906 resultados para CALS Continuous Acquisition and Life Cycle Support
Resumo:
"[ES] En España las posibilidades de empleo de las personas en riesgo de exclusión social no son satisfactorias. Se trata de un problema que centramos en las concepciones educativas de la enseñanza-aprendizaje inicial, que orientan minoritariamente a la formación para el empleo como a la oferta y demanda de trabajo de esos colectivos. En nuestro sistema educativo de la desatención y marginación del alumnado en riesgo de exclusión social se pasó a la educación especial; luego, a la normalización e integración, lo que condujo a la inclusión educativa. En ese momento final que nos encontramos aparecen visiones innovadoras como la escuela para todos, empleo con apoyo, y vida con apoyo que desarrollan el paradigma de la autonomía y vida independiente. [EN] Employment chances for people in risk of social exclusion are not satisfactory in Spain. This has been a problem at the core of educational conceptions concerning primary education, scarcely orientated towards the employment of such groups. In our system, from margination and neglect of our pupils in risk of social exclusion, we sent them to special education first, then to normalization and integration and finally to inclusive education. Nowadays, innovative visions such as school for all, employment and life with support are developing the model of autonomy and independent life. "
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Time series length-frequency data are presented for Themisto amphipods collected as swimmers by moored sediment traps since 2000 at the AWI deep-sea observatory HAUSGARTEN (79°N/4°E) in the eastern Fram Strait. Amphipod occurrences increased significantly from 2000 to 2009 at 200-300 m depth, and the North Atlantic species Themisto compressa was continuously present in the samples starting in 2004. We present year-round records of large adult Themisto amphipods, including the appearance of Themisto libellula with a total body length of up to 56.7 mm and juveniles starting from 4.0 mm. The length of Themisto abyssorum ranged from 4.2 to 25.6 mm, whereas it varied for Themisto compressa from 8.8 to 24.4 mm. Length-frequency analysis indicated a life span of 2 years for T. abyssorum and at least 3 years for T. libellula. The absence of juveniles for T. compressa suggested its reproduction in southern subarctic areas and its occasional northward migration with warmer Atlantic water into the eastern Fram Strait. The seasonal and long-term size structures of the three pelagic species were consistent over the course of the study, indicating no changes occurred in cohort development due to increasing abundances or warming water temperatures.
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Esta tesis parte de una reflexión sobre la integración de la construcción industrializada en la arquitectura y el desarrollo sostenible de nuestro planeta y, más concretamente, de la inquietud de querer comparar los diferentes sistemas de construcción industrializados bajo el punto de vista de su sostenibilidad. Supone una introspección en la industrialización sostenible de la construcción en cuanto a la conservación de energía y los recursos naturales, la reutilización de estos recursos y la gestión del ciclo de vida de los materiales y componentes utilizados. Las consideraciones se refieren tanto a aspectos concernientes a los materiales empleados, como a las tecnologías utilizadas, gestión de los edificios y su disposición final, para obtener una mayor eficiencia energética de los edificios y las técnicas de construcción. El estudio se concreta en el desarrollo un marco teórico para la investigación de la sostenibilidad de los sistemas industrializados de fachadas en edificios de vivienda colectiva en España; desarrollando una herramienta que permite, por un lado, guiar a los diferentes agentes en el diseño de sistemas constructivos de fachada con las mejores prácticas de sostenibilidad y, por otro lado, evaluar la sostenibilidad de los sistemas constructivos de una forma objetiva. Por último, se lleva a cabo la evaluación y comparación de once ejemplos de sistemas de fachadas realizados en España en los últimos años. Esto ha permitido emitir juicios críticos soportados por una base fáctica sobre el grado de sostenibilidad de unos sistemas con respecto a otros, realizando un análisis del estado actual del sector de la construcción de fachadas en vivienda colectiva en España, concluyendo en unas directrices que permitan mejorar los sistemas existentes. ABSTRACT The starting point of this thesis is a reflection on the integration of industrialized building and sustainable development concepts. This integration is specifically focused on providing a framework for comparing different systems of industrialized components used in the construction of collective housing, from the point of view of sustainability. Consequently, it involves research on the sustainable industrialization of construction in regards to energy conservation and natural resources, reuse of these resources and life cycle management of materials and components. These considerations refer to both the aspects concerning the materials used, and to the technologies applied to achieve greater energy efficiency in buildings and construction techniques. In tune with this, this thesis puts forward a theoretical framework for the research of sustainability of industrialized façade systems used in collective housing in Spain, leading to the development of a tool for design and assessment that can potentially be applied to any system. This analytical framework is then used to evaluate ten examples of façade systems made in Spain in recent years, therefore providing a factual basis to comparatively determine the degree of sustainability of existing solutions. Moreover, the implementation of this tool also allows to analyse the current state of the sector of façade construction for collective housing in Spain, as well as to propose several guidelines for the improvement of existing systems.
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The building sector is well known to be one of the key energy consumers worldwide. The renovation of existing buildings provides excellent opportunities for an effective reduction of energy consumption and greenhouse gas emissions but it is essential to identify the optimal strategies. In this paper a multi-criteria methodology is proposed for the comparative analysis of retrofitting solutions. Life Cycle Assessment (LCA) and Life Cycle Cost (LCC) are combined by expressing environmental impacts in monetary values. A Pareto optimization is used to select the preferred strategies. The methodology is exemplified by a case study: the renovation of a representative housing block from the 1960s located in Madrid. Eight scenarios have been proposed, from the Business as Usual scenario (BAU), through Spanish Building Regulation requirements (for new buildings) up to the Passive House standard. Results show how current renovation strategies that are being applied in Madrid are far from being optimal solutions. The required additional investment, which is needed to obtain an overall performance improvement of the envelope compared with the common practice to date, is relatively low (8%) considering the obtained life cycle environmental and financial savings (43% and 45%, respectively).
Sostenibilidad en el sector de la construcción. Sostenibilidad en estructuras y puentes ferroviarios
Resumo:
La escasez de recursos, el cambio climático, la pobreza y el subdesarrollo, los desastres naturales, son solo algunos de los grandes retos a que se enfrenta la humanidad y a los que la economía verde y el desarrollo sostenible tienen que dar respuesta. El concepto sostenible surge a raíz de la necesidad de lograr en todas las actividades humanas un nuevo equilibrio con el medioambiente, la sociedad y la economía, es decir un desarrollo más sostenible. La construcción supone en este nuevo concepto un sector básico, con grandes impactos en los recursos, los residuos, las emisiones, la biodiversidad, el paisaje, las necesidades sociales, la integración, el desarrollo económico del entorno, etc. Es por ello, que la construcción sostenible tiene una importancia esencial como demuestra su amplia aplicación teórica y práctica ya en proyectos de planificación urbana y de edificación. En la ingeniería civil estas aproximaciones son todavía mínimas, aunque ya se están considerando ciertos criterios de sostenibilidad en proyectos de construcción. La construcción consume muchos recursos naturales, económicos y tiene gran incidencia social. En la actualidad su actividad consume un 30% de los recursos extraídos de la tierra y la energía, y en consecuencia genera el 30% de los gases de efecto invernadero y residuos sólidos del mundo (EEA, 2014). Este impacto debería suponer una gran responsabilidad para los profesionales y gobiernos que toman cada día las decisiones de diseño e inversión en la construcción, y su máxima eficiencia debería estar muy presente entre los objetivos. En esta tesis doctoral se plantea un nuevo modelo para la evaluación de la sostenibilidad en los proyectos mediante un sistema de indicadores, basados en las áreas de estudio de las certificaciones de sostenibilidad existentes y en un análisis multi-criterio de cada uno de los axiomas de la sostenibilidad. Como reto principal se marca la propuesta de una metodología que permita identificar, priorizar y seleccionar los indicadores y las variables más importantes de lo que es considerado como una construcción sostenible en el caso de infraestructuras ferroviarias, más concretamente en puentes ferroviarios, y que además sirva para priorizar nuevos proyectos que se adapten a los nuevos objetivos del desarrollo sostenible: el respeto al medioambiente, la integración social y la económica. El objetivo es la aplicación de estos indicadores desde las etapas más tempranas del proyecto: planificación, diseño de alternativas y selección de alternativas. Para ello, en primer lugar, se ha realizado un análisis en profundidad de los distintas organizaciones de certificación de la sostenibilidad mundiales y se ha desarrollado una comparativa entre ellas, detallando el funcionamiento de las más extendidas (BREEAM, LEED, VERDE, DGNB). Tras esto, se ha analizado la herramienta matemática MIVES de análisis multi-criterio para su aplicación, en la tesis, a las infraestructuras ferroviarias. En la segunda parte se desarrolla para las estructuras ferroviarias un nuevo modelo de indicadores, un sistema de ayuda a la decisión multi-criterio basado en los tres axiomas de las sostenibilidad (sociedad, medioambiente y economía), articulados en un árbol de requerimientos inspirado en el método MIVES, que propone una metodología para el caso de las infraestructuras ferroviarias. La metodología MIVES estructura el proceso de decisión en tres ramas: Requisitos, componentes y ciclo de vida. Estas ramas definen los límites de los sistemas. El eje de los requisitos del árbol de los requisitos o se estructura en tres niveles que corresponden al requisito específico: criterios e indicadores. Además, es necesario definen la función del valor para cada indicador, definen el peso de importancia de cada elemento del árbol y finalmente con el calcular el valor de cada alternativa selecciona el mejor de él. La generación de este árbol de requerimientos en estructuras ferroviarias y la medición de los parámetro es original para este tipo de estructuras. Por último, tras el desarrollo de la metodología, se ha aplicado la propuesta metodológica mediante la implementación práctica, utilizando el método propuesto con 2 puentes ferroviarios existentes. Los resultados han mostrado que la herramienta es capaz de establecer una ordenación de las actuaciones coherente y suficientemente discriminante como para que el decisor no tenga dudas cuando deba tomar la decisión. Esta fase, es una de las grandes aportaciones de la tesis, ya que permite diferenciar los pesos obtenidos en cada una de las áreas de estudio y donde la toma de decisión puede variar dependiendo de las necesidades del decisor, la ubicación del puente de estudio etc. ABSTRACT Scarce resources, climate change, poverty and underdevelopment, natural disasters are just some of the great challenges facing humanity and to which the green economy will have to respond. The sustainable concept arises from the need for all human activities in a new equilibrium with the environment, society and the economy, which is known as sustainable development. The construction industry is part of this concept, because of its major impacts on resources, waste, emissions, biodiversity, landscape, social needs, integration, economical development, environment, etc. Therefore, sustainable construction has a critical importance as already demonstrated by its wide application and theoretical practice in urban planning and building projects. In civil engineering, these approaches are still minimal, although some criteria are already taken into account for sustainability in infrastructure projects. The construction industry requires a lot of natural resources, has a real economic relevance and a huge social impact. Currently, it consumes 40% of produced power as well as natural resources extracted from the earth and thus leads to an environmental impact of 40% regarding greenhouse gas emissions and solid wastes (EEA 2014). These repercussions should highly concern our governments and professional of this industry on the decisions they take regarding investments and designs. They must be inflexible in order to ensure that the main concern has to be a maximum efficiency. Major events like the COP21 held in Paris in December 2015 are a concrete signal of the worldwide awareness of the huge impact of each industry on climate. In this doctoral thesis a new model for the evaluation of the sustainability in the projects by means of a system of indicators, based on the areas of study of the existing certifications of sustainability and on an analysis considers multi-criterion of each one of the axioms of the sustainability. The primary aim of this thesis is to study the mode of application of sustainability in projects through a system of indicators. . The main challenge consists of create a methodology suitable to identify, prioritize and select the most important indicators which define if a building is sustainable in the specific case of railway infrastructures. The methodology will help to adapt future projects to the new goals of sustainable development which are respect of nature, social integration and economic relevance. A crucial point is the consideration of these indicators from the very beginning steps of the projects: planning, design and alternatives reflections. First of all, a complete inventory of all world energy certification organizations has been made in order to compare the most representative ones regarding their way of functioning (BREEAM, LEED, VERDE, DGNB). After this, mathematical tool MIVES of analysis has been analyzed multi-criterion for its application, in the thesis, to railway infrastructures. The second part of the thesis is aimed to develop a new model of indicators, inspired by the MIVES method, consisting in a decision-making system based on the 3 foundations of sustainability: nature impact, social concerns, and economic relevance. The methodology MIVES structures the decision process in three axes: Requirements, components and life cycle. These axes define the boundaries of the systems. The axis of requirements o tree requirements is structured in three levels corresponding to specific requirement: criteria and indicators. In addition, is necessary define the value function for each indicator, define the weight of importance of each element of the tree and finally with the calculate the value of each alternative select the best of them. The generation of this tree requirements in railway structures and measuring the parameter is original for this type of structures. Finally, after the development of the methodology, it has validated the methodology through practical implementation, applying the proposed method 2 existing railway bridges. The results showed that the tool is able to establish a coherent management of performances and discriminating enough so that the decision maker should not have doubts when making the decision. This phase, is one of the great contributions of the thesis, since it allows to differentiate the weights obtained in each one from the study areas and where the decision making can vary depending on the necessities of the decisor, the location of the bridge of study etc.
Resumo:
This work addresses the optimization of ammonia–water absorption cycles for cooling and refrigeration applications with economic and environmental concerns. Our approach combines the capabilities of process simulation, multi-objective optimization (MOO), cost analysis and life cycle assessment (LCA). The optimization task is posed in mathematical terms as a multi-objective mixed-integer nonlinear program (moMINLP) that seeks to minimize the total annualized cost and environmental impact of the cycle. This moMINLP is solved by an outer-approximation strategy that iterates between primal nonlinear programming (NLP) subproblems with fixed binaries and a tailored mixed-integer linear programming (MILP) model. The capabilities of our approach are illustrated through its application to an ammonia–water absorption cycle used in cooling and refrigeration applications.
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The effects of vehicle speed for Structural Health Monitoring (SHM) of bridges under operational conditions are studied in this paper. The moving vehicle is modelled as a single degree oscillator traversing a damaged beam at a constant speed. The bridge is modelled as simply supported Euler-Bernoulli beam with a breathing crack. The breathing crack is treated as a nonlinear system with bilinear stiffness characteristics related to the opening and closing of crack. The unevenness of the bridge deck is modelled using road classification according to ISO 8606:1995(E). The stochastic description of the unevenness of the road surface is used as an aid to monitor the health of the structure in its operational condition. Numerical simulations are conducted considering the effects of changing vehicle speed with regards to cumulant based statistical damage detection parameters. The detection and calibration of damage at different levels is based on an algorithm dependent on responses of the damaged beam due to passages of the load. Possibilities of damage detection and calibration under benchmarked and non-benchmarked cases are considered. Sensitivity of calibration values is studied. The findings of this paper are important for establishing the expectations from different vehicle speeds on a bridge for damage detection purposes using bridge-vehicle interaction where the bridge does not need to be closed for monitoring. The identification of bunching of these speed ranges provides guidelines for using the methodology developed in the paper.
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Global warming, energy savings, and life cycle analysis issues are factors that have contributed to the rapid expansion of plant-based materials for buildings, which can be qualified as environmental-friendly, sustainable and efficient multifunctional materials. This review presents an overview on the several possibilities developed worldwide about the use of plant aggregate to design bio-based building materials. The use of crushed vegetal aggregates such as hemp (shiv), flax, coconut shells and other plants associated to mineral binder represents the most popular solution adopted in the beginning of this revolution in building materials. Vegetal aggregates are generally highly porous with a low apparent density and a complex architecture marked by a multi-scale porosity. These geometrical characteristics result in a high capacity to absorb sounds and have hygro-thermal transfer ability. This is one of the essential characteristics which differ of vegetal concrete compared to the tradition mineral-based concretes. In addition, the high flexibility of the aggregates leads to a non-fragile elasto-plastic behavior and a high deformability under stress, lack of fracturing and marked ductility with absorbance of the strains ever after having reached the maximum mechanical strength. Due to the sensitivity to moisture, the assessment of the durability of vegetal concrete constitutes one of the next scientific challenging of bio-based building materials.
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Tese de Doutoramento, Biologia (Ciências do Mar), 5 de Julho de 2013, Universidade dos Açores.
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This paper focuses on technology state of the art for the charge/discharge of electric energy storage supported by vanadium redox flow battery linked to the electric grid. Properties of vanadium, the main configuration and the reaction of charge/discharge of a vanadium redox flow battery are addressed. The vanadium redox flow battery has the highest cell voltage among the other redox flow battery, implying higher power and energy density which favours application at power plants. This electric energy storage is viewed as a promising contribution to be integrated in power system due to a reasonably bulky size and to successful applications currently allowing storage of energy at power plants or at electrical grids. For instances, allowing storage of energy as an economic improvement providing spin reserve to avoid penalty for imbalances between the energy delivered and energy contracted at closing of electricity market or as an economic improvement to diminish the cost of electricity usage of a consumer. The vanadium redox flow battery has the advantages of scalability customized to meet requirements for power and energy capacity and of excellent combination of energy efficiency, capital cost and life cycle costs compared with other technology.
