in an economy has proven to be beneficial, especially during the economic downturn. The nature of the products of the construction industry makes it possible for the government to utilise the industry as a means to accelerate and multiply the economy by utilising the fiscal budget to build infrastructures. By so doing, the economy will be multiplied as the construction industry is an industry that produces investment goods. However, due to the nature of the Malaysian construction sector, the expenses required to stimulate the economy could not be made to the maximum extent, as the industry relies heavily on immigrant construction workers to address its labour supply problem. Immigrant construction workers are known for their high tendency to remit their salary to their country of their origin. This scenario disturbs the economic cycle within the Malaysian economy and, hence, dampens the function of the construction industry as the multiplier-accelerator provider. This research was undertaken to better manage the cash flow economic cycle leakage by adopting some economic measures coupled with improvised management of immigrant construction workers exercised through legislation. The adopted research methodology used transformative mixed-methods to balance the limitations of a single research approach. A literature review of the economic models and tools were conducted in a search for the most suitable measures, while attempting to understand the nature of construction industry by highlighting the structure and the problems associated with the industry. Special attention was also given to investigate the motivation behind the human migration to justify and support the research. Other than issues involving the use of immigrant workers, special attention was given to issues of remittances and its impacts on the global economy. The findings underpinned by literature and the research findings were used to develop the conceptual framework to manage the economic cycle leakage that is entrenched in the construction industry s economic cycle. The integrated framework consists of economic, management and legislation and was developed to address the issues highlighted. The use of economic tools can only be materialised through better management and the execution of legislation. The framework was encapsulated in a combination of process protocol and a maturity framework to allow time for the policy makers to implement it. Considerations have been made to develop the framework to ensure the smooth transition its implementation. The framework was self-validated through formative evaluations where data were attained from several parties to reduce any bias perspective. In addition, most of the measures suggested were derived from interviews conducted among the respondents. Several benefits of the framework were identified. It is concluded that the impact of immigrant construction workers employment can be managed by considering the appropriate tools in the form of economic, managerial and legislation measures. This research has developed an integrated process protocol maturity framework that addresses the three aforementioned aspects. The framework is simple and easily understandable with detailed activity zones that entail specific tasks that must implemented by different parties. The developed framework is expected to aid the authorities in managing immigrant construction in Malaysia and to effectively manage these workers. The framework also allows time for its implementation through the maturity stages suggested.

331.6

Leak detection and location in polyethylene pipes

Pal, Maninder

January 2008

This thesis is focused on the application of cross-correlation technique for leak detection and location in medium density polyethylene (MDPE) pipes. A leaking water pipe generates noise that depends primarily on water pressure, pipe characteristics and the leak size and shape. This noise, commonly called leak signals, can be used for the purpose of leak detection and leak location in MDPE pipes. A correlation technique is typically employed to detect, position and characterise these water leaks and is proved to be very efficient for metallic pipes. However, the same is not true for MDPE pipes where the attenuation rate with distance of the leak/source signal is very high, and the generated leak signals are of low frequency and narrow bandwidth. In order to locate leak with good accuracy in MDPE pipes, the correlation process relies on the estimation of speed of leak signals in water/pipe and the time delay between leak signals measured at two locations. For time delay estimation, a correlation function is used. Its accuracy depends upon the sharpness of the correlation peak, type and positioning of sensor, and the processing of signals obtained, which in turn further depends upon the characteristics of leak signals. In MDPE pipes, leak signals are of low frequency and narrow bandwidth; however, their frequency response is not well characterised. Therefore, this thesis presents an analytical model to explain the acoustic characteristics of leak signals in MDPE pipes. The model is used to study the effects of the cut-off frequencies of low, high and band pass digital filters and the selection of acoustic/vibration sensors for the correlation technique. It detailed the importance of the cut-off frequency of the high pass filter and the insensitivity of the correlation function to the cut off frequency of the low pass filter.

624

An evaluation of HTV-SR insulators with different creepage lengths under AC and bipolar DC in marine polluted service conditions

Elombo, Andreas Iyambo

03 1900

Thesis (MScEng)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: The use of high voltage direct current (HVDC) applications has gained enormous popularity for long distance power transmission. This is due to the lucrative benefits offered by this type of power transmission technology when compared to the traditional high voltage alternative current (HVAC). This new shift in the paradigm of power system design has led to the increased interest in the research that focuses on issues relating to the reliability of power supply associated with HVDC. Amongst such issues, insulation coordination has increasingly become a challenging task that continues to receive renewed research focus. It has been convincingly demonstrated, both from field experience and laboratory research, that insulator contamination constitutes a multifaceted phenomenon, especially when transmission voltages ramp up into high operating voltage levels. More so, this is particularly interesting with reference to the increasing applications of high voltage direct current (HVDC). The recently commissioned HVDC power-line in Namibia is one of the major motivations upon which NamPower (Namibia‟s national power utility) has committed financial resources to research on insulator pollution performance. This project was a part of NamPower‟s research initiative – seeking to investigate the phenomena associated with insulator pollution performance under natural pollution environments when energized under both AC and DC excitation voltage types. The significance of this research is especially crucial for HVDC applications given the paucity of research conducted on the DC performance of insulators, under natural pollution environments. This study was conducted at the Koeberg Insulator Pollution Test Station (KIPTS) on the west coast of Cape Town in the Western Cape province of South Africa. KIPTS is an internationally recognized insulator pollution test facility, which is widely used by both insulator manufacturers and academic researchers from many parts of the world. STRI and ABB, both Swedish-based companies, are good examples of international subscribers to the KIPTS research facility. The first objective of this research was to design a suitable DC excitation voltage system for both DC+ and DC- to be used at KIPTS. This apparatus was designed and built at the University of Stellenbosch. The second objective was to conduct a comparative evaluation of the performance of high temperature vulcanized silicone rubber (HTV-SR) power line insulators under AC, DC+ and DC- when subjected to natural pollution conditions at KIPTS. All test insulators were made from the same material and sourced from the same manufacturer – having different creepage lengths. Five different creepage lengths were considered for each excitation voltage – summing up to fifteen HTV-SR test samples. A standard DC glass disc insulator was also installed on each excitation voltage as a control sample. It was therefore envisaged that this study would give rise to new research questions, leading to future explorations on the subject. With reference to weather monitoring and leakage current measurements (using an online leakage current monitoring device - OLCA), a correlation was found to exist between the variations in climatic conditions and the corresponding occurrence of leakage current on the insulator surfaces. High leakage current levels were recorded in summer due to the high pollution levels that were measured in that season (using the equivalent salt deposit density (ESDD) approach). Winter, in contrast, had lower levels of leakage current recorded. This corresponds to a high prevalence of rainfall in winter, which caused occasional natural washing of the insulator surfaces. The leakage current levels for the HTV-SR insulators were of a similar order of magnitude for AC and DC+ and lower for DC-. The harshest pollutants (with high conductivities, as measured with the directional dust deposit gauges (DDDG)) were found to have emanated largely from the south. As a result, most instances of erosion were observed in the southward direction on the test insulators. The electrical discharge activity observations, conducted at night, had revealed that dryband corona (DBC) and dryband discharge (DBD) prominently occurred on the terminating sheaths (both live and ground ends) and bottom side of HTV-SR and glass disc insulators, respectively. This justifies the dominance of erosion that was observed on the terminating sheaths and bottom side of HTV-SR and glass disc insulators, respectively. Flashover events were recorded on the shortest HTV-SR insulator installed on DC+ and the glass disc insulator installed on DC-. All flashover events occurred in summer (the harshest season at KIPTS). Two interesting observations, albeit unexplained, were observed: star-shaped erosion on the shed bottoms of the HTV-SR insulators installed on DC+ and material peel-off at the shed-to-sheath bonding interface of the HTV-SR insulators installed on DC-. These observations therefore require further investigation in order to establish possible explanations. / AFRIKAANSE OPSOMMING: Die gebruik van hoë gelykspanning (HSGS) het baie gewild geword vir kragtransmissie oor lang afstande. Dit is as gevolg van die uitstekende voordele wat hierdie tipe tegnologie teenoor die tradisionele hoë wisselspanning (HSWS) bied. Hierdie paradigmaskuif in die ontwerp van kragstelsels het tot verhoogde belangstelling in navorsing gelei wat betrekking het op aspekte wat verband hou met die betroubaarheid van kragvoorsiening deur HSGS. Van hierdie aspekte word isolasiekoördinasie toenemend ʼn uitdagende taak en navorsing word tans daarop toegespits. Daar bestaan oortuigende bewyse, gebaseer op laboratorium- en veldtoetse dat isolatorbesoedeling ʼn verskynsel met vele fasette is, veral wanneer hoër spannings gebruik word. Dit is in „n meerdere mate van belang met verwysing na toepassings van HSGS. Die onlangs inbedryfgestelde HSGS kraglyn in Namibië is een van die hoofmotiverings vir die verskaffing van geldelike steun deur NamPower (Namibië se nasionale kragvoorsiener) vir navorsing oor die besoedelingsprestasie van isolators. Hierdie projek is deel van NamPower se navorsingsinisiatief om verskynsels betreffende die besoedelingsprestasie van isolators in natuurlik-besoedelde omgewings te ondersoek, onder WS en GS-bekragtiging. Die betekenis van hierdie navorsing is veral belangrik vir die HSGS-toepassings in die lig van die skaarsheid van navorsing oor die GS-prestasie van isolators in natuurlik-besoedelde omgewings. Hierdie studie is gedoen by die Koeberg isolatorbesoedelingstoetsstasie (KIPTS) aan die weskus van die Wes-Kaap. KIPTS is 'n internasionaal-erkende toetsfasiliteit en word algemeen gebruik deur beide isolatorvervaardigers en akademiese navorsers uit baie dele van die wêreld. STRI en ABB, albei Sweeds-gebaseerde maatskappye, is die goeie voorbeelde van die internasionale gebruikers van die KIPTS navorsingsfasiliteit. Die oogmerk van hierdie navorsing was om eerstens 'n geskikte GS-kragbron vir beide die GS+ en die GS- vir gebruik by KIPTS te ontwerp. Hierdie apparaat is ontwerp en gebou deur die Universiteit van Stellenbosch. Tweedens is 'n vergelykende evaluering van die prestasie hoë temperatuur gevulkaniseerde silikoon (HTV-SR) kraglynisolators onder WS, GS+ en GS– onder natuurlike besoedeling by die KIPTS uitgevoer. Alle toetsisolators is van dieselfde materiaal gemaak en is afkomstig van dieselfde vervaardiger, maar het verskillende kruipafstande. Vyf verskillende kruipafstande is gebruik vir elke tipe spanning  'n totaal van vyftien HTV-SR toets monsters. 'n Standaard GS glasisolatorskyf is ook vir elke spanning as' n kontrolemonster geïnstalleer. Dit kan dus verwag word dat hierdie studie aanleiding sal gee tot nuwe navorsingsvrae, wat kan lei tot verdere toekomstige ondersoeke oor die onderwerp. Met verwysing na die monitering van die weer en die lekstroommetings (met behulp van 'n aanlyn-lekstroommoniteringstoestel - OLCA), is 'n korrelasie gevind tussen die variasie in klimaatstoestande en die ooreenstemmende voorkoms van lekstroom op die isolator- oppervlaktes. Hoë lekstroomvlakke is waargeneem in die somer, as gevolg van die hoë besoedelingsvlakke wat in daardie seisoen gemeet is (met behulp van die ekwivalente soutneerslag-digtheid (ESDD) metode). In die winter, in teenstelling, is die laagste vlakke van lekstroom aangeteken. Dit stem ooreen met 'n hoë voorkoms van reënval in die winter, wat die isolatoroppervlaktes van tyd tot tyd natuurlik gewas het. Die lekstroomvlakke op die HTV-SR isolators was van soortgelyke ordegrootte vir WS en GS+ maar laer vir GS-. Dit is bevind dat die ergste besoedelingstowwe, met 'n hoë geleiding, soos gemeet met die rigtingsensitiewe stofneerslagsmeters (DDDG), hoofsaaklik uit ʼn suidelike rigting kom. As gevolg hiervan, is die meeste gevalle van erosie aan die suidekant van die toetsisolators waargeneem. Die waarneming van elektriese ontladingsaktiwiteit in die nag, het aan die lig gebring dat droëbandkorona (DBC) en droëbandontladings (DBD) prominent voorgekom het op die skedes aan die uiteindes (beide lewende en grond kante) en onderste kant van HTV-SR en glasskywe, onderskeidelik. Oorvonkings is waargeneem op die kortste HTV-SR isolator op GS+ en op die glasisolator op GS-. Al die oorvonkings het in die somer (die ergste seisoen by KIPTS) voorgekom. Twee interessante, dog onverklaarbare, verskynsels is waargeneem: stervormige erosie aan die onderkante van die skerms van die HTV-SR isolators op GS+ en material-afskilfering by die skerm-skede tussenvlak van die HTV-SR isolators op GS-. Hierdie verskynsels vereis verdere ondersoek ten einde moontlike verklarings vas te stel.

Leakage current

Marine pollution

High voltage

Insulator pollution

Insulator ageing

Dissertations -- Electrical engineering

Theses -- Electrical engineering

PHONON-ENERGY-COUPLING-ENHANCEMENT EFFECT AND ITS APPLICATIONS

Ong, Pang-Leen

01 January 2008

Silicon Oxide/Oxynitride (SiO2/SiON) has been the mainstream material used for gate dielectric for MOS transistors for the past 30 years. The aggressive scaling of the feature size of MOS transistor has limited the ability of SiO2/SiON to work effectively as the gate dielectric to modulate the conduction of current of MOS transistors due to excess leakage current dominated by direct quantum tunneling. Due to this constraint, alternative gate dielectric/high-k is being employed to reduce the leakage current in order to maintain the rate of scaling of MOS transistors. However, the cost involved in the implementation of these new gate dielectric materials are high due to the requirements of a change in the process flow for device fabrication. This work presents the results of a novel processing method implementing the use of rapid thermal processing (RTP) on conventional SiO2/SiON gate dielectric to reduce the gate leakage current by three to five orders of magnitude. Electrical properties of the effect were characterized on fabricated MOS capacitors using semiconductor parameter analyzer and LCR meter. Material characterization was performed using FT-IR to understand the mechanism involved in this novel processing method, named PECE (Phonon-Energy-Coupling-Enhancement). By implementing this novel process, the use of SiO2/SiON as gate dielectric can be scaled further in conventional process flow of device fabrication.

Gate Leakage Current

Direct Tunneling Current

Silicon Oxide

Energy Coupling

FT-IR

Electrical and Electronics

Engineering

Grundvattenpåverkan kring järnvägstunnlar i berg / Groundwater influence around railway tunnels in rock

Ormann, Linda

January 2006

<p>Rock groundwater has always caused major problems when tunnelling. Water leaking into tunnels can cause large problems, not only on the construction itself but also on the environment. A continuous water leakage can lead to a declining water supply, and geotechnical problems can occur as subsidence in the ground. Therefore it is of great importance to predict the consequences that can appear in the surroundings due to a declining groundwater surface.</p><p>The aim of the study was to investigate different methods for predicting leakage and changes in groundwater level due to tunnelling excavations in rock. This thesis was performed by comparing mathematical methods, actual groundwater changes and results from preliminary investigations.</p><p>Investigations were made for three railway tunnels planned by Botniabanan AB. Varvsbergstunneln (2 km), Åsbergstunneln (1 km) and Strannebergstunneln (1.4 km) all situated in the surroundings of Örnsköldsvik. During the time this thesis was performed, all tunnels have been fully excavated.</p><p>This thesis has emphasised difficulties in predicting groundwater behaviour as tunnelling excavations are made in rocks. The reason is the complex characteristics of rocks. The conductivity seems to be the parameter that is most difficult to determine with a high accuracy, and hence the accuracy shows in the results. Also the result is affected by the chosen mathematical method. Although careful preliminary investigations are made, it is hard to determine the rock characteristics with such accuracy that leakage and groundwater level changes can be predicted with high precision. However, mathematical methods are a good supplement when determining groundwater influences around railway tunnels in rock.</p> / <p>Vatten i berg har ofta inneburit stora problem vid tunnelbyggen. Vatten som läcker in i tunnlar kan orsaka stora problem på såväl konstruktionen som miljön och dessutom kan ett stort inflöde medföra stabilitetsproblem. Om vatten läcker in kontinuerligt kan omgivningarna dräneras så att vattentillgången minskar och geotekniska problem kan uppstå i form av sättningar i marken. Det är därför av stor vikt att prediktera inläckaget och de konsekvenser som kan uppstå på omgivningen till följd av en grundvattensänkning.</p><p>Syftet med arbetet har varit att undersöka olika metoder för att förutspå inläckage och nivåförändring av grundvatten i samband med tunnelbygge i berggrund. Arbetet utfördes genom att en jämförelse gjordes mellan matematiska metoder, verkliga grundvattenförändringar samt resultat från förundersökningar.</p><p>Undersökningar gjordes för tre järnvägstunnlar som är projekterade av Botniabanan AB. Varvsbergstunneln (2 km), Åsbergstunneln (1 km) samt Strannebergstunneln (1.4 km) som alla är belägna i närheten av Örnsköldsvik. Under examensarbetets gång har man hunnit driva igenom samtliga tre tunnlar.</p><p>Examensarbetet har påvisat svårigheterna i att förutspå grundvattnets beteende vid tunnelbyggen i berggrund. Detta beror på att berggrunden är ett komplext byggnadsmaterial vars egenskaper är svåra att bestämma. Konduktiviteten tycks vara den parameter som är svårast att bestämma med hög noggrannhet, och noggrannheten avspeglas i resultatet. Dessutom beror resultatet av vilken beräkningsmetod som väljs. Trots utförliga förundersökningar är det alltså svårt att bestämma bergets egenskaper med sådan noggrannhet att inläckage och nivåförändring av grundvatten kan förutspås med stor precision. Dock är matematiska metoder bra hjälpmedel för att bestämma grundvattenpåverkan kring järnvägstunnlar i berg.</p>

rock

Botniabanan

groundwater

grouting

leakage

railway tunnels

mathematical methods

Stranneberget

Varvsberget

Åsberget

Örnsköldsvik

Hydrology

Hydrologi

Long term heavy metal contamination from leakage water sediments

Brodd, Patrick

January 2004

No description available.

Uranium mining

mill tailings

leakage water

sediments

heavy metals

leaching tests

future risks

Environmental chemistry

Miljökemi

Securing open multi-agent systems governed by electronic institutions

Bijani, Shahriar

January 2013

One way to build large-scale autonomous systems is to develop an open multi-agent system using peer-to-peer architectures in which agents are not pre-engineered to work together and in which agents themselves determine the social norms that govern collective behaviour. The social norms and the agent interaction models can be described by Electronic Institutions such as those expressed in the Lightweight Coordination Calculus (LCC), a compact executable specification language based on logic programming and pi-calculus. Open multi-agent systems have experienced growing popularity in the multi-agent community and are expected to have many applications in the near future as large scale distributed systems become more widespread, e.g. in emergency response, electronic commerce and cloud computing. A major practical limitation to such systems is security, because the very openness of such systems opens the doors to adversaries for exploit existing vulnerabilities. This thesis addresses the security of open multi-agent systems governed by electronic institutions. First, the main forms of attack on open multi-agent systems are introduced and classified in the proposed attack taxonomy. Then, various security techniques from the literature are surveyed and analysed. These techniques are categorised as either prevention or detection approaches. Appropriate countermeasures to each class of attack are also suggested. A fundamental limitation of conventional security mechanisms (e.g. access control and encryption) is the inability to prevent information from being propagated. Focusing on information leakage in choreography systems using LCC, we then suggest two frameworks to detect insecure information flows: conceptual modeling of interaction models and language-based information flow analysis. A novel security-typed LCC language is proposed to address the latter approach. Both static (design-time) and dynamic (run-time) security type checking are employed to guarantee no information leakage can occur in annotated LCC interaction models. The proposed security type system is then formally evaluated by proving its properties. A limitation of both conceptual modeling and language-based frameworks is difficulty of formalising realistic policies using annotations. Finally, the proposed security-typed LCC is applied to a cloud computing configuration case study, in which virtual machine migration is managed. The secrecy of LCC interaction models for virtual machine management is analysed and information leaks are discussed.