NobleBlocks

Elisava Barcelona School of Design and Engineering

UniversityBarcelona, Catalonia, Spain

Research output, citation impact, and the most-cited recent papers from Elisava Barcelona School of Design and Engineering (Spain). Aggregated across the NobleBlocks index of 300M+ scholarly works.

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Also known as
Elisava Barcelona School of Design and EngineeringElisava, Facultat de Disseny i Enginyeria de BarcelonaEscola Universitària de Disseny i Enginyeria de BarcelonaEscuela Superior de Diseño e Ingeniería de BarcelonaEscuela Universitaria de Diseño e Ingeniería de Barcelona

Top-cited papers from Elisava Barcelona School of Design and Engineering

Output Impedance Design of Parallel-Connected UPS Inverters With Wireless Load-Sharing Control
Josep M. Guerrero, L. GarciadeVicuna, J. Matas, Miguel Castilla +1 more
2005· IEEE Transactions on Industrial Electronics1.2Kdoi:10.1109/tie.2005.851634

This paper deals with the design of the output impedance of uninterruptible power system (UPS) inverters with parallel-connection capability. In order to avoid the need for any communication among modules, the power-sharing control loops are based on the P/Q droop method. Since in these systems the power-sharing accuracy is highly sensitive to the inverters output impedance, novel control loops to achieve both stable output impedance and proper power balance are proposed. In this sense, a novel wireless controller is designed by using three nested loops: 1) the inner loop is performed by using feedback linearization control techniques, providing a good quality output voltage waveform; 2) the intermediate loop enforces the output impedance of the inverter, achieving good harmonic power sharing while maintaining low output voltage total harmonic distortion; and 3) the outer loop calculates the output active and reactive powers and adjusts the output impedance value and the output voltage frequency during the load transients, obtaining excellent power sharing without deviations in either the frequency or the amplitude of the output voltage. Simulation and experimental results are reported from a parallel-connected UPS system sharing linear and nonlinear loads.

Active and Reactive Power Strategies With Peak Current Limitation for Distributed Generation Inverters During Unbalanced Grid Faults
Antonio Camacho, Miguel Castilla, Jaume Miret, Àngel Borrell +1 more
2014· IEEE Transactions on Industrial Electronics305doi:10.1109/tie.2014.2347266

Distributed generation inverters have become a key element to improve grid efficiency and reliability, particularly during grid faults. Under these severe perturbations, inverter-based power sources should accomplish low-voltage ride-through requirements in order to keep feeding the grid and support the grid voltage. Also, rated current can be required to better utilize reactive power provisions. This paper presents a reference generator capable to accomplish these two objectives: to keep the injected currents within safety values and to compute the power references for a better utilization of the inverter power capacity. The reference generator is fully flexible since positive and negative active and reactive powers can be simultaneously injected to improve ride-through services. Selected experimental results are reported to evaluate the performance of the proposed reference generator under different control strategies.

Application and Possibilities of Supercritical CO2 Extraction in Food Processing Industry: An Overview
M. Raventós, Simone Duarte, Rodrigo F. Alarcón
2002· Food Science and Technology International205doi:10.1106/108201302029451

The food industry is always looking for the best separation technology to obtain natural compounds of high purity, healthy products of excellent quality with several industrial applications. The conventional extraction process for those compounds has some limitations regarding the solvent toxicity, flammability and wastefulness. Research into energetically less costly technologies with respect to the environment is required. Supercritical fluid extraction (SFE) is a relatively new extraction process that has attracted great interest in many industries. Supercritical fluid properties are used selectively to extract specific components. This paper overviews the applications of supercritical fluid technology in food processing using carbon dioxide as the ideal supercritical fluid because of its non-flammable, non-toxic, non-polluting and recoverable characteristics. A summary of commercial applications and examples of recent developments illustrate the different possibilities that SFE has in industrial food processes.

Reactive Power Control for Distributed Generation Power Plants to Comply With Voltage Limits During Grid Faults
Antonio Camacho, Miguel Castilla, Jaume Miret, Ramón Guzmán Solà +1 more
2014· IEEE Transactions on Power Electronics201doi:10.1109/tpel.2014.2301463

Grid faults are one of the most severe problems for network operation. Distributed generation power plants can help to mitigate the adverse effects of these perturbations by injecting the reactive power during the sag and the postfault operation. Thus, the risk of cascade disconnection and voltage collapse can be reduced. The proposed reactive power control is intended to regulate the maximum and minimum phase voltages at the point of common coupling within the limits established in grid codes for continuous operation. In balanced three-phase voltage sags, the control increases the voltage in each phase above the lower regulated limit by injecting the positive sequence reactive power. In unbalanced voltage sags, positive and negative sequence reactive powers are combined to flexibly raise and equalize the phase voltages; the maximum phase voltage is regulated below the upper limit and the minimum phase voltage just above the lower limit. The proposed control strategy is tested by considering a distant grid fault and a large grid impedance. Selected experimental results are reported in order to validate the behavior of the control scheme.

Reduced Slow-Wave Sleep Is Associated with High Cerebrospinal Fluid Aβ42 Levels in Cognitively Normal Elderly
Andrew W. Varga, Margaret Wohlleber, Sandra Giménez, Sergio Romero +4 more
2016· SLEEP200doi:10.5665/sleep.6240

STUDY OBJECTIVES: Emerging evidence suggests a role for sleep in contributing to the progression of Alzheimer disease (AD). Slow wave sleep (SWS) is the stage during which synaptic activity is minimal and clearance of neuronal metabolites is high, making it an ideal state to regulate levels of amyloid beta (Aβ). We thus aimed to examine relationships between concentrations of Aβ42 in the cerebrospinal fluid (CSF) and measures of SWS in cognitively normal elderly subjects. METHODS: Thirty-six subjects underwent a clinical and cognitive assessment, a structural MRI, a morning to early afternoon lumbar puncture, and nocturnal polysomnography. Correlations and linear regression analyses were used to assess for associations between CSF Aβ42 levels and measures of SWS controlling for potential confounders. Resulting models were compared to each other using ordinary least squared linear regression analysis. Additionally, the participant sample was dichotomized into "high" and "low" Aβ42 groups to compare SWS bout length using survival analyses. RESULTS: A significant inverse correlation was found between CSF Aβ42 levels, SWS duration and other SWS characteristics. Collectively, total SWA in the frontal lead was the best predictor of reduced CSF Aβ42 levels when controlling for age and ApoE status. Total sleep time, time spent in NREM1, NREM2, or REM sleep were not correlated with CSF Aβ42. CONCLUSIONS: In cognitively normal elderly, reduced and fragmented SWS is associated with increases in CSF Aβ42, suggesting that disturbed sleep might drive an increase in soluble brain Aβ levels prior to amyloid deposition.

CARMENES input catalogue of M dwarfs
F. J. Alonso-Floriano, J. C. Morales, J. A. Caballero, D. Montes +4 more
2015· Astronomy and Astrophysics196doi:10.1051/0004-6361/201525803

Context. CARMENES is a stabilised, high-resolution, double-channel spectrograph at the 3.5 m Calar Alto telescope. It is optimally designed for radial-velocity surveys of M dwarfs with potentially habitable Earth-mass planets. Aims. We prepare a list of the brightest, single M dwarfs in each spectral subtype observable from the northern hemisphere, from which we will select the best planet-hunting targets for CARMENES. Methods. In this first paper on the preparation of our input catalogue, we compiled a large amount of public data and collected lowresolution optical spectroscopy with CAFOS at the 2.2 m Calar Alto telescope for 753 stars. We derived accurate spectral types using a dense grid of standard stars, a double least-squares minimisation technique, and 31 spectral indices previously defined by other authors. Additionally, we quantified surface gravity, metallicity, and chromospheric activity for all the stars in our sample. Results. We calculated spectral types for all 753 stars, of which 305 are new and 448 are revised. We measured pseudo-equivalent widths of H for all the stars in our sample, concluded that chromospheric activity does not affect spectral typing from our indices, and tabulated 49 stars that had been reported to be young stars in open clusters, moving groups, and stellar associations. Of the 753 stars, two are new subdwarf candidates, three are T Tauri stars, 25 are giants, 44 are K dwarfs, and 679 are M dwarfs. Many of the 261 investigated dwarfs in the range M4.0-8.0 V are among the brightest stars known in their spectral subtype. Conclusions. This collection of low-resolution spectroscopic data serves as a candidate target list for the CARMENES survey and can be highly valuable for other radial-velocity surveys of M dwarfs and for studies of cool dwarfs in the solar neighbourhood.

Magnetic properties of finite superconducting cylinders. I. Uniform applied field
Alvaro Sanchez, Carles Navau
2001· Physical review. B, Condensed matter159doi:10.1103/physrevb.64.214506

A model for the calculation of the magnetic levitation force for finite type-II superconductors in the critical state is presented in a series of two papers. In the first paper, we describe the main features of the model and understand the effect of demagnetizing fields in the magnetic properties of finite superconductors by considering the case of a superconducting cylinder in the presence of a homogeneous applied field. Field and current profiles are calculated from a minimization of the magnetic energy in the superconductor after a change in the applied field. Results are presented for both constant and field-dependent critical currents. The procedure is general enough to be applied to the case of nonuniform applied fields, as long as the cylindrical geometry is preserved.

Modeling of Nanoscale Gate-All-Around MOSFETs
David Jiménez, J. J. Sáenz, B. Iniguez, J. Suñé +2 more
2004· IEEE Electron Device Letters150doi:10.1109/led.2004.826526

We present a compact physics-based model for the nanoscale gate-all-around MOSFET working in the ballistic limit. The current through the device is obtained by means of the Landauer approach, being the barrier height the key parameter in the model. The exact solution of the Poisson's equation is obtained in order to deal with all the operation regions tracing properly the transitions between them.

Improved Waveform Quality in the Direct Torque Control of Matrix-Converter-Fed PMSM Drives
Carlos Ortega, Antoni Arias, Cedric Caruana, J. Balcells +1 more
2009· IEEE Transactions on Industrial Electronics147doi:10.1109/tie.2009.2033084

Despite the ability of matrix converters (MCs) to generate a higher number of voltage vectors compared with standard voltage-source inverters, most of the applications reported in the literature utilize only those having larger amplitudes. This paper investigates the use of MC input voltages with different amplitudes in order to reduce the inherent torque ripple that appears when direct torque control (DTC) is used to drive ac machines, particularly permanent-magnet synchronous motors, as its stator inductance is typically half of that of an induction machine of similar ratings. Utilizing a wider range of input voltage vectors for the MC, but not using the rotating vectors, a new lookup table that distinguishes between small and large torque errors is developed, leading to an enhanced MC-fed DTC. The enhancement enables a reduction in the electromagnetic torque ripple and output-current total harmonic distortion. Furthermore, the proposed control strategy improves the MC voltage transfer ratio up to 86.6% compared with 50% achieved by the conventional DTC using MCs at the expense, however, of slightly decreasing the input power factor control capability. The proposed enhanced MC DTC was tested experimentally, and results comparing its performance with MC DTC using an adapted lookup table are shown.

Introduction to the Special Issue on First-Person Methods in HCI
Audrey Desjardins, Oscar Tomico, Andrés Lucero, Marta E. Cecchinato +1 more
2021· ACM Transactions on Computer-Human Interaction131doi:10.1145/3492342

In this introduction to the special issue on First-Person Methods in (Human-Computer Interaction) HCI, we present a brief overview of first-person methods, their origin, and their use in Human-Computer Interaction. We also detail the difference between first-person methods, second-person, and third-person methods, as a way to guide the reader when engaging the special issue articles. We articulate our motivation for putting together this special issue: we wanted a collection of works that would allow HCI researchers to develop further, define, and outline practices, techniques and implications of first-person methods. We trace links between the articles in this special issue and conclude with questions and directions for future work in this methodological space: working with boundaries, risk, and accountability.

Recovery of Polyphenols from Agri-Food By-Products: The Olive Oil and Winery Industries Cases
Paulina Tapia-Quirós, María Fernanda Montenegro-Landívar, Mónica Reig, Xanel Vecino +3 more
2022· Foods131doi:10.3390/foods11030362

The production of olive oil and wine are two of the main agri-food economic activities in Southern Europe. They generate large amounts of solid and liquid wastes (e.g., olive pomace, olive mill wastewater, grape pomace, grape stems, wine lees, and wine processing wastewater) that represent a major environmental problem. Consequently, the management of these residues has become a big challenge for these industries, since they are harmful to the environment but rich in bioactive compounds, such as polyphenols. In recent years, the recovery of phenolic compounds has been proposed as a smart strategy for the valorization of these by-products, from a circular economy perspective. This review aims to provide a comprehensive description of the state of the art of techniques available for the analysis, extraction, and purification of polyphenols from the olive mill and winery residues. Thus, the integration and implementation of these techniques could provide a sustainable solution to the olive oil and winery sectors.

Biodegradable and Biocompatible Systems Based on Hydroxyapatite Nanoparticles
Pau Turón, Luís J. del Valle, Carlos Alemán, Jordi Puiggalı́
2017· Applied Sciences123doi:10.3390/app7010060

Composites of hydroxyapatite (HAp) are widely employed in biomedical applications due to their biocompatibility, bioactivity and osteoconductivity properties. In fact, the development of industrially scalable hybrids at low cost and high efficiency has a great impact, for example, on bone tissue engineering applications and even as drug delivery systems. New nanocomposites constituted by HAp nanoparticles and synthetic or natural polymers with biodegradable and biocompatible characteristics have constantly been developed and extensive works have been published concerning their applications. The present review is mainly focused on both the capability of HAp nanoparticles to encapsulate diverse compounds as well as the preparation methods of scaffolds incorporating HAp. Attention has also been paid to the recent developments on antimicrobial scaffolds, bioactive membranes, magnetic scaffolds, in vivo imaging systems, hydrogels and coatings that made use of HAp nanoparticles.

Chemical tunnel-splitting-engineering in a dysprosium-based molecular nanomagnet
Mikkel A. Sørensen, Ursula Hansen, Mauro Perfetti, Kasper S. Pedersen +4 more
2018· Nature Communications115doi:10.1038/s41467-018-03706-x

Abstract Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin–orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear ( C 4 ) to pseudo-linear ( D 4d ) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting.

Magnetic properties of arrays of superconducting strips in a perpendicular field
Enric Pardo, Alvaro Sanchez, Carles Navau
2003· Physical review. B, Condensed matter84doi:10.1103/physrevb.67.104517

Current profiles and field lines and magnetization and ac losses are calculated for arrays of infinitely long superconducting strips in the critical state in a perpendicularly applied magnetic field. The strips are arranged vertically, horizontally, and in a matrix configuration, which are the geometries found in many actual high-${T}_{c}$ superconducting tapes. The finite thickness of the strips and the effects of demagnetizing fields are considered. Systematic results for the magnetization and ac losses of the arrays are obtained as function of the geometry and separation of the constituent strips. Results allow us to understand some unexplained features observed in experiments, as well as to propose some future directions.

Magnetic properties of finite superconducting cylinders. II. Nonuniform applied field and levitation force
Carles Navau, Alvaro Sanchez
2001· Physical review. B, Condensed matter77doi:10.1103/physrevb.64.214507

We study the current penetration profiles inside a finite type-II superconducting cylinder when it is in the presence of an axially symmetric applied field created by a cylindrical and uniformly magnetized permanent magnet. The results are obtained using the general framework derived in the first paper of this series. The levitation force in such a system is calculated from the current distribution, for the cases of a constant critical current in the superconductor and an exponential dependence of the critical current upon the internal magnetic field. From the obtained results, we study in detail how the levitation force depends upon the system parameters. We conclude from the results that (i) the levitation force is optimized when the magnet and the superconductor have similar dimensions, (ii) an excess of length in the superconductor can yield no significant increase in the force, and (iii) demagnetizing effects can lead to an important enhancement of the levitation force, particularly in the case of thin films, for which the force per unit volume of material is the highest.

Optimizing levitation force and stability in superconducting levitation with translational symmetry
Nuria Del‐Valle, Alvaro Sanchez, Enric Pardo, Du‐Xing Chen +1 more
2007· Applied Physics Letters77doi:10.1063/1.2435940

From a theoretical analysis based on an energy minimization procedure and the critical-state model, the authors analyze the levitation of an infinitely long superconductor above infinitely long permanent magnets with different arrangements. A discussion on optimum geometries showing large levitation force and good stability is presented from the model results.

Roofs of the Future: Rooftop Greenhouses to Improve Buildings Metabolism
Oriol Pons, Ana Nadal, Esther Sanyé‐Mengual, Pere Llorach-Massana +4 more
2015· Procedia Engineering72doi:10.1016/j.proeng.2015.10.084

Ancient civilizations had agriculture production in their metropolis but modern urban planning separated agriculture from cities, such as Chandigarh by Le Corbusier. At present, FAO estimates that urban agriculture produces food for a quarter of world's population, reducing food transport, package and waste impact among others and improving food safety. Meanwhile, city governments and citizens are reinventing their roofs usage in order to take more advantage of them. Rooftop Greenhouses (RTGs) are an interesting option because they increase the scarce green area of the cities, create new agricultural spaces and promote food self-sufficiency in urban areas among other growing interests. RTGs are greenhouses located on the roof of the buildings that usually produce food using soil-less culture systems. These structures as well as the green façades called Vertical Farming (VF) are part of the “building-based Urban Agriculture (UA)”. In this sense, this article presents the first results of the research project Fertilecity, which aims to analyze, from a technological and sustainability approach, a new agricultural production system for Mediterranean urban areas through the integration of greenhouses on the roof of buildings. This innovative system is an integrated RTG (i-RTG) that includes energy, water and CO2 flows in the metabolism of the building. Multidisciplinary experts participate in Fertilecity Project using multiple methods such as Life Cycle Assessment and the Integrated Value Model for Sustainable Assessment (MIVES). Their first results are: a review of the main experiences in UA; an environmental and economic life cycle analysis of implementing Rooftop Greenhouses (RTGs) in Barcelona and the construction of the ICTA Rooftop Greenhouse Lab (RTG-Lab) near Barcelona. This project aims to demonstrate the potential of i-RTGs and quantify their environmental, economic and social benefits, as well as study how they can change the image of our cities.

Critical-current density from magnetization loops of finite high-<i>T</i><sub><i>c</i></sub>superconductors
Alvaro Sanchez, Carles Navau
2001· Superconductor Science and Technology72doi:10.1088/0953-2048/14/7/304

We analyze the effects of demagnetizing fields in the magnetization hysteresis loops of type-II superconductors, by a model that allows the calculation of current and field profiles in finite cylindrically symmetric superconductors in the critical state. We show how the maximum in the magnetization curve gradually shifts from negative applied field values to the central position with decreasing sample thickness. From the analysis of the calculated field profiles, we demonstrate that one can obtain the intrinsic field-dependent critical-current density of the superconductor with great accuracy by measuring the magnetic response of superconductors with large aspect ratio with the applied field parallel to the shortest dimension.

Peptide Self-Assembly into Hydrogels for Biomedical Applications Related to Hydroxyapatite
Manuel Rivas, Luís J. del Valle, Carlos Alemán, Jordi Puiggalı́
2019· Gels72doi:10.3390/gels5010014

Amphiphilic peptides can be self-assembled by establishing physical cross-links involving hydrogen bonds and electrostatic interactions with divalent ions. The derived hydrogels have promising properties due to their biocompatibility, reversibility, trigger capability, and tunability. Peptide hydrogels can mimic the extracellular matrix and favor the growth of hydroxyapatite (HAp) as well as its encapsulation. Newly designed materials offer great perspectives for applications in the regeneration of hard tissues such as bones, teeth, and cartilage. Furthermore, development of drug delivery systems based on HAp and peptide self-assembly is attracting attention.

Reduction of Output Common Mode Voltage Using a Novel SVM Implementation in Matrix Converters for Improved Motor Lifetime
Jordi Espina, Carlos Ortega, Liliana De Lillo, Lee Empringham +2 more
2014· IEEE Transactions on Industrial Electronics67doi:10.1109/tie.2014.2304931

This paper presents the study of an alternative space vector modulation (SVM) implementation for matrix converters (MCs), which reduces the output common mode (CM) voltage. The strategy is based on replacing the MC zero vectors with rotating ones. In doing this, the CM voltage (CMV) can be reduced, which, in turn, reduces the CM leakage current. By reducing the CM current, which flows inside the motor through the bearings and windings, the induction motor (IM) deterioration can be slowed down. This paper describes the SVM pattern and analyzes the CMV and the leakage current paths. Simulation and experimental results based on an MC-IM drive are provided to corroborate the presented approach.