Your search keyword '"David Blanco Fernández"' showing total 11 results

1. Integrating circular economy principles into concrete technology: Enhancing sustainability through industrial waste utilization

Author

D.O. Oyejobi, A.A. Firoozi, David Blanco Fernández, and Siva Avudaiappan

Subjects

Sustainable construction, Supplementary cementitious materials, Waste utilization, Environmental impact, Resource efficiency, Technology

Abstract

This study assesses the integration of circular economy principles in concrete technology to mitigate the environmental impacts of traditional concrete production and promote sustainable construction practices. Using a comprehensive literature review, the research examines the utilization of various industrial waste materials—such as fly ash, coal bottom ash, palm oil fuel ash, sugarcane bagasse ash, and ground granulated blast furnace slag—as supplementary cementitious materials. The analysis focuses on their properties, environmental benefits, and potential to enhance concrete sustainability. The findings reveal that these industrial wastes can significantly reduce the carbon footprint of concrete production while improving mechanical properties and durability. The materials demonstrate notable pozzolanic characteristics and contribute to enhanced resilience in concrete structures. The study underscores the critical role of circular economy practices in transforming the construction sector, advocating for the adoption of waste-derived SCMs to foster environmental stewardship and sustainable development in the industry.

Published

2024

2. Neighbourhood Sustainability Assessment Tools for Sustainable Cities and Communities, a Literature Review—New Trends for New Requirements

Author

Pablo Pulgar Rubilar, Manuel M. Jordán Vidal, David Blanco Fernández, Marisol Osorio Ramirez, Luis Perillán Torres, Marcela Lizana Vial, Danny Lobos Calquin, Francisco Pardo Fabregat, and Jose Navarro Pedreño

Subjects

sustainable cities, communities, neighbourhood sustainability assessment tools, publications, Building construction, TH1-9745

Abstract

The aim of this documentary review was to determine the level of scientific production on environmental analysis tools and certifications for sustainable cities and communities, or “Neighbourhood Sustainability Assessment Tools”, worldwide between the years 2016 and 2023, considering as a precedent the appearance of the SDG 2030 and SDG 11. The analysis developed in this work was carried out based on WoS, Scopus and ScienceDirect. The eligibility of the results of 685 potential articles, in addition to complementary articles, was evaluated, leading to 27 selected reviews. Our analysis revealed the main and most recent results post implementation of sustainability measures, identifying limitations, success factors, trends and forecasts for the future selection, development or improvement of evaluation tools for the sustainability of human sites and describing strategies specific to local realities, which are valid from a global point of view but include the particularities of distinct communities in specific places.

Published

2023

3. The Design and Development of Recycled Concretes in a Circular Economy Using Mixed Construction and Demolition Waste

Author

Marcos Díaz González, Pablo Plaza Caballero, David Blanco Fernández, Manuel Miguel Jordán Vidal, Isabel Fuencisla Sáez del Bosque, and César Medina Martínez

Subjects

recycled concrete, recycled mixed sand, recycled mixed gravel, mechanical properties, strength, watertightness, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

This research study analysed the effect of adding fine—fMRA (0.25% and 50%)—and coarse—cMRA (0%, 25% and 50%)—mixed recycled aggregate both individually and simultaneously in the development of sustainable recycled concretes that require a lower consumption of natural resources. For this purpose, we first conducted a physical and mechanical characterisation of the new recycled raw materials and then analysed the effect of its addition on fresh and hardened new concretes. The results highlight that the addition of fMRA and/or cMRA does not cause a loss of workability in the new concrete but does increase the amount of entrained air. Regarding compressive strength, we observed that fMRA and/or cMRA cause a maximum increase of +12.4% compared with conventional concrete. Tensile strength increases with the addition of fMRA (between 8.7% and 5.5%) and decreases with the use of either cMRA or fMRA + cMRA (between 4.6% and 7%). The addition of fMRA mitigates the adverse effect that using cMRA has on tensile strength. Regarding watertightness, all designed concretes have a structure that is impermeable to water. Lastly, the results show the feasibility of using these concretes to design elements with a characteristic strength of 25 MPa and that the optimal percentage of fMRA replacement is 25%.

Published

2021

4. Critical evaluation of SCGD-OES analytical performance in the presence of NaCl

Author

Yinchenxi Zhang, Jaime Orejas, Jonatan Fandiño, David Blanco Fernández, Jorge Pisonero, and Nerea Bordel

Subjects

Spectroscopy, Analytical Chemistry

Abstract

The present study deals with the influence of sodium chloride (NaCl) on the analytical response and performance of solution-cathode glow discharge coupled to optical emission spectroscopy (SCGD-OES).

Published

2022

5. The Influence of Image Processing and Layer-to-Background Contrast on the Reliability of Flatbed Scanner-Based Characterisation of Additively Manufactured Layer Contours

Author

Alejandro Suarez, Braulio José Álvarez Álvarez, Pedro Fernández Álvarez, David Blanco Fernández, and José Carlos Rico Fernández

Subjects

0209 industrial biotechnology, Scanner, flatbed scanner, contour detection, Computer science, media_common.quotation_subject, Image processing, 02 engineering and technology, Coordinate-measuring machine, 01 natural sciences, lcsh:Technology, Edge detection, 010309 optics, lcsh:Chemistry, 020901 industrial engineering & automation, Distortion, 0103 physical sciences, Contrast (vision), General Materials Science, Computer vision, Instrumentation, lcsh:QH301-705.5, media_common, Fluid Flow and Transfer Processes, business.industry, lcsh:T, Process Chemistry and Technology, Perspective (graphical), General Engineering, lcsh:QC1-999, Computer Science Applications, Metrology, image processing, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Artificial intelligence, business, geometrical quality, lcsh:Engineering (General). Civil engineering (General), additive manufacturing, lcsh:Physics, on-machine verification

Abstract

Flatbed scanners (FBSs) provide non-contact scanning capabilities that could be used for the on-machine verification of layer contours in additive manufacturing (AM) processes. Layer-wise contour deviation assessment could be critical for dimensional and geometrical quality improvement of AM parts, because it would allow for close-loop error compensation strategies. Nevertheless, contour characterisation feasibility faces many challenges, such as image distortion compensation or edge detection quality. The present work evaluates the influence of image processing and layer-to-background contrast characteristics upon contour reconstruction quality, under a metrological perspective. Considered factors include noise filtering, edge detection algorithms, and threshold levels, whereas the distance between the target layer and the background is used to generate different contrast scenarios. Completeness of contour reconstruction is evaluated by means of a coverage factor, whereas its accuracy is determined by comparison with a reference contour digitised in a coordinate measuring machine. Results show that a reliable contour characterisation can be achieved by means of a precise adjustment of image processing parameters under low layer-to-background contrast variability. Conversely, under anisotropic contrast conditions, the quality of contour reconstruction severely drops, and the compromise between coverage and accuracy becomes unbalanced. These findings indicate that FBS-based characterisation of AM layers will demand developing strategies that minimise the influence of anisotropy in layer-to-background contrast.

Published

2021

6. Estimation and improvement of the achievable tolerance interval in material extrusion additive manufacturing through a multi-state machine performance perspective

Author

Braulio José Álvarez Álvarez, David Blanco Fernández, Pedro Fernández Álvarez, Natalia Beltran Delgado, and Álvaro Noriega González

Subjects

0209 industrial biotechnology, Technology, material extrusion, Computer science, QH301-705.5, Design for additive manufacturing, QC1-999, design for additive manufacturing, 02 engineering and technology, quality assurance, 020901 industrial engineering & automation, General Materials Science, Biology (General), Instrumentation, QD1-999, Fluid Flow and Transfer Processes, Estimation, Multi state, business.industry, Process Chemistry and Technology, Physics, Perspective (graphical), General Engineering, 021001 nanoscience & nanotechnology, Engineering (General). Civil engineering (General), Manufacturing engineering, Computer Science Applications, Chemistry, machine performance, Christian ministry, Tolerance interval, TA1-2040, 0210 nano-technology, business, Quality assurance, additive manufacturing

Abstract

Dimensional quality is still a major concern in additive manufacturing (AM) processes and its improvement is key to closing the gap between prototype manufacturing and industrialized production. Mass production requires the full working space of the machine to be used, although this arrangement could lead to location-related differences in part quality. The present work proposes the application of a multi-state machine performance perspective to reduce the achievable tolerance intervals of features of linear size in material extrusion (MEX) processes. Considering aspecific dimensional parameter, the dispersion and location of the distribution of measured values between different states are analyzed to determine whether the production should be treated as single-state or multi-state. A design for additive manufacturing strategy then applies global or local size compensations to modify the 3D design file and reduce deviations between manufactured values and theoretical values. The variation in the achievable tolerance range before and after the optimization of design is evaluated by establishing a target machine performance index. This strategy has been applied to an external MEX-manufactured cylindrical surface in a case study. The results show that the multi-state perspective provides a better understanding of the sources of quality variability and allows for a significant reduction in the achievable tolerance interval. The proposed strategy could help to accelerate the industrial adoption of AM process by reducing differences in quality with respect to conventional processes.

Published

2021

7. High-Voltage LC-Parallel Resonant Converter with Current Control to Detect Metal Pollutants in Water through Glow-Discharge Plasma

Author

Pedro J. Villegas, Daniel González Castro, Juan A. Martínez-Esteban, David Blanco Fernández, Germán Marcos-Robredo, and Juan A. Martín-Ramos

Subjects

Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, Signal Processing, environmental engineering, water pollution, glow-discharge devices, DC–DC power converters, resonant inverters, high-voltage techniques, current control, Electrical and Electronic Engineering

Abstract

This paper presents a high-voltage power source to produce glow-discharge plasma in the frame of a specific application. The load has two well-differentiated types of behavior. To start the system, it is necessary to apply a high voltage, up to 15 kV, to produce air-dielectric breakdown. Before that, the output current is zero. Contrarily, under steady state, the output voltage is smaller (a few hundred volts) while the load requires current-source behavior to maintain a constant glow in the plasma. The amount of current must be selectable by the operator in the range 50–180 mA. Therefore, very different voltage gains are required, and they cannot be easily attained by a single power stage. This work describes why the LC-parallel resonant topology is a good single stage alternative to solve the problem, and shows how to make the design. The step-up transformer is the key component of the converter. It provides galvanic isolation and adapts the voltage gain to the most favorable region of the LC topology, but it also introduces non-avoidable reactive components for the resonant net, determining their shape and, to some extent, their magnitude. In the paper, the transformer’s constructive details receive special attention, with discussion of its model. The experimental dynamic tests, carried out to design the control, show load behavior that resembles negative resistance. This fact makes any control loop prone to instability. To compensate this effect, a resistive ballast is proposed, eliminating its impact on efficiency with a novel filter design, based on an inductor, connected in series with the load beyond the voltage-clamping capacitor. The analysis includes a mathematical model of the filtering capacitor discharge through the inductor during the breakdown transient. The model provides insight into the dimensions of the inductor, to limit the discharge current peak and to analyze the overall performance on steady state. Another detail addressed is the balance among total weight, efficiency and autonomy, which appears if the filter inductor is substituted for a larger battery in autonomous operation. Finally, a comprehensive set of experimental results on the real load illustrate the performance of the power source, showing waveforms at breakdown and at steady state (for different output currents). Additionally, the detector’s constructive principles are described and its experimental performance is explored, showing results with two different types of metallic pollutants in water.

Published

2022

8. The Design and Development of Recycled Concretes in a Circular Economy Using Mixed Construction and Demolition Waste

Author

David Blanco Fernández, Isabel F. Sáez del Bosque, Manuel Miguel Jordán Vidal, César Medina Martínez, Pablo Plaza Caballero, and Marcos Díaz González

Subjects

Characteristic strength, Technology, recycled concrete, Materials science, Design elements and principles, mechanical properties, Raw material, watertightness, Article, Ultimate tensile strength, General Materials Science, Microscopy, QC120-168.85, Aggregate (composite), QH201-278.5, recycled mixed gravel, Engineering (General). Civil engineering (General), Pulp and paper industry, TK1-9971, recycled mixed sand, Compressive strength, Descriptive and experimental mechanics, Demolition waste, Electrical engineering. Electronics. Nuclear engineering, TA1-2040, strength

Abstract

This research study analysed the effect of adding fine—fMRA (0.25% and 50%)—and coarse—cMRA (0%, 25% and 50%)—mixed recycled aggregate both individually and simultaneously in the development of sustainable recycled concretes that require a lower consumption of natural resources. For this purpose, we first conducted a physical and mechanical characterisation of the new recycled raw materials and then analysed the effect of its addition on fresh and hardened new concretes. The results highlight that the addition of fMRA and/or cMRA does not cause a loss of workability in the new concrete but does increase the amount of entrained air. Regarding compressive strength, we observed that fMRA and/or cMRA cause a maximum increase of +12.4% compared with conventional concrete. Tensile strength increases with the addition of fMRA (between 8.7% and 5.5%) and decreases with the use of either cMRA or fMRA + cMRA (between 4.6% and 7%). The addition of fMRA mitigates the adverse effect that using cMRA has on tensile strength. Regarding watertightness, all designed concretes have a structure that is impermeable to water. Lastly, the results show the feasibility of using these concretes to design elements with a characteristic strength of 25 MPa and that the optimal percentage of fMRA replacement is 25%.

Published

2021

9. High voltage resonant converter to generate plasma in open air

Author

David Blanco Fernández, Juan A. Martin-Ramos, German Marcos-Robredo, Alberto M. Pernia, Pedro J. Villegas, and Miguel J. Prieto

Subjects

Glow discharge, Materials science, Steady state (electronics), business.industry, 020209 energy, 020208 electrical & electronic engineering, Electrical engineering, High voltage, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, Plasma, law.invention, Capacitor, law, Filter (video), Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Resonant converter, business, Voltage

Abstract

The paper studies a parallel resonant converter with a capacitor as output filter to generate and maintain a glow discharge in air. The application requires a high output voltage for air breakdown and much lower values to maintain discharge operation. Attention is payed to converter steady state and dynamic aspects.

Published

2019

10. Implementation of Building Information Modeling Technologies in Wood Construction: A Review of the State of the Art from a Multidisciplinary Approach

Author

Danny Lobos Calquin, Ramón Mata, Claudio Correa, Eduardo Nuñez, Guillermo Bustamante, Natalia Caicedo, David Blanco Fernandez, Marcos Díaz, Pablo Pulgar-Rubilar, and Leonardo Roa

Subjects

building information modelling, wood, wood construction, timber construction, architectural design, building construction, Building construction, TH1-9745

Abstract

This research raises questions about the possibilities and options of using the BIM methodology associated with software for the wood design and construction of structure modeling along an asset’s cycle life. Likewise, several academic and research initiatives are reviewed. In this sense, this paper aims to establish an appropriate link between two agendas that the architecture, engineering, and construction (AEC) industry, academia, and governments normally handle separately. By conducting several literature reviews (book, journals, and congresses) and extensive software tests (BIM software: Revit v2023, Archicad v27, Tekla, and wood plug-ins: AGACAD, Archiframe, Timber Framing 2015, WoodStud Frame, etc.), the state-of-the-art was assessed in both fields, and several cases linking BIM and wood are shown in detail and discussed. Various theoretical samples are modelled and shown, and the advantages and disadvantages of each technique and stage are explained. On the other hand, although wood construction has been most common for hundreds of years, this is not the case of BIM software developments associated with this materiality. Furthermore, since the appearance of materials such as steel and reinforced concrete, all software developments have focused on these materials, leaving aside the possibility of developing applications for use in wood projects. According to that previously discussed, it can be concluded that BIM for wood has been used more frequently in academia, that both fields have several common processes, and, in many cases, that only a few BIM-wood tools have been used, thus disregarding the high potential and high level of benefits that result with the application of these methodologies for the complete building life cycle (design, construction, and operation).

Published

2024

11. Prevention of Workpice Form Deviations in CNC Turning Based on Tolerance Specifications

Author

David Blanco Fernández, Sabino Mateos Díaz, Natalia Beltran Delgado, B.J. Alvarez, and Gonzalo Valiño Riestra

Subjects

Engineering, business.industry, business, Form deviation, Manufacturing engineering

Published

2009