Efficient management of available technologies. Aplication to mining operations for industry supplies

Nowadays, processing Industry Sector is going through a series of changes, including right management and reduction of environmental affections. Any productive process which looks for sustainable management is incomplete if Cycle of Life of mineral resources sustainability is not taken into account. Raw materials for manufacturing are provided by mineral resources extraction processes, such as copper, aluminum, iron, gold, silver, silicon, titanium? Those elements are necessary for Mankind development and are obtained from the Earth through mineral extractive processes. Mineral extraction processes are operations which must take care about the environmental consequences. Extraction of huge volumes of rock for their transformation into raw materials for industry must be optimized to reduce ecological cost of the final product as l was possible. Reducing the ecological balance on a global scale has no sense to design an efficient manufacturing in secondary industry (transformation), if in first steps of the supply chain (extraction) impact exceeds the savings of resources in successive phases. Mining operations size suggests that it is an environmental aggressive activity, but precisely because of its great impact must be the first element to be considered. That idea implies that a new concept born: Reduce economical and environmental cost This work aims to make a reflection on the parameters that can be modified to reduce the energy cost of the process without an increasing in operational costs and always ensuring the same production capacity. That means minimize economic and environmental cost at same time. An efficient design of mining operation which has taken into account that idea does not implies an increasing of the operating cost. To get this objective is necessary to think in global operation view to make that all departments involved have common guidelines which make you think in the optimization of global energy costs. Sometimes a single operational cost must be increased to reduce global cost. This work makes a review through different design parameters of surface mining setting some key performance indicators (KPIs) which are estimated from an efficient point of view. Those KPIs can be included by HQE Policies as global indicators. The new concept developed is that a new criteria has to be applied in company policies: improve management, improving OPERATIONAL efficiency. That means, that is better to use current resources properly (machinery, equipment,?) than to replace them with new things but not used correctly. As a conclusion, through an efficient management of current technologies in each extractive operation an important reduction of the energy can be achieved looking at downstream in the process. That implies a lower energetic cost in the whole cycle of life in manufactured product.

Exploring the feasibility of integrating water issues into the CAPRI model

Although numerous modelling efforts have integrated food and water considerations at the farm or river basin level, very few agro-economic models are able to jointly assess water and food policies at the global level. The present report explores the feasibility of integrating water considerations into the CAPRI model. First, a literature review of modelling approaches integrating food and water issues has been conducted. Three agro-economic models, IMPACT, WATERSIM and GLOBIOM, have been analysed in detail. In addition, biophysical and hydrological models estimating agricultural water use have also been studied, in particular the global hydrological model WATERGAP and the LISFLOOD model. Thanks to the programming approach of its supply module, CAPRI shows a high potentiality to integrate environmental indicators as well as to enter new resource constraints (land potentially irrigated, irrigation water) and input-output relationships. At least in theory, the activity-based approach of the regional programming model in CAPRI allows differentiating between rainfed and irrigated activities. The suggested approach to include water into the CAPRI model involves creating an irrigation module and a water use module. The development of the CAPRI water module will enable to provide scientific assessment on agricultural water use within the EU and to analyze agricultural pressures on water resources. The feasibility of the approach has been tested in a pilot case study including two NUTS 2 regions (Andalucia in Spain and Midi-Pyrenees in France). Preliminary results are presented, highlighting the interrelations between water and agricultural developments in Europe. As a next step, it is foreseen to further develop the CAPRI water module to account for competition between agricultural and non-agricultural water use. This will imply building a water use sub-module to compute water use balances.

Diseño de una Metodología de Política Pública de I+D+i para el Desarrollo de la Capacidad de la Innovación en el Sector PYMIS del estado Bolívar, Venezuela

El estado Bolívar con una superficie de 238.000 Km2 se encuentra ubicado al SE de Venezuela y su capital es Ciudad Bolívar. Ocupa el 26,24% de la superficie del territorio nacional. Ciudad Guayana es la principal región del desarrollo económico del estado siendo sede de las empresas básicas de los sectores siderúrgicos y del aluminio que se encargan de la extracción, procesamiento y transformación del mineral de hierro y de la transformación de la bauxita en aluminio primario. Además, cuenta con un gran potencial hidroeléctrico, garantizando el suministro de energía eléctrica para el funcionamiento de las empresas básicas, para el parque industrial de la región, así como para el desarrollo industrial, económico y social de la nación. Con relación al sector de la industria del mineral de hierro y del aluminio, las empresas destinan más del 60 por ciento de su producción al mercado internacional. A pesar de que el sector de las Pequeñas y Medianas Industrias (PYMIS) del estado Bolívar cuenta con un mercado cercano y seguro, no se le ha propiciado un desarrollo integral en términos de orientar sus esfuerzos en innovar en nuevos productos o mejoras de procesos. Debido a la falta del personal de investigación calificado, la escasa vinculación con centros de investigación, la baja inversión en investigación, desarrollo tecnológico e innovación (I+D+i), la ausencia de la aplicación de una política pública de I+D+i y la desarticulación de los miembros del Sistema Regional de Innovación (SRI), constituyen los principales obstáculos para generar bienes y servicios con un alto valor agregado. Esta situación desequilibra y hace ineficiente el funcionamiento del SRI. La baja capacidad de las PYMIS del estado Bolívar en I+D+i, es una situación que impide generar por si sola nuevos productos o procesos para satisfacer las demandas del mercado regional. Por lo tanto, se requiere de la intervención y participación activa de la institución gubernamental responsable del diseño y aplicación de una política pública de I+D+i para dinamizar la capacidad de innovación en las PYMIS, en su articulación y vinculación con los miembros del SRI. xiii El presente proyecto se planteó como objetivo diseñar una metodología de política pública de I+D+i para liderar, coordinar y direccionar el SRI del estado Bolívar, para el desarrollo de la capacidad de innovación en el sector industrial y específicamente en las PYMIS. La presente tesis representa una investigación no experimental de tipo proyectivo que analiza la situación actual del Sistema Regional de Innovación del estado Bolívar. El análisis de los resultados se ha dividido en tres fases. En la primera se realizan diagnósticos por medio de encuestas de las PYMIS en materia de I+D+i, de los centros y laboratorios de investigación pertenecientes a las universidades de la región en el área de Materiales y de los sectores financieros público y privado. En dichas encuestas se evalúa el nivel de integración con los entes gubernamentales que definen y administran la política pública de I+D+i. En la segunda fase, con el diagnóstico y procesamiento de los resultados de la primera fase, se procede a desarrollar un análisis de las fortalezas, oportunidades, debilidades y amenazas (FODA) del Sistema Regional de Innovación, permitiendo comprender la situación actual de la relación y vinculación de las PYMIS con los centros de investigación, instituciones financieras y entes gubernamentales. Con la problemática detectada, resultó necesario el diseño de estrategias y un modelo de gestión de política pública de I+D+i para la articulación de los miembros del SRI, para el apoyo de las PYMIS. En la tercera fase se diseña la metodología de política pública de I+D+i para fortalecer la innovación en las PYMIS. La metodología se representa a través de un modelo propuesto que se relaciona con las teorías de los procesos de innovación, con los modelos de sistemas de innovación y con las reflexiones y recomendaciones hechas por diferentes investigadores e instituciones de cooperación internacional referentes a la aplicación de políticas públicas de I+D+i para dinamizar la capacidad de innovación en el sector industrial. La metodología diseñada es comparada con diferentes modelos de aplicación de política pública de I+D+i. Cada modelo se representa en una figura y se analiza su xiv situación presente y la función que desempeña el ente gubernamental en la aplicación del enfoque de política pública de I+D+i. El diseño de la metodología de política pública de I+D+i propuesta aportará nuevos conocimientos y podrá ser aplicado para apoyar el progreso de la I+D+i en las PYMIS de la región, como caso de estudio, con el fin de impulsar una economía más competitiva y reducir el grado de dependencia tecnológica. La metodología una vez evaluada podrá ser empleada en el contexto de la gran industria y en otras regiones de Venezuela y además, puede aplicarse en otros países con características similares en su tejido industrial. En la tesis doctoral se concluye que el desarrollo de la capacidad de innovación en las PYMIS depende del diseño y aplicación de la política pública de I+D+i como elemento dinamizador y articulador del SRI del estado Bolívar. xv ABSTRACT The Bolivar state with an area of 238,000 km2 is located in the SE of Venezuela and its capital is Ciudad Bolivar. It occupies a surface which is 26.24% of the national territory. Ciudad Guayana is the main area of the state's economic development and the location of the corporate headquarters of the basic steel and aluminum sectors that are responsible for the extraction, processing and transformation of iron ore and bauxite processing for primary aluminum. It also has a great hydroelectric potential, ensuring the supply of electricity for the operation of enterprises, for the regional industrial park as well as for the industrial, economic and social development of the nation. With regard to the iron ore and aluminum industry, companies allocate more than 60 percent of their production to the international market. Although the sector of Small and Medium Industries (SMIs) of the Bolivar state has a secure market, it has not been led to an integral development in terms of targeting its efforts on innovating new products or improving processes. Due to the lack of qualified research staff, poor links with research centers, low investment in research, technological development and innovation (R & D & I), the absence of the implementation of a public policy for R & D & I and the dismantling of the members of the Regional Innovation System (RIS), are the main obstacles to generate goods and services with high added value. This situation makes the RIS unbalanced and inefficient. The low capacity of Bolivar state’s SMIs in R & D & I, is a situation that cannot generate by itself new products or processes to meet regional market demands. Therefore, it requires the active involvement and participation of the government institution responsible for the design and implementation of R & D & I public policy to boost the innovation capacity in SMIs, through the connection and integration with members of the RIS. This project is intended to design a methodology aimed at public policy for R & D & I to lead, coordinate and direct the RIS of Bolivar state, for the development of innovation capacity in the industrial sector and specifically in the SMIs. xvi This thesis is an experimental investigation of projective type which analyzes the current situation of the Regional Innovation System of the Bolivar state. The analysis of the results is divided into three phases. In the first one, a diagnosis is performed through surveys of SMIs in R & D & I centers and research laboratories belonging to the universities of the region in the area of materials and public and private financial sectors. In such surveys the level of integration with government agencies that define and manage the public policy of R & D & I is assessed. In the second phase, with the diagnosis and processing of the results of the first phase, we proceed to develop an analysis of the strengths, weaknesses, opportunities and threats (SWOT) of the Regional Innovation System, allowing the comprehension of the current status of the relationship of SMIs with research centers, financial institutions and government agencies. With the problems identified it was necessary to design strategies and a model of public policy management of R & D & I for the articulation of the members of the RIS, to support the SMIs. In the third phase a public policy methodology for R & D & I is designed in order to strengthen innovation in SMIs. The methodology is shown through a proposed model that relates to the theories of the innovation process, with models of innovation systems and with the discussions and recommendations made by different researchers and institutions of international cooperation concerning the implementation of policies public for R & D & I to boost innovation capacity in the industrial sector. The methodology designed is compared with different models of public policy implementation for R & D & I. Each model is represented in a figure and its current situation and the role of the government agency in the implementation of the public policy approach to R & D & I is analyzed. The design of the proposed public policy methodology for R & D & I will provide new knowledge and can be applied to support the progress of R & D & I in the region’s SMIs, as a case study, in order to boost a more competitive economy and reduce the degree of technological dependence. After being evaluated the methodology can be used in the context of big industry and in other regions of Venezuela and can also be applied in other countries with similar characteristics in their industrial structure. xvii The thesis concludes that the development of the innovation capacity in SMIs depends on the design and implementation of the public policy for R & D & I as a catalyst and coordination mechanism of the Regional Innovation System of the Bolivar state.

Performance of UV-enhanced PMMA fresnel lenses and impact on LCOE

Tiny increases in the transmittance of optical materials within a CPV module can have an important impact on the economy of a plant. This is certainly true in systems comprising multi-junction solar cells, whose high performance, based on a balanced photocurrent generation among the series-connected junctions, is very sensitive to spectrum variations. Every efficiency point gained causes not only an increase in the kilowatts hour produced, but a higher benefit on it, since the difference between electricity tariff and Levelized Cost of Electricity (LCOE) rises. This work studies the impact on the LCOE of a plant based on modules comprising PMMA lenses of two different types, standard UV blocking grade which is normally used for outdoor applications at high DNI climate and a specialty stabilized UV-enhanced transmittance acrylic (see Figure 1). Energy production will be compared for these two systems throughout the year at different sites to analyze when (season, time of the day) and where the usage of the enhanced PMMA is justified.

An Empirical Analysis of the Spanish Gas Price Structure

We can say without hesitation that in energy markets a throughout data analysis is crucial when designing sophisticated models that are able to capture most of the critical market drivers. In this study we will attempt to investigate into Spanish natural gas prices structure to improve understanding of the role they play in the determination of electricity prices and decide in the future about price modelling aspects. To further understand the potential for modelling, this study will focus on the nature and characteristics of the different gas price data available. The fact that the existing gas market in Spain does not incorporate enough liquidity of trade makes it even more critical to analyze in detail available gas price data information that in the end will provide relevant information to understand how electricity prices are affected by natural gas markets. In this sense representative Spanish gas prices are typically difficult to explore given the fact that there is not a transparent gas market yet and all the gas imported in the country is negotiated and purchased by private companies at confidential terms.

Simulación de mercado diario y previsión a 20 años del sector eléctrico peninsular

En este proyecto se crea un modelo de casación de ofertas de venta y de adquisición de energía eléctrica. Este modelo sirve para simular, de manera simplificada, el proceso de casación que tiene lugar en el mercado Diario peninsular (España y Portugal). Con el fin de averiguar el comportamiento del sector eléctrico, en este aspecto, en el futuro, se extrapolan las ofertas de adquisición según una evolución prevista de demanda y se utiliza el modelo creado para prever el mix energético y los precios de la electricidad. Esta previsión se hace en base a tres escenarios. Uno en el que hay un importante autoabastecimiento de energía eléctrica en los puntos de consumo residenciales; otro en el que el vehículo eléctrico entra de manera significativa en el parque automovilístico peninsular; y el tercero en el que las energías renovables asumen el principal peso de la cobertura de energía eléctrica. Abstract In this project a model for matching sale and purchase bids of electricity power is created. The model simulates, simplified, the process of setting energy and prices in the Daily Market of the Iberian Peninsula (Spain and Portugal). In order to determine the electricity sector behavior in the future, purchase bids are extrapolated following a prevision of demand and the model is used to predict the generation technologies mix and electricity prices. This forecast is based on three possible scenarios. The first one assumes significant self-supply of electricity in residential areas; the second one considers that the electric vehicle relevantly enters the peninsular fleet; the third one supposes that renewable energies cover the majority of electric energy.

Elaboración de un nuevo modelo económico para la contribución al desarrollo sostenible de países del África subsahariana: implementación en Guinea Bissau

El escaso crecimiento de los países del África subsahariana, lleva a la necesidad de plantear un tipo de modelo económico que se adapte a sus especiales características y que en definitiva, conduzca a las sociedades que viven en estos países a un aumento de su calidad de vida, mediante mejoras en todos los campos sociales tales como: la enseñanza, la salud y la nutrición, que puedan ayudar a transformar las perspectivas del crecimiento económico, especialmente en los países objeto de estudio, que se caracterizan por presentar bajos ingresos y escaso desarrollo humano. Se puede concluir, por tanto, diciendo que en definitiva, el fin es el desarrollo humano y que el crecimiento económico es un medio. El propósito del crecimiento económico debe ser enriquecer la vida de la gente. Los adelantos a corto plazo en materia de desarrollo humano son posibles, merced a un mayor crecimiento económico que a su vez no debe desligarse del respeto por el medioambiente y el entorno. Para conseguir estos objetivos, se plantea en la presente tesis un modelo económico, elaborado siguiendo las directrices de la Dinámica de Sistemas, mediante el uso del programa informático VENSIM. El modelo planteado se basa en la producción de energía eléctrica, que sería capaz de abastecer a una población y generar unos excedentes que podrían ser vendidos y las ganancias reinvertidas para impulsar el crecimiento económico de la población a la que abastece. ABSTRACT Low growth in sub-Saharan Africa, leading to the need to establish a type of economic model that suits their special characteristics and ultimately lead to societies that live in these countries to increase human capacity through improvements in all social fields such as education, health and nutrition that can help transform the prospects for economic growth, especially in the countries under study, which are characterized by low income and low human development. It can be concluded, therefore, saying that ultimately, the end is human development and economic growth is a means. The purpose of economic growth should be to enrich the lives of people. The short-term advances in human development are possible, thanks to higher economic growth which in turn should not be separated from respect for the environment and intone. To achieve these objectives, we propose in this thesis an economic model, developed under the guidance of dynamic systems, using the computer program VENSIM. The proposed model is based on the production of electricity, which would be able to supply a population and generate a surplus that could be sold and the proceeds reinvested to boost economic growth in the population it serves.

Analysis of advanced European nuclear fuel cycle scenarios including transmutation and economic estimates

Four European fuel cycle scenarios involving transmutation options (in coherence with PATEROS and CPESFR EU projects) have been addressed from a point of view of resources utilization and economic estimates. Scenarios include: (i) the current fleet using Light Water Reactor (LWR) technology and open fuel cycle, (ii) full replacement of the initial fleet with Fast Reactors (FR) burning U?Pu MOX fuel, (iii) closed fuel cycle with Minor Actinide (MA) transmutation in a fraction of the FR fleet, and (iv) closed fuel cycle with MA transmutation in dedicated Accelerator Driven Systems (ADS). All scenarios consider an intermediate period of GEN-III+ LWR deployment and they extend for 200 years, looking for long term equilibrium mass flow achievement. The simulations were made using the TR_EVOL code, capable to assess the management of the nuclear mass streams in the scenario as well as economics for the estimation of the levelized cost of electricity (LCOE) and other costs. Results reveal that all scenarios are feasible according to nuclear resources demand (natural and depleted U, and Pu). Additionally, we have found as expected that the FR scenario reduces considerably the Pu inventory in repositories compared to the reference scenario. The elimination of the LWR MA legacy requires a maximum of 55% fraction (i.e., a peak value of 44 FR units) of the FR fleet dedicated to transmutation (MA in MOX fuel, homogeneous transmutation) or an average of 28 units of ADS plants (i.e., a peak value of 51 ADS units). Regarding the economic analysis, the main usefulness of the provided economic results is for relative comparison of scenarios and breakdown of LCOE contributors rather than provision of absolute values, as technological readiness levels are low for most of the advanced fuel cycle stages. The obtained estimations show an increase of LCOE ? averaged over the whole period ? with respect to the reference open cycle scenario of 20% for Pu management scenario and around 35% for both transmutation scenarios. The main contribution to LCOE is the capital costs of new facilities, quantified between 60% and 69% depending on the scenario. An uncertainty analysis is provided around assumed low and high values of processes and technologies.

Methodology for estimating building integrated photovoltaics electricity production under shadowing conditions and case study

Building integrated photovoltaic (BIPV) systems are a relevant application of photovoltaics. In countries belonging to the International Energy Agency countries, 24% of total installed PV power corresponds to BIPV systems. Electricity losses caused by shadows over the PV generator have a significant impact on the performance of BIPV systems, being the major source of electricity losses. This paper presents a methodology to estimate electricity produced by BIPV systems which incorporates a model for shading losses. The proposed methodology has been validated on a one year study with real data from two similar PV systems placed on the south façade of a building belonging to the Technical University of Madrid. This study has covered all weather conditions: clear, partially overcast and fully overcast sky. Results of this study are shown at different time scales, resulting that the errors committed by the best performing model are below 1% and 3% in annual and daily electricity estimation. The use of models which account for the reduced performance at low irradiance levels also improves the estimation of generated electricity.

Determination of the influence of specific building regulations in smart buildings

The automation of domestic services began to be implemented in buildings since the late nineteenth century, and today we are used to terms like ‘intelligent buildings’, ‘digital home’ or ‘domotic buildings’. These concepts tell us about constructions which integrate new technologies in order to improve comfort, optimize energy consumption or enhance the security of users. In conjunction, building regulations have been updated to suit the needs of society and to regulate these new facilities in such structures. However, we are not always sure about how far, from the quantitative or qualitative point of view, legislation should regulate certain aspects of the building activity. Consequently, content analysis is adopted in this research to determine the influence of building regulations in the implementation of new technologies in the construction process. This study includes the analysis of different European regulations, the collection and documentation of such guidelines that have been established and a study of the impact that all of these have had in the way we start thinking an architectural project. The achievements of the research could be explained in terms of the regulatory requirements that must be taken into account in order to achieve a successful implementation of a home automation system, and the key finding has been the confirmation of how the design of smart buildings may be promoted through specific regulatory requirements while other factors, such as the global economic situation, do not seem to affect directly the rate of penetration of home automation in construction.

Computer workstation vetting by supply current monitoring

It is our goal within this project to develop a powerful electronic system capable to claim, with high certainty, that a malicious software is running (or not) along with the workstations’ normal activity. The new product will be based on measurement of the supply current taken by a workstation from the grid. Unique technique is proposed within these proceedings that analyses the supply current to produce information about the state of the workstation and to generate information of the presence of malicious software running along with the rightful applications. The testing is based on comparison of the behavior of a fault-free workstation (established i advance) and the behavior of the potentially faulty device.

A voltage disturbances prototype for testing electrical generators connected to microgrids

The search for new energy models arises as a necessity to have a sustainable power supply. The inclusion of distributed generation sources (DG) allows to reduce the cost of facilities, increase the security of the grid or alleviate problems of congestion through the redistribution of power flows. In remote microgrids it is needed in a particular way a safe and reliable supply, which can cover the demand for a low cost; due to this, distributed generation is an alternative that is being widely introduced in these grids. But the remote microgrids are especially weak grids because of their small size, low voltage level, reduced network mesh and distribution lines with a high ratio R/X. This ratio affects the coupling between grid voltages and phase shifts, and stability becomes an issue of greater importance than in interconnected systems. To ensure the appropriate behavior of generation sources inserted in remote microgrids -and, in general, any electrical equipment-, it is essential to have devices for testing and certification. These devices must, not only faithfully reproduce disturbances occurring in remote microgrids, but also to behave against the equipment under test (EUT) as a real weak grid. This also makes the device commercially competitive. To meet these objectives and based on the aforementioned, it has been designed, built and tested a voltage disturbances generator, in order to provide a simple, versatile, full and easily scalable device to manufacturers and laboratories in the sector.

Unit Commitment and Electricity Prices Forecasting for Market Strategy Preparation in Interconnected Systems

In this paper we present a solution for building a better strategy to take part in external electricity markets. For an optimal strategy development, both the internal system costs as well as the future values of the series of electricity prices in external markets need to be known. But in practice, the real problems that must be faced are that both future electricity prices and costs are unknown. Thus, the first ones must be modeled and forecasted and the costs must be calculated. Our methodology for building an optimal strategy consists of three steps: The first step is modeling and forecasting market prices in external systems. The second step is the cost calculation on internal system taking into account the expected prices in the first step. The third step is based on the results of the previous steps, and consists of preparing the bids for external markets. The main goal is to reduce consumers' costs unlike many others that are oriented to increase GenCo's profits.

Environmental analysis of a Concentrated Solar Power (CSP) plant hybridised with different fossil and renewable fuels

The environmental performance of a 50 MW parabolic trough Concentrated Solar Power (CSP) plant hybridised with different fuels was determined using a Life Cycle Assessment methodology. Six different scenarios were investigated, half of which involved hybridisation with fossil fuels (natural gas, coal and fuel oil), and the other three involved hybridisation with renewable fuels (wheat straw, wood pellets and biogas). Each scenario was compared to a solar-only operation. Nine different environmental categories as well as the Cumulative Energy Demand and the Energy Payback Time (EPT) were evaluated using Simapro software for 1 MWh of electricity produced. The results indicate a worse environmental performance for a CSP plant producing 12% of the electricity from fuel than in a solar-only operation for every indicator, except for the eutrophication and toxicity categories, whose results for the natural gas scenario are slightly better. In the climate change category, the results ranged between 26.9 and 187 kg CO2 eq/MWh, where a solar-only operation had the best results and coal hybridisation had the worst. Considering a weighted single score indicator, the environmental impact of the renewable fuels scenarios is approximately half of those considered in fossil fuels, with the straw scenario showing the best results, and the coal scenario the worstones. EPT for solar-only mode is 1.44 years, while hybridisation scenarios EPT vary in a range of 1.72 -1.83 years for straw and pellets respectively. The fuels with more embodied energy are biomethane and wood pellets.

Almacenamiento de energía térmica por calor latente en los edificios: bases para la optimización de aplicaciones pasivas, opacas y traslúcidas

La principal motivación para la elección del tema de la tesis es nuestra realidad energética y ambiental. Y más específicamente, la necesidad urgente de dar una respuesta a esta realidad desde el sector de la edificación. Por lo que, el trabajo parte de la búsqueda de soluciones pasivas que ayuden a la reducción del consumo energético y de las emisiones de C02 de los edificios, tanto nuevos como existentes. El objeto de estudio son aplicaciones innovadoras, basadas en el uso de materiales reactivos, con un efecto térmico de memoria bidireccional. La energía es un elemento imprescindible para el desarrollo. Sin embargo, el modelo energético predominante, basado principalmente en la utilización de combustibles de origen fósil, es uno de los importantes responsables del deterioro ambiental que sufre el planeta. Además, sus reservas son limitadas y están concentradas en unas pocas regiones del mundo, lo que genera problemas de dependencia, competitividad y de seguridad de suministro. Dado el gran potencial de ahorro energético del sector de la edificación, la Unión Europea en sus directivas enfatiza la necesidad de mejorar la eficiencia energética de los edificios. Añadiendo, además, la obligatoriedad de desarrollar edificios “energía casi nula”, cuyo prerrequisito es tener un muy alto rendimiento energético. En España, los edificios son responsables del 31% del consumo de energía primaria. La mayor parte de este consumo se relaciona a la utilización de sistemas activos de acondicionamiento. Una medida efectiva para reducir la demanda es mejorar la envolvente. Sin embargo, hay que buscar estrategias adicionales para aumentar aún más la eficiencia de los edificios nuevos y existentes. Para los climas de España, el uso de la inercia térmica ha probado ser una estrategia válida. Sin embargo, su funcionamiento está vinculado al peso y al volumen de los materiales utilizados. Esto limita sus posibilidades en la rehabilitación energética y en los nuevos edificios basados en la construcción ligera. Una alternativa es el uso de aplicaciones de almacenamiento térmico por calor latente, utilizando materiales de cambio de fase (PCM). Los PCM son sustancias con un muy alto calor de fusión, capaces de almacenar una gran cantidad de energía térmica sin requerir aumentos significativos de peso o volumen. Estas características los hacen idóneos para reducir el consumo relacionado con el acondicionamiento térmico, en edificios nuevos y existentes. En la parte preliminar de la investigación, se encontró que para lograr un aprovechamiento óptimo de las aplicaciones con PCM es necesario tener un conocimiento profundo de su funcionamiento y de las variables del sistema. De ahí que el objetivo principal de la presente tesis sea: establecer las bases para la optimizatión integral de las aplicaciones con almacenamiento de energía térmica por calor latente, identificando y validando sus variables más relevantes. La investigación consta de tres partes. La primera, documental, sistematizando y jerarquizando la información científica publicada; la segunda, numérica, basada en un análisis paramétrico de una aplicación con PCM, utilizando simulaciones térmicas; y la tercera, experimental, monitorizando el funcionamiento térmico y energético de diferentes aplicaciones con PCM en módulos a escala real. Los resultados brindan un más profundo entendimiento del funcionamiento de las aplicaciones evaluadas. Han permitido identificar sus variables relevantes, cuantificar su influencia, y determinar condiciones óptimas para su utilización así como situaciones en las que sería muy difícil justificar su uso. En el proceso, se realizó la caracterización térmica y energética de aplicaciones con PCM, tanto opacas como traslúcidas. Además, se ha encontrado que las aplicaciones con PCM son capaces de aumentar la eficiencia energética inclusive en recintos con diseños optimizados, demostrando ser una de las estrategias adecuadas para lograr el muy alto desempeño energético requerido en los edificios energía nula. ABSTRACT The main motivation for choosing the theme of the thesis is our energy and environmental reality. And more specifically, the urgent need to respond to this reality from the building sector. This is why, the work start with the search of passive solutions that help reduce energy consumption and C02 emissions of buildings, in both new and existing ones. The object of study is innovative applications based on the use of responsive materials, with bidirectional thermal memory. Energy is an essential element for development. However, the predominant energy model, based primarily on the use of fossil fuels, is one of the major responsible for the environmental deterioration of the planet, the cause of most of the CO2 emissions. Furthermore, reserves of fossil fuels are limited and are concentrated in a few regions of the world, which creates issues related to dependency, competitiveness, and security of supply. Given the large potential for energy savings in the building sector, the European Union in its directives emphasizes the need to improve energy efficiency in buildings. Also, adding the obligation to develop "nearly zero energy" buildings, whose first prerequisite is to achieve a very high energy efficiency. In Spain, buildings are responsible for 31% of primary energy consumption and most of this consumption is related to the used of HVAC systems. One of the most effective measures to reduce demand is to improve the envelope. However, it is necessary to look for additional strategies to further increase the efficiency of new and existing buildings. For the predominant climates in Spain, use of the thermal inertia may be a valid strategy. Nevertheless, its operation is linked to weight and volume of the materials used. This limits their possibilities in the existing buildings energy retrofitting and in the new buildings based on lightweight construction. An alternative is the use of latent heat thermal energy storage applications (LHTES), using phase change materials (PCM). PCM are substances with a high heat of fusion, capable of storing a large amount of thermal energy without requiring significant increases in weight or volume. These features make them ideal for reducing energy consumption associated with thermal conditioning in both new and existing buildings. In the preliminary part of the investigation, it was found that to get optimum utilization of the PCM applications is needed to have a deep understanding of its operation and, in particular, how the system variables affect its performance. Hence, the main objective of this thesis is: to establish the basis for the integral optimization of applications with latent heat thermal energy storage, identifying and validating the most relevant variables. The research comprises of three parts. The first, documentary, systematizing and prioritizing published scientific information. The second, numeric, based on a parametric analysis of an application PCM using thermal simulations. The third, experimental, monitoring the thermal and energy performance of different applications with PCM on real scale test cells. The results provide a complete understanding of the functioning of the evaluated LHTES application. They have allowed to identify their relevant variables, quantify their influence and determine optimum conditions for use as well as situations where it would be very difficult to justify its use. In the process, it was carried out the power and thermal characterization of various opaque and translucent PCM applications. Furthermore, it has been found that applications with PCM can increase the energy efficiency, even in buildings with optimized designs; proving to be one of the appropriate measures to achieve the high energy performance required in zero energy buildings.