Golvvärme eller radiatorer : Vattenburna värmesystem i flerbostadshus / Underfloor heating or radiators : Waterborne heating systems in apartment blocks

Tanik, Ahmet, Schedin, Richard

January 2017

I flerbostadshus är radiatorer det vanligaste uppvärmningssystemet. Inte alls många har golvvärme i deras lägenheter. I dagens nyproduktion av flerbostadshus bygger man för det mesta husen med radiatorer och har elburen golvvärme som komfortvärme i badrummen. I villor är det däremot mycket vanligare att man använder sig av vattenburen golvvärme över större delen av huset. Detta examensarbete undersöker varför det inte används golvvärme lika mycket i flerbostadshus, det undersöker även intresset för privatpersoner att ha golvvärme i lägenheter samt om dessa personer isåfall hade kunnat tänka sig betala mer pengar om de fick vattenburen golvvärme installerat vid nyproduktion.Resultaten har fåtts fram genom en enkätundersökning samt intervjuer där vi intervjuat kunniga inom området. Våra resultat visar att nästan 40% av de enkät intervjuade hade velat ha endast golvvärme som uppvärmningssystem medan ungefär 55% hade velat ha både radiatorer och golvvärme som ett gemensamt uppvärmningssystem. De flesta hade då velat ha golvvärme i bland annat toalett, badrum, hall, kök, vardagsrum och sovrum. Resultaten visar även att nästan hälften av de enkät besvarande hade kunnat tänka sig betala mer för en bostad med golvvärme medan den större delen av den andra hälften var osäkra och förmodligen behövde mer tid för att tänka. Resultaten gällande varför man inte använder vattenburen golvvärme i lägenheten lika ofta som man använder radiatorer visade sig variera lite mellan de intervjuade vilket vi tror har med erfarenheter att göra men att ett golvvärmesystem var installationsmässigt dyrare än ett radiatorsystem verkade vara huvudsaken. / In prefabricated apartment blocks the most common thing people have in their homes is radiators as their waterborne heating system but very few have underfloor heating in their apartments. Nowadays the most usual thing to do is to install radiators and have underfloor electric heating in the bathrooms. Most residentials however usually have waterborne underfloor heating across the bigger part of the house. This report digs into why underfloor heating isn’t being used as often in apartment buildings, it also investigates people’s interest to have underfloor heating in apartment buildings plus if they then would be interested in paying more for a new apartment with waterborne underfloor heating.The outcome from our results has been achieved through a survey and interviews where we have questioned competent persons within the sector. Our results show that 40% of the people in the survey would like to have only underfloor heating as their waterborne system while 55% of the people would like to have a combined system with both radiators and underfloor heating. Most of them preferred to have underfloor heating in their toilets, bathrooms, entrance hall, kitchen, living room and bedroom. The results also show that almost half the persons in the survey could pay more money for a place with underfloor heating while the bigger part of the other half weren’t sure and probably needed more time to think. Our outcome on why waterborne underfloor heating in apartment buildings isn’t being used as often as radiators showed to differ between the interviewed persons which we assume have to do with their different backgrounds and experience but the main reason seemed to do with the part that a waterborne underfloor heating system in an installation point of view is more expensive than a radiator system.

Heating system

underfloor heating

radiator

installation

waterborne

apartment blocks

temperature

heating coils

Värmesystem

golvvärme

radiator

installation

vattenburen

flerbostadshus

temperatur

värmeslingor

Construction Management

Byggproduktion

Achieving Invisible Balance: Utilizing Novel Elliptical Traps for Improved Radiofrequency Coil Thermodynamic Stability, Minimized Field Distortion, and Common-Mode Current Suppression

Jana Vincent (10711377)

29 April 2021

<p>Advances in Magnetic Resonance Imaging (MRI) have been made possible through increased field strengths and innovations in radiofrequency (RF) coils. With increasing field strengths, unique challenges are presented in RF coil development, namely the suppression of common-mode currents present along the shields of the cabling that connect the RF coil to the MR scanner. These currents can lead to coupling with the coil, resulting in a reduction of coil sensitivity and signal-to-noise ratio. These currents can induce local electric fields that beyond a certain level can exceed SAR limits and even cause patient burns. Several cable trap designs exist to help address this problem; however, many of the existing designs, such as bazooka cable traps, are rigid and bulky. This leads to increased overall coil weight and impedes the flexibility of the cable. Improving upon these designs, a small, 3D-printed, lightweight elliptical cable trap is presented. The unique geometry makes it invisible to the MR scanner while maintaining significant mutual inductance that can produce up to 380 Ω on the cable. These structures were wrapped with stranded wire containing four breaks for tuning capacitors. 60 of these elliptical cable traps were placed along the length of a 139-cm cable, replacing the standard 4 bazooka cable traps. The results of B₁ distortion and heating tests showed that these elliptical baluns improve RF coil thermodynamic stability, produce less B₁ distortion, and reduce overall coil weight and bulk compared to a cable with four bazooka traps. </p>

Magnetic Resonance Imaging

Cable Traps

Radiofrequency Coils

MRI Safety

MR Engineering

Stretching the Boundaries of Radiofrequency Coil Design For MRI: Innovations in Lightweight, Flexible, and Stretchable Designs for Enhanced Patient Comfort and Image Quality

Jana Vincent (10711377)

29 April 2021

<p>There have been several advancements in radiofrequency (RF) coil development for magnetic resonance imaging (MRI) to improve both image quality and patient comfort. Notable to these improvements is the trend towards lightweight and flexible coils allowing for the conformation around a variety of anatomies and body sizes. This allows for a more comfortable patient experience and enhanced signal reception. Despite these improvements, flexible supine coils for dedicated breast imaging, or larger stretchable coil arrays for closer proximity of placement and imaging at degrees of flexion, are not available. Conventional breast coils are rigid and typically require prone positioning which creates uncomfortable pressure points along the sternum. Also, these coils do not encompass the axilla or areas in the upper chest wall. Additionally, surgical planning is performed in the supine position, making it challenging to localize lesions from prone MRI scans. To address these issues, two novel RF coil technologies are presented. Firstly, a flexible, lightweight, 60-channel supine breast coil has been constructed. This coil provides shorter scan times, greater coverage of the breasts, axilla, upper chest wall, and torso while also providing enhanced patient comfort over conventional breast coils. The second RF coil technology is a 20-channel stretchable, multipurpose coil. This coil addresses limitations of conformability around curved surfaces while allowing for the imaging of joints at a bend. Due to the stretchability, this coil exhibited enhanced signal and image quality for a variety of body sizes and anatomies, such as ankles and wrists, when compared to a flexible commercial coil.</p>

Medical devices

Magnetic Resonance Imaging

MR Engineering

Radiofrequency Coils

Breast Imaging

Musculoskeletal Imaging

Medical Devices

Développements méthodologiques et techniques pour le contrôle qualité en imagerie par résonance magnétique / Technical and methodological development for Magnetic Resonance Imaging quality control

Sewonu, Anou

27 January 2014

De plus en plus utilisée en routine clinique, l'Imagerie par Résonance Magnétique (IRM) est très fréquemment associée à d'autres modalités d'imagerie médicale dans le cadre d'études multicentriques. Elle est également utilisée à des fins de quantification et sa technologie se complexifie, notamment avec l'utilisation croissante d'antennes en réseau phasé. Ces raisons contribuent à amplifier le besoin d'assurance qualité car il importe de surveiller les performances des appareils cliniques afin de se prémunir d'erreurs de diagnostic que leurs dérives peuvent entrainer. Des travaux, très tôt engagés sur le contrôle qualité (CQ) en IRM, ont posé les bases pour la conception d'objets-test et des mesures physiques nécessaires au suivi. Ces travaux ont aussi permis de dégager deux approches pour les procédures de CQ en IRM, à savoir des approches mono-objet et multi-objet. Les travaux menés poursuivent le premier objectif de développer une méthodologie de suivi périodique des appareils d'IRM qui soit pratique, peu chronophage, statistiquement robuste et compatible avec différents appareils. L'approche mono-objet issue des travaux de l'American College of Radiology a été choisie pour élaborer la procédure. Les travaux ont porté sur les principaux aspects du processus de réalisation des tests. La procédure hebdomadaire résultante, d'une durée de réalisation inférieure à 10 min, a été testée avec succès sur 6 sites disposant d'appareils de différentes gammes. Le deuxième objectif porte sur le contrôle spécifique des antennes en réseau phasé. Ceux-ci sont essentiellement caractérisés par deux paramètres qui ont été identifiés comme déterminants pour la reconstruction et la qualité des images. Il s'agit des profils de sensibilité des antennes et des corrélations en termes de bruit d'acquisition. Deux métriques ont été élaborées pour surveiller ces deux paramètres. Une technique alternative a également été développée pour calculer les covariances de bruit. Enfin, cette thèse propose quelques pistes pour mettre les outils de CQ au service d'applications cliniques ciblées. Les travaux engagés en ce sens ouvrent des perspectives intéressantes pour l'utilisation de techniques de CQ dans le cadre d'applications cliniques ciblées / Magnetic Resonance Imaging (MRI) is increasingly being used in clinical routine and is frequently associated with different imaging modalities in multisite studies. Besides, MRI is becoming more complex with a growing use of phased-array coils. Hence there is a rising eagerness for quality assurance and quality control (QC). Indeed, monitoring MR systems is required in order to prevent from diagnostic errors which may be induced by drifts in the instrumentation. The ever first studies about MRI QC issue established the basis for designing test-objects and metrics which are required for monitoring the scanners. These works also resulted in two approaches for performing the testings : the first one is multi-object oriented and the second one is single-object oriented. The research conducted for this thesis are motivated by two objectives : the first one holds about designing a methodology for performing periodic monitoring of MR scanners. The procedure is required to be practical, shortly-timed, statistically robust, and system-independent. It was designed following the single-object approach promoted by the American College of Radiology. In order to fit the procedure with its specifications, all of its aspects were assessed. The resulting 10-minute weekly QC procedure was successfully tested on several MR facilities. The second goal of these works is about specifically assessing the performance of phased-array coils. Using these coils, two parameters were considered as being essential for image quality considerations, namely the sensitivity profiles and the noise covariance matrix. For monitoring these parameters, two metrics were designed in a way that they could be integrated within the weekly QC procedure. Besides, an alternative method was proposed for computing noise covariance matrices. As a matter of prospects, these doctoral works sought clinical applications which may take advantage of the techniques and methodology elaborated for QC purposes. There are interesting insights about using QC techniques in support of targeted clinical MR applications

Imagerie par Résonance Magnétique

Instrumentation

Antennes en réseau phasé

Contrôle qualité

Imagerie quantitative

Reconstruction et analyse d'images

Bruit d'acquisition

Magnetic Resonance Imaging

Instrumentation

Array coils

Quality control

Quantitative imaging

Image Reconstruction and Analysis

Noise

616.075 48

Transmission Electron Microscopy of Graphene and Hydrated Biomaterial Nanostructures : Novel Techniques and Analysis

Akhtar, Sultan

January 2012

Transmission Electron Microscopy (TEM) on light element materials and soft matters is problematic due to electron irradiation damage and low contrast. In this doctoral thesis techniques were developed to address some of those issues and successfully characterize these materials at high resolution. These techniques were demonstrated on graphene flakes, DNA/magnetic beads and a number of water containing biomaterials. The details of these studies are given below. A TEM based method was presented for thickness characterization of graphene flakes. For the thickness characterization, the dynamical theory of electron diffraction is used to obtain an analytical expression for the intensity of the transmitted electron beam as a function of thickness. From JEMS simulations (experiments) the absorption constant λ in a low symmetry orientation was found to be ~ 208 nm (225 ± 9 nm). When compared to standard techniques for thickness determination of graphene/graphite, the method has the advantage of being relatively simple, fast and requiring only the acquisition of bright-field (BF) images. Using the proposed method, it is possible to measure the thickness change due to one monolayer of graphene if the flake has uniform thickness over a larger area. A real-space TEM study on magnetic bead-DNA coil interaction was conducted and a statistical analysis of the number of beads attached to the DNA-coils was performed. The average number of beads per DNA coil was calculated around 6 and slightly above 2 for samples with 40 nm and 130 nm beads, respectively. These results are in good agreement with magnetic measurements. In addition, the TEM analysis supported an earlier hypothesis that 40 nm beads are preferably attached interior of the DNA-coils while 130 nm beads closer to the exterior of the coils. A focused ion-beam in-situ lift-out technique for hydrated biological specimens was developed for cryo-TEM. The technique was demonstrated on frozen Aspergillus niger spores which were frozen with liquid nitrogen to preserve their cellular structures. A thin lamella was prepared, lifted out and welded to a TEM grid. Once the lamella was thinned to electron transparency, the grid was cryogenically transferred to the TEM using a cryo-transfer bath. The structure of the cells was revealed by BF imaging. Also, a series of energy filtered images was acquired and C, N and Mn elemental maps were produced. Furthermore, 3 Å lattice fringes of the underlying Al support were successfully resolved by high resolution imaging, confirming that the technique has the potential to extract structural information down to the atomic scale. The experimental protocol is ready now to be employed on a large variety of samples e.g. soft/hard matter interfaces.

Graphene flakes

magnetic beads/DNA coils

hydrated biomaterials

transmission electron microscopy

bright-field/dark-field imaging

high resolution imaging

Modeling and Verification of Ultra-Fast Electro-Mechanical Actuators for HVDC Breakers

Bissal, Ara

January 2015

The continuously increasing demand for clean renewable energy has rekindled interest in multi-terminal high voltage direct current (HVDC) grids. Although such grids have several advantages and a great potential, their materialization has been thwarted due to the absence of HVDC breakers. In comparison with traditional alternating current (AC) breakers, they should operate and interrupt fault currents in a time frame of a few milliseconds. The aim of this thesis is focused on the design of ultra-fast electro-mechanical actuator systems suitable for such HVDC breakers.Initially, holistic multi-physics and hybrid models with different levels of complexity and computation time were developed to simulate the entire switch. These models were validated by laboratory experiments. Following a generalized analysis, in depth investigations involving simulations complemented with experiments were carried out on two of the sub-components of the switch: the ultra-fast actuator and the damper. The actuator efficiency, final speed, peak current, and maximum force were explored for different design data.The results show that models with different levels of complexity should be used to model the entire switch based on the magnitude of the impulsive forces. Deformations in the form of bending or elongation may deteriorate the efficiency of the actuator losing as much as 35%. If that cannot be avoided, then the developed first order hybrid model should be used since it can simulate the behavior of the mechanical switch with a very good accuracy. Otherwise, a model comprising of an electric circuit coupled to an electromagnetic FEM model with a simple mechanics model, is sufficient.It has been shown that using a housing made of magnetic material such as Permedyn, can boost the efficiency of an actuator by as much as 80%. In light of further optimizing the ultra-fast actuator, a robust optimization algorithm was developed and parallelized. In total, 20520 FEM models were computed successfully for a total simulation time of 7 weeks. One output from this optimization was that a capacitance of 2 mF, a charging voltage of 1100 V and 40 turns yields the highest efficiency (15%) if the desired velocity is between 10 m/s and 12 m/s.The performed studies on the passive magnetic damper showed that the Halbach arrangement gives a damping force that is two and a half times larger than oppositely oriented axially magnetized magnets. Furthermore, the 2D optimization model showed that a copper thickness of 1.5 mm and an iron tube that is 2 mm thick is the optimum damper configuration. / <p>QC 20150422</p>

Actuators

Armature

Capacitors

Circuit breakers

Coils

Damping

Eddy currents

Elasticity

Electro-mechanical devices

Electromagnetic forces

Finite element methods

HVDC transmission

Image motion analysis

Magnetic domains

Magnetic flux

Magnetic forces

Magnetic materials

Magnets

Thermal analysis

Ανάπτυξη ηλεκτρομαγνητο-θερμικής μεθόδου για μη καταστροφικό έλεγχο σε αγώγιμα υλικά

Τσόπελας, Νικόλαος

13 July 2010

Το αντικείμενο της παρούσας διδακτορικής διατριβής είναι η ανάπτυξη μιας εναλλακτικής μεθόδου μη καταστροφικού ελέγχου (ΜΚΕ) για αγώγιμα υλικά, που συνδυάζει την ηλεκτρομαγνητική διέγερση - επαγωγική θέρμανση του υλικού και επιθεώρηση με μεταβατική υπέρυθρη θερμογραφία. Με ένα μεταβαλλόμενο μαγνητικό πεδίο επάγονται δινορρεύματα εντός του εξεταζόμενου δοκιμίου. Η θερμότητα που παράγεται από τα δινορρεύματα, δημιουργεί θερμοκρασιακές διαφορές οι οποίες τείνουν να εξομαλυνθούν μέσω της θερμικής αγωγής. Κάποια ατέλεια στη δομή του υλικού, όπως είναι μια ρωγμή, θα επηρεάσει άμεσα ή έμμεσα τη ροή της θερμότητας και κατ’ επέκταση τη θερμοκρασιακή κατανομή στην επιφάνεια του υλικού. Χρησιμοποιώντας την υπέρυθρη θερμογραφία μπορούμε να απεικονίσουμε σε δύο διαστάσεις τη θερμοκρασιακή κατανομή της επιφάνειας του επιθεωρούμενου δοκιμίου και να εντοπίσουμε την ατέλεια αυτή. Η παρούσα διατριβή επικεντρώνεται στην υπολογιστική και πειραματική διερεύνηση της αποτελεσματικότητας και της αξιοπιστίας της ηλεκτρομαγνητοθερμικής μεθόδου ως μεθόδου ΜΚΕ σε αγώγιμα υλικά. Αφού πραγματοποιηθεί αναλυτική περιγραφή του μοντέλου με το οποίο προσεγγίζονται τα ηλεκτρομαγνητικά - θερμικά φαινόμενα της ηλεκτρομαγνητικής διέγερσης - επαγωγικής θέρμανσης αγώγιμων υλικών, αναπτύσσεται υπολογιστικός κώδικας για την υλοποίηση του μοντέλου. Με τη χρήση του υπολογιστικού προγράμματος διερευνάται η σημασία και η σπουδαιότητα ενός μεγάλου πλήθους παραμέτρων που επηρεάζουν την αποτελεσματικότητα της ηλεκτρομαγνητοθερμικής μεθόδου με απώτερο στόχο τη βελτιστοποίηση της. Στη συνέχεια ακολουθεί πειραματική επαλήθευση των αριθμητικών αποτελεσμάτων, όπου και αποδεικνύεται η αξιοπιστία των υπολογιστικών μοντέλων που χρησιμοποιήσαμε κατά την αριθμητική διερεύνηση της μεθόδου. Κατ’ αυτόν τον τρόπο επαληθεύεται η αποτελεσματικότητα της μεθόδου στον ΜΚΕ έλεγχο αγώγιμων υλικών. Το γενικό συμπέρασμα που προκύπτει είναι ότι η ηλεκτρομαγνητοθερμική μέθοδος αποτελεί μια αξιόπιστη μέθοδο για τον ΜΚΕ αγώγιμων υλικών. Απομένει πλέον να διερευνηθούν οι δυνατότητες της μεθόδου στο έπακρο, ώστε να αναδειχθεί το εύρος των εφαρμογών αυτής και να χρησιμοποιηθεί ενδεχομένως σε περιπτώσεις όπου μέχρι σήμερα κυριαρχούν άλλες διαγνωστικές μέθοδοι. / The subject matter of the present dissertation is the development of an alternative method for non-destructive inspection of conducting materials, which combines electromagnetic excitation – thermal conduction and inspection with transient infrared thermography. A time-varying magnetic field is used to induce eddy currents inside the conducting material under inspection. The Ohmic power generated in the material by the eddy currents creates temperature gradients which tend to be ironed out through thermal conduction. A defect in the material structure, such as a cracking, will affect the heat flow either directly or indirectly and hence the temperature distribution at the surface of the material. By employing infrared thermography, it is then possible to visualize in two-dimensional the temperature distribution over the excited surface of the tested specimen and detect the defect. The present dissertation focuses on computational and experimental investigation of the effectiveness and reliability of electromagnetic-thermal method as a method for non destructive inspection of conductive materials. After have been made a detailed description of the model which describes the electromagnetic-thermal phenomena of electromagnetic excitation - induction heating in conductive materials, it was developed a computer program based on the above model. Using the computer program we investigated the significance and the importance of a large number of parameters affecting the effectiveness of electromagnetic-thermal method, with a view to optimize the method. The experimental verification of numerical results, indicate the reliability of computational model used in the numerical investigation of the method and verifies the method’s effectiveness for non destructive inspection of conducting materials. The general conclusion is that the electromagnetic - thermal method is a reliable method for non destructive inspection of conductive materials. It remains the full potentials of the method to be investigated, in order to extend the range of applications and use the method in cases where today dominate other diagnostic methods.

Αγώγιμα υλικά

Επαγωγική θέρμανση

Υπέρυθρη θερμογραφία

Εντοπισμός ρωγμών

Δινορρεύματα

Πηνία

620.112

Non destructive testing

Electromagnetic-thermal method

Conductive materials

Induction heating

Infrared thermography

Crack detection

Eddy currents

Coils

Dosedy válcových šroubových tlačných pružin / Contact between end coils of cylindrical helical compression springs

Nekoksa, Pavel

January 2015

This diploma thesis deals with hot-formed helical compression springs. The first part of the thesis describes related problems and determines market potential. Following theoretical part describes the influence of contact line on behaviour of springs and compares it with normative regulations. Methods suitable for determination of helix shape are covered in the next part. The last part focuses on practical measurement, in which the change of helix shape during manufacture was observed. The main output of this diplomat thesis is suggestion of measures that should contribute to both optimization of manufacture and verification of FEM model.

Determinação da frequência de autorressonância por onda estacionária em enrolamentos solenoidais e proposta de um sistema autorresonante de transferência de energia sem fio utilizando bobinas bifilares abertas / Determination os the selfresonant frequency by stationary-waves in solenoid coils and proposal of a self-resonant wireless power transfer system using open bifilar coils

Miranda, Caio Marcelo de

25 October 2016

CAPES / Comuns em projetos de engenharia elétrica, bobinas solenoidais com núcleo de ar e camada simples de enrolamento podem apresentar frequência de autorressonância por efeitos de onda estacionária. A compreensão e determinação destas frequências é portanto de primordial interesse para os profissionais envolvidos com estes componentes. Neste trabalho é apresentada uma teoria que visa explicar o comportamento deste componentes quando em autorressonância por onda estacionária, sendo também desenvolvida uma equação prática que pode determinar tais valores de frequência. O comportamento da impedância nestes componentes também é discutido e demonstrado, onde, baseado nesta teoria, duas novas configurações são apresentadas: uma bobina com ambos terminais abertos e uma bobina com ambos terminais aterrados. Através de uma abordagem didática, correlaciona-se o enrolamento com um tubo de ar ressonante, e explica-se o que é registrado em termos de impedância e fase em um analisador vetorial de impedâncias ao conectar em seus terminais um enrolamento que apresenta autorressonância por onda estacionária. Uma análise da transferência de energia sem fio em circuitos ressonantes magneticamente acoplados é também apresentada, onde é destacada a relação entre eficiência, transferência relativa de potência e impedância refletida em circuitos com 2 e 4 bobinas. Um sistema de transferência de energia sem fio, utilizando bobinas bifilares abertas, é proposto. O sistema possui algumas vantagens uma vez que, a bobina bifilar aberta, ao contrário de uma bobina convencional, possui uma autorressonância série. Portanto, o sistema se comporta como um circuito contendo indutor e capacitor em série. Ainda, uma vez que o circuito dispensa o uso de capacitores, possibilita-se uma menor dimensão das unidades transmissora e receptora, além de se evitar eventuais danos aos capacitores em aplicações envolvendo maiores potências. / Common in electrical engineering projects, air-core single-layer solenoid coils can present self-resonant frequencies due to stationary waves effects. The comprehension and determination of these frequencies is of primordial interest for the professionals evolved with these components. In this work, a theory that aims to explain these components behavior at standing wave self-resonance is presented, a practical equation that can determine such frequency values is also developed. The impedance behavior in these components is also discussed and demonstrated, where, based in this theory, two new configurations are presented: a coil with both terminals open and a coil with both terminals grounded. Through a didactic approach the coil and a resonant air-pipe are correlated, and it is explained what is registered in terms of impedance and phase on a vector impedance analyzer when a standing wave self-resonant coil is connected on its terminals. An analysis of the wireless energy transfer in magnetically coupled resonant circuits is also presented, being emphasized the relation between efficiency, relative power transfer and reflected impedance in 2 and 4-coils circuits. A wireless power transfer system using open bifilar coils is proposed. The proposed system has the advantages that the open bifilar coil, different from a conventional coil, has a series self-resonance. Thus, the system behaves as a series-inductor capacitor circuit. Also, since the circuit avoids capacitors, it allows a smaller transmitter and receptor units dimensions, besides avoiding eventual damages to capacitors in higher power applications.

Bobinas

Ondas estacionárias

Energia elétrica - Transmissão

Impedância (Eletricidade)

Engenharia elétrica

Electric coils

Standing waves

Electric power transmission

Impedance (Electricity)

Electric engineering

Engenharia Elétrica

Determinação da frequência de autorressonância por onda estacionária em enrolamentos solenoidais e proposta de um sistema autorresonante de transferência de energia sem fio utilizando bobinas bifilares abertas / Determination os the selfresonant frequency by stationary-waves in solenoid coils and proposal of a self-resonant wireless power transfer system using open bifilar coils

Miranda, Caio Marcelo de

25 October 2016

CAPES / Comuns em projetos de engenharia elétrica, bobinas solenoidais com núcleo de ar e camada simples de enrolamento podem apresentar frequência de autorressonância por efeitos de onda estacionária. A compreensão e determinação destas frequências é portanto de primordial interesse para os profissionais envolvidos com estes componentes. Neste trabalho é apresentada uma teoria que visa explicar o comportamento deste componentes quando em autorressonância por onda estacionária, sendo também desenvolvida uma equação prática que pode determinar tais valores de frequência. O comportamento da impedância nestes componentes também é discutido e demonstrado, onde, baseado nesta teoria, duas novas configurações são apresentadas: uma bobina com ambos terminais abertos e uma bobina com ambos terminais aterrados. Através de uma abordagem didática, correlaciona-se o enrolamento com um tubo de ar ressonante, e explica-se o que é registrado em termos de impedância e fase em um analisador vetorial de impedâncias ao conectar em seus terminais um enrolamento que apresenta autorressonância por onda estacionária. Uma análise da transferência de energia sem fio em circuitos ressonantes magneticamente acoplados é também apresentada, onde é destacada a relação entre eficiência, transferência relativa de potência e impedância refletida em circuitos com 2 e 4 bobinas. Um sistema de transferência de energia sem fio, utilizando bobinas bifilares abertas, é proposto. O sistema possui algumas vantagens uma vez que, a bobina bifilar aberta, ao contrário de uma bobina convencional, possui uma autorressonância série. Portanto, o sistema se comporta como um circuito contendo indutor e capacitor em série. Ainda, uma vez que o circuito dispensa o uso de capacitores, possibilita-se uma menor dimensão das unidades transmissora e receptora, além de se evitar eventuais danos aos capacitores em aplicações envolvendo maiores potências. / Common in electrical engineering projects, air-core single-layer solenoid coils can present self-resonant frequencies due to stationary waves effects. The comprehension and determination of these frequencies is of primordial interest for the professionals evolved with these components. In this work, a theory that aims to explain these components behavior at standing wave self-resonance is presented, a practical equation that can determine such frequency values is also developed. The impedance behavior in these components is also discussed and demonstrated, where, based in this theory, two new configurations are presented: a coil with both terminals open and a coil with both terminals grounded. Through a didactic approach the coil and a resonant air-pipe are correlated, and it is explained what is registered in terms of impedance and phase on a vector impedance analyzer when a standing wave self-resonant coil is connected on its terminals. An analysis of the wireless energy transfer in magnetically coupled resonant circuits is also presented, being emphasized the relation between efficiency, relative power transfer and reflected impedance in 2 and 4-coils circuits. A wireless power transfer system using open bifilar coils is proposed. The proposed system has the advantages that the open bifilar coil, different from a conventional coil, has a series self-resonance. Thus, the system behaves as a series-inductor capacitor circuit. Also, since the circuit avoids capacitors, it allows a smaller transmitter and receptor units dimensions, besides avoiding eventual damages to capacitors in higher power applications.

Bobinas

Ondas estacionárias

Energia elétrica - Transmissão

Impedância (Eletricidade)

Engenharia elétrica

Electric coils

Standing waves

Electric power transmission

Impedance (Electricity)

Electric engineering

Engenharia Elétrica