Narrow your search

Library

KU Leuven (3)

UCLouvain (2)

UGent (1)

ULB (1)

ULiège (1)


Resource type

book (3)

dissertation (2)


Language

English (5)


Year
From To Submit

2019 (5)

Listing 1 - 5 of 5
Sort by

Book
Best of architectural design 2019 student projects competition
Authors: ---
Year: 2019 Publisher: Lausanne : Archizoom Editions,

Loading...
Export citation

Choose an application

Bookmark

Abstract


Book
Fez lessons : industrious habitat
Authors: --- --- ---
ISBN: 3038601691 9783038601692 3038601691 9783038601692 Year: 2019 Publisher: Zürich: Park Books,

Loading...
Export citation

Choose an application

Bookmark

Abstract

Cet ouvrage analyse la structure socio-économique et le tissu urbain de la ville de Fès (Maroc) dans ses différentes composantes : la Médina, la ville nouvelle et sa périphérie "informelle". Morocco located at a crossroads between Sub-Saharan Africa, the Maghrebi Arab-Muslim world, and Mediterranean Europe has struggled with cultural and sociopolitical clashes ever since the infamous Scramble for Africa in the late nineteenth and early twentieth centuries. These clashes have left enduring marks on the urban fabric of Fez, Morocco's former capital and second-largest city, including its landmarks and landscapes. Fez Lessons: Industrious Habitat' is a project of Laboratory Basel (laba), founded in 2011 as a satellite studio of the Ecole Polytechnique Federale de Lausanne. Based on recent research, the book explores Fez's urban fabric, relaying a compelling story of how the city has been shaped and reshaped over time. The findings are visualized in striking images, graphics, and maps and followed by proposals for architectural interventions that address key issues by facilitating alternate forms of association and community. Given the growing stream of international investment, the constant enticement of tourism, and a worldwide revival of nationalism, interventions focus on these challenges, among others, raising questions about identity, authenticity, tradition, globalization, and the use of local resources.


Dissertation
Output Filters for Grid-Tied Converters: Component Sizing, Controller Co-Design and Winding-Loss Analysis
Authors: --- --- --- ---
Year: 2019 Publisher: Leuven Bruxelles KU Leuven. Faculty of Engineering Science Université Libre de Bruxelles. École Polytechniques de Bruxelles

Loading...
Export citation

Choose an application

Bookmark

Abstract

There has been a high increase in demand for high-performance output filters for power converters, possessing high attenuation and high bandwidth. Many emerging applications require high bandwidth and low output distortion, e.g. controllable power sources and grid-tied converters. Moreover, at high switching frequency, the filter attenuation needs to comply with the electromagnetic interference (EMI) standard, which is more stringent than the conventional grid-harmonic standard. Designing an output filter to achieve both high attenuation and high bandwidth is extremely challenging. These new requirements stipulate research in new design tools and modeling approaches.This thesis focuses on the various aspects of the design, modeling and validation of output filters, namely design of resonant-damping controller and component values, winding loss modeling, and winding loss measurement. The thesis aims to improve and facilitate these aspects by introducing a novel component-sizing and control co-design method, homogenization-based finite element (FE) method for winding-loss computation and a more accurate method of winding-resistance extraction.The first part of the thesis presents a virtual circuit control (VCC) method to design a resonant-damping discrete-time controller for grid-tied voltage source converters with output filters. The method provides an intuitive way to specify the desired closed-loop behavior by means of a virtual reference circuit rather than abstract mathematical criteria such as closed-loop poles and weighting matrices. Therefore, the existing passive filter designs, which cannot be practically implemented due to excessive losses, and the well-established theory of filters can be exploited. The grid current and the common-mode capacitor voltage, which are the primary control objectives, inherit the main properties of their underlying virtual reference circuits, e.g. resonance damping and low-frequency behavior. Accordingly, the voltage/current controllers can be easily designed based on the low-frequency behavior of virtual circuits. The method can also be straightforwardly equipped with conventional controllers to enhance system performance, such as harmonic compensation. For validation, the simulation and experiment are performed to control a three-phase grid-tied VSC with an LCL filter. The results verify the effectiveness of the resonant damping and dynamic performance.Subsequently, the VCC method is employed to formulate a novel co-design method of component sizing and control for actively-damped LC-ladder output filters of general order. This method executes the VCC method in reverse. The virtual circuit is firstly designed based on a singly-terminated ladder network. Starting from a desired closed-loop transfer function, the virtual circuit is synthesized to meet the physical requirements. The physical circuit is then realized by adopting the same components as the ones of the virtual circuit from the filter capacitor onward to the output. Therefore, it simultaneously tackles the design of the filter parameters and the resonant-damping control. The design example of LCL filters for a three-phase grid-tied voltage-source converter (VSC) is demonstrated and experimentally tested. The measured bandwidth of the small-signal reference tracking transfer function of the output current agrees with the theoretical model. At steady state, the output current shows excellent sinusoidal waveform as desired. Furthermore, the feasible extension to a design of 5th-order LCLCL filter by means of loss-volume Pareto multiobjective optimization has been demonstrated and compared with the 3rd-order LCL counterpart. The use of the former shows promising volume reduction for the applications requiring high bandwidth and/or high attenuation.The third part of the thesis investigates a frequency-domain finite-element (FE) homogenization method for litz-wire bundles. The approach consists in adopting a frequency-dependent complex reluctivity in the litz-wire bundles and a frequency-dependent complex impedance in the electrical circuit, both in terms of dimensionless coefficients. They represent the skin and proximity effects, respectively. The litz-wire bundles become homogeneous conductors which are easy to integrate into an FE model. The homogenization method is validated by a 2-D transformer model and a 3-D axisymmetric inductor model of which the reference solutions are computed based on finely discretized litz-wire bundles. The results of the computed resistance and inductance agree well with the reference fine model with highly reduced computational cost.Furthermore, the synthesis of an RL Cauer ladder network to homogenize the multi-turn winding in time-domain FE computations is examined. Two RL Cauer networks are synthesized to match the frequency-dependent complex impedance and reluctivity, with the accuracy depending on the order of the network to be appended. The proposed method yields an improved accuracy as compared to the previous study in which the topology of the ladder network was not well chosen. The results are validated by means of a 2-D axisymmetric inductor with a gapped nonlinear magnetic core.The last part of the thesis deals with the winding-loss measurement through the extraction of the winding resistance. In general, the resistance value obtained from impedance measurements needs a compensation of undesirable effects, e.g. the core loss and the distributed winding capacitance. Herein, it is rigorously shown that the core loss (or core-loss resistance) measured with the two-winding method always includes the effect of the winding mutual resistance. At high frequencies, this effect becomes more prominent and can cause an overestimation of the measured core-loss resistance. As a result, the compensated winding resistances can be significantly underestimated. To mitigate this effect, the core-loss resistance should be measured on an auxiliary 1:1 transformer with single-turn windings. Subsequently, it is scaled to obtain the actual core loss. The proposed analysis and method are applicable to multi-winding components. For validation, we consider a gapped transformer with litz-wire winding for high-frequency operation. The experimental results are validated against the results from the 3-D FE model. The litz-wire winding is considered in the FE model by means of a homogenization approach (third part of this thesis). With the proposed measurement method, the experimentally extracted winding resistances are more accurate and in good agreement with the FE results.

Keywords


Dissertation
Study of one-neutron halo through (d, p) transfer reactions

Loading...
Export citation

Choose an application

Bookmark

Abstract

In modern nuclear physics, a special group of nuclei located close to the drip line named halo nuclei has received tremendous attention due to their unique cluster structure. These nuclei exhibit large matter radii and are qualitatively described as a compact core surrounded by a diffuse halo which is formed by the loosely-bound valence nucleon(s). Their existence breaks down the consistent predictions by the classical shell model and challenges nuclear-structure calculations. To understand this exotic feature from first principles, lots of efforts have been undertaken by nuclear physicists during the past decades. One of the most successful probes to look into these questions is the (d,p) transfer which has been proved to be a very powerful tool to extract single-particle properties of nuclei and hence is ideal to study one-neutron halo nuclei.The main topic of this work is to improve the reliability of the nuclear-structure observables extracted from transfer reactions. In one of our works [Phys. Rev. C 98, 054602 (2018)], the experiment done by Schmitt et al. on the $^{10}$Be(d,p)$^{11}$Be transfer reaction at four beam energies [Phys. Rev. Lett. 108, 192701 (2012)] is reanalyzed. In order to probe only the halo of the nucleus which is represented by the asymptotic normalization coefficient (ANC), the beam energy and angular ranges at which such reaction is strictly peripheral have to be determined. These peripheral conditions are systematically identified by coupling a Halo effective field theory (EFT) description of the $^{11}$Be nucleus at leading order (LO) with the adiabatic distorted wave approximation (ADWA) to model the transfer. The results suggest that focussing on the transfer data collected with low beam energies and at forward scattering angles ensures the peripherality of the reaction and hence is the best way to reliably extract the ANC. The resulting values of ANC are (0.785 ± 0.030) fm$^{-1/2}$ for the ground state and (0.135 ± 0.005) fm$^{-1/2}$ for the first excited state. These values are in excellent agreement with the values predicted by ab initio calculations (0.786 fm$^{-1/2}$ for the ground state and 0.129 fm$^{-1/2}$ for the excited state) [Phys. Rev. Lett. 117, 242501 (2016)]. An alternative way to explore the sensitivity of transfer calculations to the short-range physics of the $^{10}$Be-n wave function using Halo EFT is offered by the supersymmetry (SuSy) method. With this method, the SuSy partner of the original wave function can be generated which shares the same asymptotic behavior but exhibits a very different internal part. Feeding those wave functions into the transfer calculations, the results confirm the above findings with respect to the peripherality of the $^{10}$Be(d,p) transfer.This method has then been extended to study another one-neutron halo nucleus: $^{15}$C which is important in nuclear astrophysics. Its ANC is extracted from the cross sections of the $^{14}$C(d,p) transfer measured by Mukhamedzhanov et al. [Phys. Rev. C, 84, 024616 (2011)]. The values obtained are (1.26 ± 0.02) fm$^{-1/2}$ and (0.056 ± 0.001) fm$^{-1/2}$ for the ground state and first excited state of $^{15}$C, respectively. Especially for the ground state case, again, a perfect agreement is reached between our result and the one predicted by Navrátil et al. (C$_{1/2+}$ = 1.282 fm$^{-1/2}$) in an ab initio calculation. Relying on the inferred ANC value, it enables us to fit an effective $^{14}$C-n interaction at NLO in Halo EFT, which has been used later in other reaction calculations, such as Coulomb breakup and radiative capture [Phys. Rev. C 100, 044615 (2019)].We have also looked at the extension of this idea to resonant states. After an analogous analysis using a bin description, it is figured out that the resonant width plays a key role in determining the magnitude of the cross sections for such transfers. Its effect on resonance can be comparable to that of the ANC on bound states. But the associated uncertainty is larger than that in the case of bound state.In collaboration with Prof. Obertelli, we have studied the potential use of sub-Coulomb (d,p) transfer to investigate the possible presence of a halo structure in the excitation spectrum of medium to heavy nuclei. Based on the hypothetical case of $^{95}$Sr, the dependencies of the transfer calculation on several crucial parameters including Q-value, nuclear spin and beam energy have been tested to understand better how the halo feature could be revealed by measuring transfer cross sections. The feasibility of this idea requires an accurate theoretical prediction and sensitive detection systems.On the experimental side, efforts have been made to progress in the data analysis of the IS561A experiment on $^{9}$Li(d,p) transfer performed at HIE-ISOLDE, CERN. Thanks to the preprocessing of the acquired data done by Jesper Halkjær Jensen (Aarhus), the necessary information on the elastic scattering channel ($^{9}$Li + d) has been successfully collected and matches well with our theoretical calculation. Due to some practical problems happening during the measurement which would propagate to the analysis and result in a low statistics, the extraction of the (d,p) channel will require further detailed analyses. To make up for this, the available data measured by Jeppesen et al. [Phys. Lett. B, 642(5): 449 - 454, 2006] and Cavallaro et al. [Phys. Rev. Lett. 118, 012701 (2017)] are taken into account to check in those cases the validity of the chosen model which has already been used to study the resonance of $^{11}$Be. The outcome suggests that the method we use is a fast and efficient option to simulate the resonance during the transfer. For the non-resonant part, choosing the prior form of the transition matrix instead of the post one is better suited.

Keywords


Book
Thinking : visions for architectural design

Loading...
Export citation

Choose an application

Bookmark

Abstract

Cet ouvrage, le premier d'une série intitulé "Towards 2050" présente douze entretiens avec des experts venant d'horizons géographiques et professionnels divers : Tatiana Bilbao, Paula Cadima, Lionel Devlieger, Herbert Girardet, Alistair Guthrie, Kengo Kuma, Ali Malkawi, Edward Ng, Susan Parnell, Antoine Picon, Carlo Ratti, Koen Steemers. Il propose la quintessence de leurs visions pour une architecture durable à l'horizon 2050. The product of an innovative research project realized in cooperation between three Swiss universities: École Polytechnique Fédérale de Lausanne's School of Architecture, the College of Architecture and Technology in Fribourg, and the University of Fribourg, the smart living lab is a research and development center for the built environment of the future. This high-tech structure also serves as an emblem of the cooperation's aim to translate academic research into actual buildings. A new series of books entitled 'Towards 2050' will showcase the ambitious undertaking at various stages.The inaugural volume in the series, 'Thinking' highlights preliminary research for the smart living lab and considers visions for sustainable buildings. Featuring interviews with leading experts, the book lays out the myriad challenges and opportunities the project is likely to face, as well as its considerable potential to drive change.

Listing 1 - 5 of 5
Sort by


Copyright ©2025 SemperTool