Design and Construction of High Current Winding for a Transverse Flux Linear Generator Intended for Wave Power Generation

Amine Ramdani, Ahmed, Rudnik, Sebastian

January 2018

There is currently a high demand for electric power from renewablesources. One source that remains relatively untapped is the motionof ocean waves. Anders Hagnestål has been developing a uniquelyefficient and simplified design for a point-absorb buoy generator byconverting its linear motion directly into alternating electric power usinga linear PM engine. To test this method, a smaller prototype isbuilt. Its characteristics present some unusual challenges in the designand construction of its winding.Devices of this type typically use relatively low voltage (690V typicallyfor a wind turbine, compared to the 10kV range of traditionalpower plants). To achieve high power, they need high current, whichin turn requires splitting the conductors in the winding into isolatedparallel strands to avoid losses due to eddy currents and current crowding.However, new losses from circulating currents can then arise. Inorder to reduce said losses, the parallel conductors should be transposedin such a way that the aggregate electromotive force the circuitsthat each pair of them forms is minimized.This research and prototyping was performed in absence of advancedindustrial means of construction, with limited space, budget,materials, manpower, know-how, and technology. Manual ingenuityand empirical experimentation were required to find a practical implementationfor: laying the cables, fixing them in place, transferringthem to the machine, stripping their coating at the ends and establishinga reliable connection to the current source.Using theoretical derivations and FEM simulation, a sufficientlygood transposition scheme is proposed for the specific machine thatthe winding is built for. A bobbin replicating the shape of the enginecore is built to lay down the strands.The parallel strands are then organized each into their respectivebobbin, with a bobbin rack and conductor funneling device being designedand constructed to gather them together into a strictly-organizedbundle. An adhesive is found to set the cables in place.Problems with maintaining the orientation and configuration of thecables in the face of repeated torsion are met and solved. A chemicalsolution is used to strip the ends of the conductors, and a reliableconnection is established by crimping the conductors into a bi-metalCu-Al lug.ivIn conclusion, the ideal transposition schemes required to cancelout circulating currents due to magnetic flux leakage are impossibleto put in practice without appropriate technological means. The feasibletransposition scheme turns out to be a simple mirroring of conductors’positions, implemented by building each half of the windingseparately around replicas of the core and then connecting them usingcrimping lugs. / Efterfrågan på el från förnybara källor är hög och inget tyder på att det kommer ändras den närmsta tiden. En källa till förnybar el som än idag står relativt orörd är den där man använder energin från havsvå- gor. Det är denna förnybara källa Anders Hagnestål haft i åtanke när han nu bygger en unikt effektiv generator med syftet att i ett senare skede utvinna el med hjälp av flytande punktabsorberande vågkraft- system. Generatorn är av den linjära typen och omvandlar det punk- tabsorberande systemet rörelse till el. För att testa denna generator- modell så påbörjades bygget av två fullskaliga prototyper 2017. Denna uppsats behandlar specifikt arbetet med generatorlindningen till pro- totyperna och innefattar processen från design till själva byggnatio- nen. Lindingen består av flertalet mindre och isolerade lindningsleda- re med uppgift att bland annat minska skinneffekt och virvelströms- förluster. När man använder denna metod så uppkommer dock ett nytt problem vilket härstammar från att lindningsledarna är samman- kopplade i vardera ända och bildar på så sätt n slutna strömkretsar. Konsekvensen kan vara stora förluster från cirkulerande strömmar på grund av det magnetiska ströflöde som finns runt järnkärnan som lindningen omsluter. Utgångspunkten för att minimera dessa cirkule- rande strömmar är att transponera alla lindningsledare på ett sätt så att den resulterande elektromotoriska spänningen för varje strömkrets blir så liten som möjligt. Med hjälp av förenklade modeller samt FEM simuleringar så bestämdes ett lämpligt sätt att transponera lindningstrådarna utifrån oli- ka kriterier. Lösningen blev att lindningstrådarna endast transponera- des en gång med en så kallad 180 grader transponering. Detta ger en tillräckligt god minimering av de cirkulerande ström- marna, men den stora fördelen med denna lösning är att det är möjligt att linda maskinen med de små resurser projektet hade tillgång till, dock var detta till en stor nackdel då väldigt mycket tid gick till att hitta egna tillvägagångsätt för att utföra byggandet av lindningen på ibland okonventionella sätt.

Wave-power

transverse flux generator

winding

aluminum conductor

magnetic flux leakage

ocean energy

wave energy

wave energy generator

electromotive force

parallel strands

circulating currents

crowding effects

skin effect

proximity effect

eddy currents

racetrack effect

cable twisting

AlCu connection

enamel

polyamide-imide

dicloromethane

Vågkraft

transversalflödesgenerator

lindningsledare

Engineering and Technology

Teknik och teknologier

THERMODYNAMIC RESTRICTIONS ON SURFACE STRESS, AND ITS ESHELBIAN FORMS, FOR AN INTERFACE DRIVEN BY MECHANICAL, THERMAL AND CHEMICAL FORCES WITH APPLICATIONS TO SNBI SOLDER JOINTS

Pei-En Chou (19691614)

19 September 2024

<p dir="ltr">This thesis explores the thermodynamics and mechanics of reaction-diffusion interfaces in solid materials, focusing on configurational forces for bulks and surfaces, which are essential in understanding phenomena like electromigration, phase separation, and void evolution. The work is divided into four themes: bulk and surface configurational mechanics, electromigration in solder joints, and solid mixture theory. The thesis develops theories based on continuum mechanics and configurational forces, deriving Eshelby stress tensors and balance laws for interfaces. Experimental work on electromigration in SnBi solder joints is used to validate the theory. The research contributes to advancing the understanding of solid-state diffusion and phase evolution in engineering materials.</p>

Microelectronics

Solid mechanics

interconnect deformation

interconnect test structures

Solid mechanics

Configurational Force

Moving interfaces

Eshelby

Second Law of Thermodynamics

fracture mechanics theory

Continuum mechanics.

surface stress f

Interface balance laws

current crowding

EDX characterization

sem characterizations

X-ray tomographic microscopy

FIB methods

Reaction Diffusion Theory

Solid state diffusion

electromigration device

cleanroom fabrication

The impact of federal government welfare expenditures on state government expenditures and philanthropic giving to human service organizations (HSOs) : 2005-2006

Kim, Sung-Ju

12 June 2014

Indiana University-Purdue University Indianapolis (IUPUI) / A sizeable body of research has attempted to examine the interaction between government spending and private giving known as the crowd-out effect. Most researchers reported that increases of government spending cause decreases of philanthropic giving to different types of nonprofits. However, few studies have attempted to indicate the interaction between government welfare expenditures and private giving to human service organizations even though human service organizations are the most sensitive to the changes of government spending. Additionally, the estimated crowd-out effects with a simple crowd-out model have been criticized for potential endogeneity bias. This paper investigates the total effect of federal government welfare spending on state government expenditures and philanthropic giving to human service organizations (known as joint crowd-out). I used the 2005 wave of the Center on Philanthropy Panel Study (COPPS) to estimate the effect of federal human service grants on state government spending on, and donations to human services. From these reduced-form estimates I infer the levels of simple and joint crowd-out. I found that indicate federal spending on public welfare crowds out private giving to human service organizations while holding control variables constant in the donations equation. However, federal government spending on public welfare crowds in state government spending on public welfare.

Nonprofit organizations -- Management

Expenditures, Public

Risk -- Econometric models

Charities -- United States -- Finance

United States -- Social policy

Fiscal policy -- Mathematical models

Welfare state -- Research

Social service -- Finance -- States