968 resultados para STEAM


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El prólogo de la tragedia despliega dos espacios distintivos: las silvae de Hipólito y el opresivo y lujurioso espacio interior del palacio de Fedra. Cada personaje es definido por las características de los espacios que sus discursos configuran: los castos y salvajes bosques de Hipólito revelarán, bajo su manto de agreste tranquilidad, una violenta y estéril dicción que sugiere una inadecuación del personaje al paradigma de sapiens que parte de la crítica ha visto en él, mientras que el espacio interior de Fedra estará lleno de llamas y vapor, símbolos de su pasión. Ambos mundos conviven a modo de compartimentos estancos: frío y llamas, castidad y libido, nieve y vapor conviven pacíficamente, y en esta convivencia no hay ni catástrofe ni tragedia. Éstas se desarrollan y toman fuerza a medida que Fedra se adentra discursivamente en los dominios de Hipólito y los tiña progresivamente con su discurso, convirtiéndolo finalmente en un locushorridus donde el joven cazador huirá horrorizado como las bestias que solía perseguir. Por lo tanto tragedia y catástrofe ocurren cuando las silvae de Hipólito se convierten en el acechante Nemus habitado por lujuriosas criaturas gracias a la intrusión discursiva que la reina realiza en el áspero paisaje configurado en la monodia inicial del personaje

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El prólogo de la tragedia despliega dos espacios distintivos: las silvae de Hipólito y el opresivo y lujurioso espacio interior del palacio de Fedra. Cada personaje es definido por las características de los espacios que sus discursos configuran: los castos y salvajes bosques de Hipólito revelarán, bajo su manto de agreste tranquilidad, una violenta y estéril dicción que sugiere una inadecuación del personaje al paradigma de sapiens que parte de la crítica ha visto en él, mientras que el espacio interior de Fedra estará lleno de llamas y vapor, símbolos de su pasión. Ambos mundos conviven a modo de compartimentos estancos: frío y llamas, castidad y libido, nieve y vapor conviven pacíficamente, y en esta convivencia no hay ni catástrofe ni tragedia. Éstas se desarrollan y toman fuerza a medida que Fedra se adentra discursivamente en los dominios de Hipólito y los tiña progresivamente con su discurso, convirtiéndolo finalmente en un locushorridus donde el joven cazador huirá horrorizado como las bestias que solía perseguir. Por lo tanto tragedia y catástrofe ocurren cuando las silvae de Hipólito se convierten en el acechante Nemus habitado por lujuriosas criaturas gracias a la intrusión discursiva que la reina realiza en el áspero paisaje configurado en la monodia inicial del personaje

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Clay minerals are examined in detail in the sediment from the Tonga Trench margin at Site 841 (Leg 135 ODP). The changes in amount and nature of secondary clays with depth provide an alternative explanation for the intensive alteration of volcanogenic material at convergent margins. A characteristic distribution of clay minerals with depth shows four distinct zones unexplainable by simple burial diagenesis processes. These are named the upper, reactive, lower and rhyolitic zones. The reactive zone is intercalated with numerous sills and is characterized by the dominant iron-rich clays such as saponite, corrensite and chlorite associated with analcime. The occurrence of such iron-rich clays, mostly associated with a large amount of analcime, yields chemical and mineralogical evidence for thermal diagenesis. The required heat for the diagenetic process was transferred from recently intruded basaltic andesite sills. In the vicinity of these intrusions, the iron-rich clay minerals may have formed at temperatures up to 200°C. A zoning with respect to clay and zeolite minerals indicates that the influence of the palaeoheat flow decreased with the distance from the intrusion. The formation of interlayered I/S, illite, kaolinite and aluminous chlorite, which are recognized as major secondary minerals within the rhyolitic complex, was mainly controlled by both early diagenesis at moderately elevated temperatures, and since the Eocene by burial diagenesis at low temperatures. The occurrence of a steam zone in an early stage of the intrusion is restricted to Miocene tuffs and has overprinted the early alteration of the volcanogenic material within the tuffs and has changed the originally pristine composition of the pore fluids.

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Spain is the fifth-largest producer of melon (Cucumis melo L.) and the second exporter in the world. To a national level, Castilla-La Mancha emphasize and, specifically, Ciudad Real, where is cultivated 27% of national area dedicated to this crop and 30% of melon national production. Melon crop is cultivating majority in Ciudad Real and it is mainly located in the Alto Guadiana, where the major aquifers of the region are located, the aquifer 23 or Mancha Occidental and the aquifer 24 or Campo de Montiel, both declared overexploited and vulnerable zones to nitrate pollution from agricultural sources. The problem is exacerbated because in this area, groundwater is the basic resource of supply to populations, and even often the only one. Given the importance of melon in the area, recent research has focused on the irrigation of melon crop. Unfortunately, scant information has been forthcoming on the effect of N fertilizer on melon piel de sapo crop, so it is very important to tackle in a serious study that lead to know the N requirements on the melon crop melon by reducing the risks of contamination by nitrate leaching without affecting productivity and crop quality. In fact, the recommended dose is often subjective and practice is a N overdose. In this situation, the taking of urgent measures to optimize the use of N fertilization is required. To do it, the effect of N in a melon crop, fertirrigated and on plastic mulch, was studied. The treatments consisted in different rates of N supply, considering N fertilizer and N content in irrigation water, so the treatment applied were: 30 (N30), 85 (N85), 112 (N112) and 139 (N139) Kg N ha-1 in 2005; 93 (N93), 243 (N243) and 393 (N393) kg ha-1 in 2006; and 11 (N11), 61 (N61), 95 (N95) and 148 (N148) kg ha-1 in 2007. A randomized complete-block design was used and each treatment was replicated four times. The results showed a significant effect of N on dry biomass and two patterns of growth were observed. On the one hand, a gradual increase in vegetative biomass of the plant, leaves and stem, with increasing N, and on the other hand, an increase of fruit biomass also with increasing N up to a maximum of biomass corresponding to the optimal dose determined in 90 kg ha-1 of N applied, corresponding to 160 kg ha-1 of N available for melon crop, since this optimum dose, the fruit biomass suffers a decline. A significant effect was observed in concentration and N uptake in leaf, steam, fruit and whole plant, increasing in all of them with increasing of N doses. Fast N uptake occurred from 30-35 to 70-80 days after transplanting, coinciding with the fruit development. The N had a clear influence on the melon yield, its components, skin thickness and flesh ratio. The melon yield increased, as the mean fruit weight and number of fruits per m2 with increasing N until achieve an above 95% of the maximum yield when the N applied is 90 kg ha-1 or 160 kg ha-1 of N available. When N exceeds the optimal amount, there is a decline in yield, reducing the mean fruit weight and number of fruits per square meter, and was also observed a decrease in fruit quality by increasing the skin thickness and decrease the flesh ratio, which means an increase in fruit hollowed with excessive N doses. There was a trend for all indexes of N use efficiency (NUE) to decline with increasing N rate. We observed two different behaviours in the calculation result of the NUE; on the one hand, all the efficiency indexes calculated with N applied and N available had an exponential trend, and on the other hand, all the efficiency indexes calculated with N uptake has a linear trend. The linear regression cuts the exponential curve, delimiting a range within which lies the optimum quantity of N. The N leaching as nitrates increased exponentially with the amount of N. The increase of N doses was affected on the N mineralization. There was a negative exponential effect of N available on the mineralization of this element that occurs in the soil during the growing season, calculated from the balances of this element. The study of N leaching for each N rate used, allowed to us to establish several environmental indices related to environmental risk that causes the use of such doses, a simple way for them to be included in the code of Best Management Practices.

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A probabilistic safety assessment (PSA) is being developed for a steam-methane reforming hydrogenproduction plant linked to a high-temperature gas-cooled nuclear reactor (HTGR). This work is based on the Japan Atomic Energy Research Institute's (JAERI) High Temperature Engineering Test Reactor (HTTR) prototype in Japan. The objective of this paper is to show how the PSA can be used for improving the design of the coupled plants. A simplified HAZOP study was performed to identify initiating events, based on existing studies. The results of the PSA show that the average frequency of an accident at this complex that could affect the population is 7 × 10−8 year−1 which is divided into the various end states. The dominant sequences are those that result in a methane explosion and occur with a frequency of 6.5 × 10−8 year−1, while the other sequences are much less frequent. The health risk presents itself if there are people in the vicinity who could be affected by the explosion. This analysis also demonstrates that an accident in one of the plants has little effect on the other. This is true given the design base distance between the plants, the fact that the reactor is underground, as well as other safety characteristics of the HTGR.

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Underground coal mines explosions generally arise from the inflammation of a methane/air mixture. This explosion can also generate a subsequent coal dust explosion. Traditionally such explosions have being fought eliminating one or several of the factors needed by the explosion to take place. Although several preventive measures are taken to prevent explosions, other measures should be considered to reduce the effects or even to extinguish the flame front. Unlike other protection methods that remove one or two of the explosion triangle elements, namely; the ignition source, the oxidizing agent and the fuel, explosion barriers removes all of them: reduces the quantity of coal in suspension, cools the flame front and the steam generated by vaporization removes the oxygen present in the flame. Passive water barriers are autonomous protection systems against explosions that reduce to a satisfactory safety level the effects of methane and/or flammable dust explosions. The barriers are activated by the pressure wave provoked in the explosion destroying the barrier troughs and producing a uniform dispersion of the extinguishing agent throughout the gallery section in quantity enough to extinguish the explosion flame. Full scale tests have been carried out in Polish Barbara experimental mine at GIG Central Mining Institute in order to determine the requirements and the optimal installation conditions of these devices for small sections galleries which are very frequent in the Spanish coal mines. Full scale tests results have been analyzed to understand the explosion timing and development, in order to assess on the use of water barriers in the typical small crosssection Spanish galleries. Several arrangements of water barriers have been designed and tested to verify the effectiveness of the explosion suppression in each case. The results obtained demonstrate the efficiency of the water barriers in stopping the flame front even with smaller amounts of water than those established by the European standard. According to the tests realized, water barriers activation times are between 0.52 s and 0.78 s and the flame propagation speed are between 75 m/s and 80 m/s. The maximum pressures (Pmax) obtained in the full scale tests have varied between 0.2 bar and 1.8 bar. Passive barriers protect effectively against the spread of the flame but cannot be used as a safeguard of the gallery between the ignition source and the first row of water troughs or bags, or even after them, as the pressure could remain high after them even if the flame front has been extinguished.

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For many years now, sails have been used as a propulsion system. At present, they are restricted to recreational/sport crafts since the appearance of the first steam vessels in the beginning of the 19 th century. But in the last years, due to the increase of fuel price and the pollution of the environment, it is being studied the possibility to introduce again the sail as a propulsive method combined with other conventional systems. In this paper, it is studied the viability of using a sail as a propellant with other conventional systems of propulsion. After considering the concept of apparent wind, the range of use of this complementary propulsion is presented. The calculation methodology, the numerical simulations and the wind inputs from a specific route are also included.

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En la actualidad, el interés por las plantas de potencia de ciclo combinado de gas y vapor ha experimentado un notable aumento debido a su alto rendimiento, bajo coste de generación y rápida construcción. El objetivo fundamental de la tesis es profundizar en el conocimiento de esta tecnología, insuficientemente conocida hasta el momento debido al gran número de grados de libertad que existen en el diseño de este tipo de instalaciones. El estudio se realizó en varias fases. La primera consistió en analizar y estudiar las distintas tecnologías que se pueden emplear en este tipo de centrales, algunas muy recientes o en fase de investigación, como las turbinas de gas de geometría variable, las turbinas de gas refrigeradas con agua o vapor del ciclo de vapor o las calderas de paso único que trabajan con agua en condiciones supercríticas. Posteriormente se elaboraron los modelos matemáticos que permiten la simulación termodinámica de cada uno de los componentes que integran las plantas, tanto en el punto de diseño como a cargas parciales. Al mismo tiempo, se desarrolló una metodología novedosa que permite resolver el sistema de ecuaciones que resulta de la simulación de cualquier configuración posible de ciclo combinado. De esa forma se puede conocer el comportamiento de cualquier planta en cualquier punto de funcionamiento. Por último se desarrolló un modelo de atribución de costes para este tipo de centrales. Con dicho modelo, los estudios se pueden realizar no sólo desde un punto de vista termodinámico sino también termoeconómico, con lo que se pueden encontrar soluciones de compromiso entre rendimiento y coste, asignar costes de producción, determinar curvas de oferta, beneficios económicos de la planta y delimitar el rango de potencias donde la planta es rentable. El programa informático, desarrollado en paralelo con los modelos de simulación, se ha empleado para obtener resultados de forma intensiva. El estudio de los resultados permite profundizar ampliamente en el conocimiento de la tecnología y, así, desarrollar una metodología de diseño de este tipo de plantas bajo un criterio termoeconómico. ABSTRACT The growing energy demand and the need of shrinking costs have led to the design of high efficiency and quick installation power plants. The success of combined cycle gas turbine power plants lies on their high efficiency, low cost and short construction lead time. The main objective of the work is to study in detail this technology, which is not thoroughly known owing to the great number of degrees of freedom that exist in the design of this kind of power plants. The study is divided into three parts. Firstly, the different technologies and components that could be used in any configuration of a combined cycle gas turbine power plant are studied. Some of them could be of recent technology, such as the variable inlet guide vane compressors, the H-technology for gas turbine cooling or the once-through heat recovery steam generators, used with water at supercritical conditions. Secondly, a mathematical model has been developed to simulate at full and part load the components of the power plant. At the same time, a new methodology is proposed in order to solve the equation system resulting for any possible power plant configuration. Therefore, any combined cycle gas turbine could be simulated at any part load condition. Finally a themoeconomic model is proposed. This model allows studying the power plant not only from a thermodynamic point of view but also from a thermoeconomic one. Likewise, it allows determining the generating costs or the cash flow, thus achieving a trade off between efficiency and cost. Likewise, the model calculates the part load range where the power plant is profitable. Once the thermodynamic and thermoeconomic models are developed, they are intensively used in order to gain knowledge in the combined cycle gas turbine technology and, in this way, to propose a methodology aimed at the design of this kind of power plants from a thermoeconomic point of view.

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El injerto en hortalizas es uno de los temas de más actualidad en el panorama hortícola, no solo español, sino occidental, y recalcamos occidental, pues en muchos países que no corresponden a ese ámbito, sobre todo asiáticos: Japón, Corea, China, Filipinas, etc., esta es una técnica que cuenta con una gran difusión desde hace décadas, siendo, por ejemplo en Japón, la mayoría de sus cultivos de cucurbitáceas y solanáceas realizados con planta injertada. A finales de los noventa quedó claro que el empleo de bromuro de metilo tenía una fecha de caducidad y que las zonas que tenían una fuerte dependencia de este desinfectante de suelo debían de buscar alternativas a un plazo lo más corto posible, con un punto añadido sobre etapas anteriores, debían ser alternativas lo más respetuosas posible con el medio ambiente y que no incrementaran, de forma importante, los costes de producción. En la zona centro y concretamente en los invernaderos de la Comunidad de Madrid y zonas cercanas de Toledo y Guadalajara el pepino era y es el cultivo predominante, los horticultores empleaban el bromuro de metilo de forma sistemática para desinfectar sus suelos y la desaparición de este producto les planteaba una gran incertidumbre, lo que llevó a que desde diferentes instancias se buscaran diferentes alternativas. Tras analizar las posibilidades que se podían implementar y conocido el buen resultado que había dado el injerto en sandía en Almería, se decidió acometer los trabajos que conforman esta Tesis Doctoral, planteando en la zona, diferentes ensayos con la idea de conocer, si el injerto en pepino, con los cultivares empleados habitualmente, podía ser una alternativa real para los horticultores, tanto de Madrid, como los de las zonas cercanas de Toledo y Guadalajara. Se pretendía conocer sobre todo las repercusiones agronómicas y si esta técnica podría emplearse en solitario o era necesario complementarla con otras alternativas: desinfectantes químicos, solarización, biofumigación e incluso desinfección con vapor de agua. Los ensayos fueron realizados de forma secuencial entre el año 1999 y el 2011, comprobándose en primer lugar que el empleo de portainjertos híbridos de calabaza era posible con los cultivares de pepino corto tipo español, mayoritariamente empleados en los últimos años del siglo XX y primeros del XXI, fundamentalmente: Serena. Tras los primeros ensayos, Shintoza parecía el portainjerto híbrido de calabaza (Cucurbita maxima x C. moschata) con mejores perspectivas de empleo, pues presentaba la ventaja adicional de ser bien conocido por los semilleros que producen planta injertada al ser, en esos momentos, el portainjerto más empleado en sandía, lo que garantizaba por su lado, su empleo en pepino, y que los horticultores pudiesen disponer de planta injertada. Más adelante los trabajos se encaminaron hacia la determinación de la densidad y tipo de poda más adecuado para la planta injertada, realizándose múltiples ensayos en esta dirección, que culminaron con la conclusión de que el extravigor que los portainjertos conferían a las plantas permitía conducir estas a dos o más brazos (se suelen emplear dos, por mejor adaptación a los trabajos de manejo de la planta por parte de los agricultores), con lo que se podría disminuir la densidad de planta y por tanto ahorrar en este capítulo, cosa que preocupaba y preocupa a los agricultores. Se llegó a determinar que es posible reducir la densidad de plantación en alrededor de un 25%, estando la densidad de brazos más adecuada entre 3 y 3.5 br•m-2. Tras las primeras decisiones tomadas sobre el portainjerto y la densidad más adecuada, se continuó con el estudio de adaptación de estas propuestas a los nuevos cultivares que las empresas de semillas iban proponiendo y los agricultores adoptando. Estas acciones se complementaron con la introducción de nuevos portainjertos susceptibles de sustituir a Shintoza o rotar con él para cambiar de sistema radicular, lo que es conveniente cuando se emplean, como es el caso, portainjertos que no son resistentes a nematodos, principalmente de la especie Meloidogyne incognita, el mayor problema en la zona, debido al suelo. Cultivares como Trópico, en un primer momento, y Urano y Motril más recientemente, se adaptaron muy bien a esta técnica. Entre los portainjertos que mostraron buena adaptación a la técnica de injerto y suficientemente buena compatibilidad con la mayoría de los cultivares ensayados destacan: RS-841, Strongtosa y Camel. Azman también mostró un comportamiento relevante, pero este portainjerto no podrá ser empleado, al ser recientemente retirado del mercado por la empresa que lo obtuvo y comercializó Aunque no era el objetivo principal de esta Tesis Doctoral, se ha comprobado que puede ser interesante combinar el empleo del injerto con otras técnicas alternativas al bromuro de metilo para superar los problemas debidos a enfermedades del suelo o nematodos, pero debe seguirse trabajando pues este es un tema en continua evolución, tanto si se trata de desinfectantes, a la mayoría de los cuales les está siendo retirado el permiso para su comercialización, como de otros métodos como la biofumigación o el empleo de vapor de agua. Queda muy claro que el injerto puede considerarse entre los métodos respetuosos con el medio ambiente, si no el que más, en lo que alternativas al bromuro de metilo se refiere. También en otro momento, se comprobó que con plantas injertadas es posible reducir el aporte de nutrientes, sobre todo nitrógeno, lo que además de un ahorro supone una mejora más desde el punto de vista medioambiental. En definitiva, queda demostrado que es factible el empleo del injerto en pepino corto tipo español, que las selecciones de los híbridos entre Cucurbita maxima y C. moschata que habitualmente se están empleando en sandía son también de aplicación en estos pepinos y que su empleo puede llevarnos a producciones suficientemente remuneradoras, alargándose en muchos casos el ciclo y no modificando, de forma apreciable, la calidad. Queda también demostrado que aunque los portainjertos no sean resistentes a nematodos, su extravigor les hace desarrollarse, desde el punto de vista productivo, suficientemente, llegando por tanto, a “convivir” con ese problema. Al no ser resistentes los portainjertos, y permanecer e incluso agravarse el problema de nematodos es conveniente poder contar con diferentes portainjertos que nos permitan rotar entre ellos y utilizar diferentes sistemas radiculares que harán menos fácil el parasitismo de los nematodos, como recomiendan los nematólogos que se haga. ABSTRACT Vegetable grafting is one of the most current practices in horticulture, not only in Spain, but also in other Western and Asian countries, such as Japan, South Korea, China, the Philippines, etc. This is a decades-old, widespread technique: In fact, most cucurbit and solanaceous crops in Japan and Korea are grafted. At the end of the 1990s, it was clear that methyl bromide had an expiry date. Consequently, the areas strongly dependant on this soil disinfectant had to look for alternatives as quickly as possible. Besides, these had to be as environmentally friendly as possible and should not increase production costs significantly. The cucumber has been and still is the most important crop in greenhouses of the Comunidad de Madrid and in areas near Toledo and Guadalajara. Cucumber growers used methyl bromide systematically to disinfect the soil. The banning of this chemical product brought about uncertainty, which encouraged the search for different alternatives. After analyzing the different possibilities and taking into account the good results of watermelon grafting in Almería, it was decided to carry out the works that make up this doctoral thesis. Different trials were made in order to know if the cultivars used in cucumber grafting might be a real alternative for farmers, not only in Madrid, but also in the areas near Toledo and Guadalajara. The main aim was to assess the agronomic repercussions and whether that technique could be used alone, or if other complementary alternatives, such as chemical disinfectants, solarisation, biofumigation, or even steam disinfection, were necessary. Trials were carried out sequentially from 1999 to 2011. It was observed that the use of pumpkin hybrid rootstocks could be applied to cultivars of Spanish short cucumbers, mainly grown in the late 20th and early 21st centuries eg Serena. After the early trials, Shintoza (Cucurbita maxima x C. moschata), a pumpkin hybrid rootstock, seemed to be the best option, as it had the additional advantage of being well known by nurseries growing grafting plants. Bearing this in mind, Shintoza was then the hybrid rootstock to be used in cucumbers and consequently growers could have grafted plants at their disposal. Later on, research was focused on density and the most adequate type of pruning, by carrying out several trials. These experiments showed that, the extra vigour the rootstocks gave to the plants, allowed them to have two or three stems, (normally nurserymen use two, as it is easier for them to manage the plants). These findings would lead to the lessening the density of the plant and thus reduce costs, something which worried and still worries farmers. It was stated that it would be possible to reduce the density of the plants by about 25%, the optimum density of the stems ranging from 3 to 3.5 stem-m-2. Once decisions were taken both on the rootstock and the appropriate density, we went on to study how to apply these proposals to the new cultivars which the seed companies were proposing and the farmers were applying. These measures were complemented with the introduction of new rootstocks capable of replacing Shintoza, or rotating with it in order to change the root system. This is particularly necessary when rootstocks, non-resistant to nematodes, mainly of the species Meloidogyne incognita, are used. This is the main problem due to the soil of that area. Cultivars such as Trópico, at first, and Urano and Motril, more recently, adapted quite well to this technique. Among the rootstocks which adapted well to grafting and which were compatible with most tested cultivars, were, in particular, RS-841 Strongtosa and Camel. The behaviour of Azman was worth studying, but this rootstock was removed from the market by the company which had bought and commercialized it. Although not the main purpose of the research, it was observed that combining grafting with other alternatives to methyl bromide in order to overcome problems due to soil diseases or nematodes may be worthwhile. However, further research is needed, as this topic is in constant evolution, not only when we come to disinfectants, most of which are being affected by the removal of the permit for commercialization, but also when we refer to other techniques such as biofumigation or the use of steam. Results also showed that grafted plants may reduce the amount of fertilizers, particularly nitrogen, used: This means both saving money and the protection of the environment. We may conclude by saying that grafting Spanish short cucumbers is feasible, that the selections of the hybrids between Cucurbita maxima and C. moschata, habitually used in watermelon grafting, can also be applied to these cucumbers. It can also be concluded that the use of these grafting techniques may lead to profitable yields, by lengthening the growing cycle in many cases and by maintaining the quality to a large extent. Although these rootstocks are not resistant to nematodes, the results showed that their extra vigour enables them to develop in terms of production, and thus they cope with this problem. Since these rootstocks are not resistant to nematodes and the problem with these nematodes may even worsen, it is recommended that different types of rootstocks should be available to enable both the rotation and the use of different root systems, which will encourage the parasitism of nematodes.

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El accidente de rotura de tubos de un generador de vapor (Steam Generator Tube Rupture, SGTR) en los reactores de agua a presión es uno de los transitorios más exigentes desde el punto de vista de operación. Los transitorios de SGTR son especiales, ya que podría dar lugar a emisiones radiológicas al exterior sin necesidad de daño en el núcleo previo o sin que falle la contención, ya que los SG pueden constituir una vía directa desde el reactor al medio ambiente en este transitorio. En los análisis de seguridad, el SGTR se analiza desde un punto determinista y probabilista, con distintos enfoques con respecto a las acciones del operador y las consecuencias analizadas. Cuando comenzaron los Análisis Deterministas de Seguridad (DSA), la forma de analizar el SGTR fue sin dar crédito a la acción del operador durante los primeros 30 min del transitorio, lo que suponía que el grupo de operación era capaz de detener la fuga por el tubo roto dentro de ese tiempo. Sin embargo, los diferentes casos reales de accidentes de SGTR sucedidos en los EE.UU. y alrededor del mundo demostraron que los operadores pueden emplear más de 30 minutos para detener la fuga en la vida real. Algunas metodologías fueron desarrolladas en los EEUU y en Europa para abordar esa cuestión. En el Análisis Probabilista de Seguridad (PSA), las acciones del operador se tienen en cuenta para diseñar los cabeceros en el árbol de sucesos. Los tiempos disponibles se utilizan para establecer los criterios de éxito para dichos cabeceros. Sin embargo, en una secuencia dinámica como el SGTR, las acciones de un operador son muy dependientes del tiempo disponible por las acciones humanas anteriores. Además, algunas de las secuencias de SGTR puede conducir a la liberación de actividad radiológica al exterior sin daño previo en el núcleo y que no se tienen en cuenta en el APS, ya que desde el punto de vista de la integridad de núcleo son de éxito. Para ello, para analizar todos estos factores, la forma adecuada de analizar este tipo de secuencias pueden ser a través de una metodología que contemple Árboles de Sucesos Dinámicos (Dynamic Event Trees, DET). En esta Tesis Doctoral se compara el impacto en la evolución temporal y la dosis al exterior de la hipótesis más relevantes encontradas en los Análisis Deterministas a nivel mundial. La comparación se realiza con un modelo PWR Westinghouse de tres lazos (CN Almaraz) con el código termohidráulico TRACE, con hipótesis de estimación óptima, pero con hipótesis deterministas como criterio de fallo único o pérdida de energía eléctrica exterior. Las dosis al exterior se calculan con RADTRAD, ya que es uno de los códigos utilizados normalmente para los cálculos de dosis del SGTR. El comportamiento del reactor y las dosis al exterior son muy diversas, según las diferentes hipótesis en cada metodología. Por otra parte, los resultados están bastante lejos de los límites de regulación, pese a los conservadurismos introducidos. En el siguiente paso de la Tesis Doctoral, se ha realizado un análisis de seguridad integrado del SGTR según la metodología ISA, desarrollada por el Consejo de Seguridad Nuclear español (CSN). Para ello, se ha realizado un análisis termo-hidráulico con un modelo de PWR Westinghouse de 3 lazos con el código MAAP. La metodología ISA permite la obtención del árbol de eventos dinámico del SGTR, teniendo en cuenta las incertidumbres en los tiempos de actuación del operador. Las simulaciones se realizaron con SCAIS (sistema de simulación de códigos para la evaluación de la seguridad integrada), que incluye un acoplamiento dinámico con MAAP. Las dosis al exterior se calcularon también con RADTRAD. En los resultados, se han tenido en cuenta, por primera vez en la literatura, las consecuencias de las secuencias en términos no sólo de daños en el núcleo sino de dosis al exterior. Esta tesis doctoral demuestra la necesidad de analizar todas las consecuencias que contribuyen al riesgo en un accidente como el SGTR. Para ello se ha hecho uso de una metodología integrada como ISA-CSN. Con este enfoque, la visión del DSA del SGTR (consecuencias radiológicas) se une con la visión del PSA del SGTR (consecuencias de daño al núcleo) para evaluar el riesgo total del accidente. Abstract Steam Generator Tube Rupture accidents in Pressurized Water Reactors are known to be one of the most demanding transients for the operating crew. SGTR are special transient as they could lead to radiological releases without core damage or containment failure, as they can constitute a direct path to the environment. The SGTR is analyzed from a Deterministic and Probabilistic point of view in the Safety Analysis, although the assumptions of the different approaches regarding the operator actions are quite different. In the beginning of Deterministic Safety Analysis, the way of analyzing the SGTR was not crediting the operator action for the first 30 min of the transient, assuming that the operating crew was able to stop the primary to secondary leakage within that time. However, the different real SGTR accident cases happened in the USA and over the world demonstrated that operators can took more than 30 min to stop the leakage in actual sequences. Some methodologies were raised in the USA and in Europe to cover that issue. In the Probabilistic Safety Analysis, the operator actions are taken into account to set the headers in the event tree. The available times are used to establish the success criteria for the headers. However, in such a dynamic sequence as SGTR, the operator actions are very dependent on the time available left by the other human actions. Moreover, some of the SGTR sequences can lead to offsite doses without previous core damage and they are not taken into account in PSA as from the point of view of core integrity are successful. Therefore, to analyze all this factors, the appropriate way of analyzing that kind of sequences could be through a Dynamic Event Tree methodology. This Thesis compares the impact on transient evolution and the offsite dose of the most relevant hypothesis of the different SGTR analysis included in the Deterministic Safety Analysis. The comparison is done with a PWR Westinghouse three loop model in TRACE code (Almaraz NPP), with best estimate assumptions but including deterministic hypothesis such as single failure criteria or loss of offsite power. The offsite doses are calculated with RADTRAD code, as it is one of the codes normally used for SGTR offsite dose calculations. The behaviour of the reactor and the offsite doses are quite diverse depending on the different assumptions made in each methodology. On the other hand, although the high conservatism, such as the single failure criteria, the results are quite far from the regulatory limits. In the next stage of the Thesis, the Integrated Safety Assessment (ISA) methodology, developed by the Spanish Nuclear Safety Council (CSN), has been applied to a thermohydraulical analysis of a Westinghouse 3-loop PWR plant with the MAAP code. The ISA methodology allows obtaining the SGTR Dynamic Event Tree taking into account the uncertainties on the operator actuation times. Simulations are performed with SCAIS (Simulation Code system for Integrated Safety Assessment), which includes a dynamic coupling with MAAP thermal hydraulic code. The offsite doses are calculated also with RADTRAD. The results shows the consequences of the sequences in terms not only of core damage but of offsite doses. This Thesis shows the need of analyzing all the consequences in an accident such as SGTR. For that, an it has been used an integral methodology like ISA-CSN. With this approach, the DSA vision of the SGTR (radiological consequences) is joined with the PSA vision of the SGTR (core damage consequences) to measure the total risk of the accident.

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En los últimos quince años se ha producido una liberalización de los mercados eléctricos en los distintos países de ámbito occidental que ha ido acompañado de un incremento por la preocupación por la incidencia de las distintas tecnologías de generación en el entorno medioambiental. Ello se ha traducido en la aparición de un marco regulatorio más restrictivo sobre las tecnologías de generación fósiles, con mayor incidencia en las derivadas de productos petrolíferos y carbón. A nivel mundial han ido apareciendo cambios normativos relativos a las emisiones de distintos elementos contaminantes (CO2, SO2, NOx…), que hacen que en particular las centrales térmicas de carbón vean muy afectadas su rentabilidad y funcionamiento. Esta situación ha supuesto que la tecnología de generación eléctrica con carbón haya avanzado considerablemente en los últimos años (calderas supercríticas, sistemas de desulfuración, gasificación del carbón…). No obstante, el desarrollo de la generación con energías renovables, la generación con gas mediante centrales de ciclo combinado y la opinión social relativa a la generación con carbón, principalmente en Europa, suponen un serio obstáculo a la generación con carbón. Por consiguiente, se hace necesario buscar vías para optimizar la competitividad de las centrales de carbón y el camino más razonable es mejorar el margen esperado de estas plantas y en particular el coste de adquisición del carbón. Ello se hace aún más importante por el hecho de existir numerosas centrales de carbón y un elevado número de nuevos proyectos constructivos de centrales de carbón en países asiáticos. Por consiguiente, el objeto de la presente tesis doctoral se centra en definir una metodología para optimizar la compra de carbón, desde el punto de vista económico y técnico, con destino a su consumo en una central térmica, con ello reducir el coste del carbón consumido y mejorar su competitividad. También se enfoca a determinar que herramientas pueden ser utilizadas para optimizar la gestión del carbón después de su compra y con ello abrir la posibilidad de obtener márgenes adicionales para dicho carbón. De acuerdo con este objetivo, el autor de la presente Tesis Doctoral realiza tres aportaciones novedosas en el ámbito de la contratación de carbón térmico y su optimización posterior: - Evaluación de carbones para su adquisición considerando el efecto de la calidad del carbón en el coste de generación asociado a cada carbón ofertado. - Creación, desarrollo, implantación y utilización de una potente herramienta de planificación de Combustibles. Esta herramienta, está diseñada con el objeto de determinar la solución económica óptima de aprovisionamientos, consumos y niveles de existencias para un parque de generación con centrales de carbón y fuelóleo. - La extensión de una metodología contractual habitual en el mercado spot de Gas Natural Licuado, a la contratación spot de Carbón de Importación. Esta se basa en el desarrollo de Acuerdos Marcos de Compra/Venta de carbón, que por su flexibilidad permitan obtener resultados económicos adicionales después de la compra de un carbón. Abstract In the last fifteen years, a liberalization of the electrical markets has occurred in the western countries. This process has been accompanied by an increasing concern of the impact of the different generation technologies towards the environment. This has motivated a regulated framework restricting the use of fossil fuels, impacting a great deal in coal and oil based products. Worldwide, new legal changes have been arising related to the emissions of the different pollutants (CO2, SO2, NOx…). These changes have had a deep impact in the feasibility, profit and running of coal fired power plants. This situation has motivated the coal electrical generation technologies to move forward in an important way in the last few years (supercritical furnaces, desulphuration plants, coal gasification…). Nevertheless, the development of the renewable generation, the gas combined cycle generation and the social opinion related to the coal electrical generation, mainly in Europe, have created a serious obstacle to the generation of electricity by coal. Therefore it is necessary to look for new paths in order to optimize the competitiveness of the coal fired power plants and the most reasonable way is to improve the expected margin of these plants and particularly the coal purchase cost. All of the above needs to be taken into context with the large number of existing coal fired power plants and an important number of new projects in Asian countries. Therefore, the goal of the current doctoral dissertation is focused to define a methodology to be considered in order to optimize the coal purchase, from an economical and a technical point of view. This coal, destined for power plant consumption, permits the reduction of consumption coal cost and improves the plant’s competitiveness. This document is also focused to define what tools we can use to optimize the coal management after deal closing and therefore open the possibility to get further margins. According to this goal, the author of this doctoral dissertation provides three important new ideas in the ambit of contracting steam coal and the posterior optimization: - Evaluation of coal purchases, considering the effect of coal quality on the cost of generation associated with each type of coal offered. - The creation, development, deployment and use of a strong planning tool of fuels. This tool is designed for the purpose of determining the optimal economic solution of fuel supply, consumption and stock levels for a power generation portfolio using coal and fuel oil fired power plants. - The application of a common contractual methodology in the spot market of Liquid Natural Gas, for the contracting spot imported coal. This is based on the development of Framework Agreements for the Purchasing / Sale of coal, which because of its flexibility allows for the gain of additional financial results after the purchase of coal.

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El objetivo del presente proyecto consiste en la modelización y optimización de una planta de gasificación integrada en ciclo combinado de 400 MW de potencia neta, mediante el uso del programa Cycle-Tempo, desarrollado por la Universidad de Delft. Para la modelización de la planta, se ha dividido en sus dos unidades principales: la isla de gasificación y el ciclo combinado. Para la validación del modelo de la isla de gasificación, se ha utilizado una composición de referencia de un combustible gasificable y se ha obtenido la composición del gas de síntesis esperada. Se han modelado y optimizado varias configuraciones de ciclo combinado, variando los parámetros característicos de la caldera de recuperación de calor. Se ha realizado la integración de las dos unidades para maximizar la potencia entregada por la planta. Finalmente, se ha estimado el balance anual de energía del ciclo combinado alimentado con gas natural y con el gas de síntesis, con el fin de comparar las rentabilidades económicas obtenidas. Mediante el estudio realizado, se deduce que la forma más eficiente de producir energía, a partir del uso del carbón, es la tecnología de gasificación integrada en ciclo combinado, pese a que su rendimiento sea inferior al ciclo combinado alimentado con gas natural. ABSTRACT The aim of this project is the modeling and optimization of an integrated gasification combined cycle plant of 400 MW net power, using the Cycle-Tempo program, developed by the University of Delft. For the modeling of the plant, it has been divided into its two main units: the island of gasification and the combined cycle. For the model validation of the gasification island, a reference composition of a gasifiable fuel has been used and the expected synthesis gas composition was obtained. Several configurations of combined cycle have been modeled and optimized by varying the characteristic parameters of the heat recovery steam generator. It has made the integration of the two units to reach maximum optimization of power, which has been delivered by the plant. Finally, it has been estimated the annual energy balance for the combined cycle plant fueled with natural gas and with syngas, in order to compare the profitability obtained with each one. Through the study, it is deduced that the most efficient way to produce energy from the use of coal, is the integrated gasification combined cycle technology, although their performance is lower than that obtained from the combined cycle fueled with natural gas.

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Underground coal mines explosions generally arise from the inflammation of a methane/air mixture. This explosion can also generate a subsequent coal dust explosion. Traditionally such explosions have being fought eliminating one or several of the factors needed by the explosion to take place. Although several preventive measures are taken to prevent explosions, other measures should be considered to reduce the effects or even to extinguish the flame front. Unlike other protection methods that remove one or two of the explosion triangle elements, namely; the ignition source, the oxidizing agent and the fuel, explosion barriers removes all of them: reduces the quantity of coal in suspension, cools the flame front and the steam generated by vaporization removes the oxygen present in the flame. The present paper is essentially based on the comprehensive state-of–the-art of Protective Systems in underground coal mines, and particularly on the application of Explosion Barriers to improve safety level in Spanish coal mining industry. After an exhaustive study of series EN 14591 standards covering explosion prevention and protection in underground mines, authors have proven explosion barriers effectiveness in underground galleries by Full Scale Tests performed in Polish Barbara experimental mine, showing that the barriers can reduce the effects of methane and/or flammable coal dust explosions to a satisfactory safety level.

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A Steam Generator Tube Rupture (SGTR) in a Pressurized Water Reactor (PWR) can lead to an atmospheric release bypassing the containment via the secondary system and exiting though the Pressurized Operating Relief Valves of the affected Steam Generator. That is why SGTR historically have been treated in a special way in the different Deterministic Safety Analysis (DSA), focusing on the radioactive release more than the possibility of core damage, as it is done in the other Loss of Coolant Accidents(LOCAs).