15 resultados para Childcare facilities

em Universidad Politécnica de Madrid


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The European HiPER project aims to demonstrate commercial viability of inertial fusion energy within the following two decades. This goal requires an extensive Research &Development program on materials for different applications (e.g., first wall, structural components and final optics). In this paper we will discuss our activities in the framework of HiPER to develop materials studies for the different areas of interest. The chamber first wall will have to withstand explosions of at least 100 MJ at a repetition rate of 5-10 Hz. If direct drive targets are used, a dry wall chamber operated in vacuum is preferable. In this situation the major threat for the wall stems from ions. For reasonably low chamber radius (5-10 m) new materials based on W and C are being investigated, e.g., engineered surfaces and nanostructured materials. Structural materials will be subject to high fluxes of neutrons leading to deleterious effects, such as, swelling. Low activation advanced steels as well as new nanostructured materials are being investigated. The final optics lenses will not survive the extreme ion irradiation pulses originated in the explosions. Therefore, mitigation strategies are being investigated. In addition, efforts are being carried out in understanding optimized conditions to minimize the loss of optical properties by neutron and gamma irradiation

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CATR facilities are attractive antenna measurement facilities. Main reasons which contribute to this fact lie on its inherent reduced volume, on-the-fly measurements and the extension of both to a wide range of frequencies. However, these features rely on the assumption that the field collimation scheme is able to generate a plane wave distribution (quiet zone) where the AUT is to be placed and operated in RX mode. Unfortunately, electromagnetic theory states that this field distribution is not possible to be generated by a finite size scatterer operated as the collimator of a nonzero wavelength time-harmonic propagating field. This is the background of this paper, where two well-known electromagnetic field collimators will be discussed: the serrated edge reflector and the blended rolled edge reflector. To reach this purpose, electromagnetic hybrid analysis techniques developed at Technical University of Madrid will be applied.

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En este trabajo se han cubierto diferentes asuntos del diseño neutrónico de los aspectos radiológicos de las dos instalaciones del proyecto HiPER. El proyecto HiPER es un proyecto europeo concebido en el marco del programa ESFRI (European Scientific Facilities Research Infrastructure). Está destinado al desarrollo de la energía de fusión nuclear inercial mediante el uso de láseres y el esquema iluminación directa. Consecuentemente, se trata de una instalación con fines exclusivamente civiles. Se divide en dos fases, correspondientes con dos instalaciones: HiPER Engineering y HiPER Reactor. La instalación HiPER Engineering desarrollará las tecnologías implicadas en la ignición de alta repetición de cápsulas de DT por iluminación directa. El HiPER Reactor será una planta demostradora que produzca electricidad haciendo uso de las tecnologías desarrolladas durante la fase HiPER Engineering. El HiPER Engineering se centrará en las tecnologías relevantes para las igniciones a alta repetición de cápsulas de DT usando la iluminación directa. El principal esfuerzo de desarrollo tecnológico se hará en todos los asuntos directamente relacionados con la ignición: láseres, óptica, inyector, y fabricación masiva de cápsulas entre otros. Se espera una producción de entre 5200 MJ/año y 120000 MJ/año dependiendo del éxito de la instalación. Comparado con la energía esperada en NIF, 1200 MJ/año, se trata de un reto y un paso más allá en la protección radiológica. En este trabajo se ha concebido una instalación preliminar. Se ha evaluado desde el punto de vista de la protección radiológica, siendo las personas y la óptica el objeto de protección de este estudio. Se ha establecido una zonificación durante la operación y durante el mantenimiento de la instalación. Además, se ha llevado a cabo una evaluación de la selección de materiales para la cámara de reacción desde el punto de vista de gestión de residuos radiactivos. El acero T91 se ha seleccionado por, siendo un acero comercial, presentar el mismo comportamiento que el acero de baja activación EUROFER97 al evaluarse como residuo con el nivel de irradiación de HiPER Engineering. Teniendo en cuenta los resultados obtenidos para la instalación preliminar y las modificaciones de la instalación motivadas en otros campos, se ha propuesto una instalación avanzada también en este trabajo. Un análisis más profundo de los aspectos radiológicos, así como una evaluación completa de la gestión de todos los residuos radiactivos generados en la instalación se ha llevado a cabo. La protección radiológica se ha incrementado respecto de la instalación preliminar, y todos los residuos pueden gestionarse en un plazo de 30 sin recurrir al enterramiento de residuos. El HiPER Reactor sera una planta demostradora que produzca electricidad basada en las tecnologías de ignición desarrolladas durante la fase HiPER Engineering. El esfuerzo de desarrollo tecnológico se llevará a cabo en los sistemas relacionados con la generación de electricidad en condiciones económicas: manto reproductor de tritio, ciclos de potencia, vida y mantenimiento de componentes, o sistemas de recuperación de tritio entre otros. En este trabajo la principal contribución a HiPER Reactor está relacionada con el diseño de la cámara de reacción y sus extensiones en la planta. La cámara de reacción es la isla nuclear más importante de la planta, donde la mayoría de las reacciones nucleares tienen lugar. Alberga la primera pared, el manto reproductor de tritio y la vasija de vacío. Todo el trabajo realizado aquí ha pivotado en torno al manto reproductor de tritio y sus interacciones con el resto de componentes de la planta. Tras una revisión profunda de la bibliografía de los diseños recientes de cámaras de reacción con características similares a HiPER Reactor, se ha propuesto y justificado un esquema tecnológico innovador para el manto reproductor de tritio. El material fértil selecconado es el eutéctico 15.7 at.% Litio – 84.3 at.% Plomo, LiPb, evitando el uso de berilio como multiplicador neutrónico mientras se garantiza el ajuste online de la tasa de reproducción de tritio mediante el ajuste en el enriquecimiento en 6Li. Aunque se podría haber elegido Litio purom el LiPb evita problemas relacionados con la reactividad química. El precio a pagar es un reto materializado como inventario radiactivo de Z alto en el lazo de LiPb que debe controlarse. El material estructural seleccionado es el acero de baja activación EUROFER97, que estará en contacto directo con le LiPb fluyendo a alta velocidad. En este esquema tecnológico, el LiPb asegurará la autosuficiente de tritio de la planta mientras el propio LiPb extrae del manto el calor sobre él depositado por los neutrones. Este esquema recibe el nombre de manto de Litio-Plomo auto-refrigerado (SCLL por sus siglas en inglés). Respecto de los conceptos SCLL previos, es destacable que nos e requieren componentes del SiC, puesto que no hay campos magnéticos en la cámara de reacción. Consecuentemente, el manto SCLL propuesto para HiPER presenta riesgo tecnológicos moderados, similares a otros dispositivos de fusión magnética, como el HCLL, e incluso inferiores a los del DCLL, puesto que no se require SiC. Los retos que se deben afrontar son el control del inventario de Z alto así como las tasas de corrosión derivadas de la interacción del LiPb con el EUROFE97. En este trabajo se abordan ambos aspectos, y se presentan los respectivos análisis, junto con otros aspectos neutrónicos y de activación, tales como la protección de la vasija de vacío por parte del material fértil para garantizar la resoldabilidad de por vida en la cara externa de la vasija. También se propone y se estudio un ciclo de potencia de Brayton de Helio para dos configuraciones diferentes de refrigeración del sistema primera pared-manto reproductor. Las principales conclusiones de estos estudios son: i) el inventario de Z alto puede controlarse y es comparable al que se encuentra en dispositivos de fusión similares, ii)la vasija de vacío requiere una mayor protección frente a la radiación neutrónica y iii) las tasas de corrosión son demasiado altas y la temperatura media de salida del LiPb es demasiado baja. Tiendo en cuenta estos resultados juntos con otras consideraciones relacionadas con el mantenimiento de componentes y la viabilidad constructiva, se ha propuesto una evolución de la cámara de reacción. Las evoluciones más destacables son la introducción de un reflector neutrónico de grafito, la modificación de la configuración de la óptica final, la forma y el tamaño de la cámara de vacío y una nueva subdivisión modular del manto. Se ha evaluado desde el punto de vista neutrónico, y su análisis y posterior evolución queda fuera del objeto de este trabajo. Los códigos utilizados en este trabajo son: CATIA para la generación de geometrías 3D complejas MCAM para la traducción de archivos de CATIA a formato de input de MCNP MCNP para el transporte de la radiación (neutrones y gammas) y sus respuestas asociadas ACAB para la evolución del inventario isotópico y sus respuestas asociadas MC2ACAB para acoplar MCNP y ACAB para el cómputo de dosis en parada usando la metodología R2S basada en celda. Moritz para visualizar los reultados de MCNP FLUENT para llevar a cabo cálculos de fluido-dinámica Para llevar a cabo este trabajo, han sido necesarias unas destrezas computacionales. Las más relevantes utilizadas son: generación de geometrás 3D complejas y transmisión a MCNP, diferentes tñecnica de reducción de varianza como importancia por celdas y weight windows basado en malla, metodología Rigorous-two-Steps basada en celdas para el cálculo de dosis en parada y la modificación del código ACAB para el cálculos con múltiples espectros en la misma simulación. Como resumen, la contribución de este trabajo al proyecto HiPER son dos diseños conceptuales de instalación: una para HiPER Engineering y otra para HiPER Reactor. La primera se ha estudio en profundidad desde el punto de vista de protección radiológica y gestión de residuos, mientras que la segunda se ha estudiado desde el punto de vista de operación: seguridad, comportamiento, vida y mantenimiento de componentes y eficiencia del ciclo de potencia.

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There are many industries that use highly technological solutions to improve quality in all of their products. The steel industry is one example. Several automatic surface-inspection systems are used in the steel industry to identify various types of defects and to help operators decide whether to accept, reroute, or downgrade the material, subject to the assessment process. This paper focuses on promoting a strategy that considers all defects in an integrated fashion. It does this by managing the uncertainty about the exact position of a defect due to different process conditions by means of Gaussian additive influence functions. The relevance of the approach is in making possible consistency and reliability between surface inspection systems. The results obtained are an increase in confidence in the automatic inspection system and an ability to introduce improved prediction and advanced routing models. The prediction is provided to technical operators to help them in their decision-making process. It shows the increase in improvement gained by reducing the 40 % of coils that are downgraded at the hot strip mill because of specific defects. In addition, this technology facilitates an increase of 50 % in the accuracy of the estimate of defect survival after the cleaning facility in comparison to the former approach. The proposed technology is implemented by means of software-based, multi-agent solutions. It makes possible the independent treatment of information, presentation, quality analysis, and other relevant functions.

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The present Master/Doctorate in Nuclear Science and Technology programme implemented in the Department of Nuclear Engineering of the Universidad Politécnica de Madrid (NED-UPM) has the excellence qualification by the Spanish Ministry of Education. One of the main of this programme is the training for the development of methodologies of simulation, design and advanced analysis, including experimental tools, necessary in research and in professional work in the nuclear field.

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One of the key scrutiny issues of new coming energy era would be the environmental impact of fusion facilities managing one kg of tritium. The potential change of committed dose regulatory limits together with the implementation of nuclear design principles (As Low as Reasonably achievable - ALARA -, Defense in Depth -D-i-D-) for fusion facilities could strongly impact on the cost of deployment of coming fusion technology. Accurate modeling of environmental tritium transport forms (HT, HTO) for the assessment of fusion facility dosimetric impact in Accidental case appears as of major interest. This paper considers different short-term releases of tritium forms (HT and HTO) to the atmosphere from a potential fusion reactor located in the Mediterranean Basin. This work models in detail the dispersion of tritium forms and dosimetric impact of selected environmental patterns both inland and in-sea using real topography and forecast meteorological data-fields (ECMWF/FLEXPART). We explore specific values of this ratio in different levels and we examine the influence of meteorological conditions in the HTO behavior for 24 hours. For this purpose we have used a tool which consists on a coupled Lagrangian ECMWF/FLEXPART model useful to follow real time releases of tritium at 10, 30 and 60 meters together with hourly observations of wind (and in some cases precipitations) to provide a short-range approximation of tritium cloud behavior. We have assessed inhalation doses. And also HTO/HT ratios in a representative set of cases during winter 2010 and spring 2011 for the 3 air levels.

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Final lenses in laser fusion plants. Challenges for the protection of the final lenses. Plasmonic nanoparticles. Radiation resistance

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The performance of a CATR relies on the planarity of the synthesized test wave, which is generated within a bounded volume for which specifications are drawn. Millimetre-wave facilities deal with the classical limitations of this frequency band, among which two become critical in our analysis: time-extensive acquisition campaigns and impact of environmental variables. Both features become more evident when increasing the frequency of operation. The variation in atmospheric variables, such as humidity, temperature and pressure has an influence over the performance of all the elements of the facility. The instrumentation behavior is influenced both by the warming up process, and the ambience conditions that surround the equipment. On the changes of the atmosphere itself, they affect the electromagnetic wave propagation, given the physical link between the conditions of the atmosphere and its electric properties as an electromagnetic waves propagation medium

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Silica final lens performance in laser fusion facilities: HiPER and LIFE

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Resulta difícil definir una profesión que surge por la necesidad de adaptar los espacios de trabajo a las nuevas tendencias de las organizaciones, a la productividad, a las nuevas tecnologías que continúan modificando y facilitando desde las últimas décadas el modo y forma de trabajar. Mucho más complicado resulta definir una profesión casi invisible. Cuando todo funciona en un edificio, en un inmueble, en un activo. Todo está correcto. He ahí la dificultad de su definición. Lo que no se ve, no se valora. Las reuniones, las visitas, un puesto de trabajo, una sala de trabajo, una zona de descanso. La climatización, la protección contra incendios, la legionela, el suministro eléctrico, una evacuación. La organización, sus necesidades, su filosofía. Los informes, los análisis, las mejoras. Las personas, el espacio, los procesos, la tecnología. En la actualidad, todo se asocia a su coste. A su rentabilidad. En la difícil tarea de realizar el proyecto de un edificio, participan multitud de aspectos que deben estar perfectamente organizados. El arquitecto proyecta y aúna en el proyecto: pasado (experiencia), presente (tendencias) y futuro (perdurabilidad). Y es en ese momento, cuando al considerar el futuro del edificio, su perdurabilidad, hace que su ciclo de vida sea criterio fundamental al proyectar. Que deba considerarse desde el primer esbozo del proyecto. Para que un edificio perdure en el tiempo existen gran número de factores condicionantes. Empezando por su uso apropiado, su nivel de actividad, pasando por las distintas propiedades que pueda tener, y terminando por los responsables de su mantenimiento en su día a día. Esa profesión invisible, es la disciplina conocida como Facility Management. Otra disciplina no tan novedosa –sus inicios fueron a finales del siglo XIX-, y que en la actualidad se empieza a valorar en gran medida es la Responsabilidad Social. Todo lo que de forma voluntaria, una organización realiza por encima de lo estrictamente legal con objeto de contribuir al desarrollo sostenible (económico, social y medio ambiental). Ambas disciplinas destacan por su continuo dinamismo. Reflejando la evolución de distintas inquietudes: • Personas, procesos, espacios, tecnología • Económica, social, medio-ambiental Y que sólo puede gestionarse con una correcta gestión del cambio. Elemento bisagra entre ambas disciplinas. El presente trabajo de investigación se ha basado en el estudio del grado de sensibilización que existe para con la Responsabilidad Social dentro del sector de la Facility Management en España. Para ello, se han estructurado varios ejercicios con objeto de analizar: la comunicación, el marco actual normativo, la opinión del profesional, del facilities manager. Como objetivo, conocer la implicación actual que la Responsabilidad Social ejerce en el ejercicio de la profesión del Facilities Manager. Se hace especial hincapié en la voluntariedad de ambas disciplinas. De ahí que el presente estudio de investigación realice dicho trabajo sobre elementos voluntarios y por tanto sobre el valor añadido que se obtiene al gestionar dichas disciplinas de forma conjunta y voluntaria. Para que una organización pueda desarrollar su actividad principal –su negocio-, el Facilities Manager gestiona el segundo coste que esta organización tiene. Llegando a poder ser el primero si se incluye el coste asociado al personal (nóminas, beneficios, etc.) Entre el (70 – 80)% del coste de un edificio a lo largo de toda su vida útil, se encuentra en su periodo de explotación. En la perdurabilidad. La tecnología facilita la gestión, pero quien gestiona y lleva a cabo esta perdurabilidad son las personas en los distintos niveles de gestión: estratégico, táctico y operacional. En estos momentos de constante competencia, donde la innovación es el uniforme de batalla, el valor añadido del Facilities Manager se construye gestionando el patrimonio inmobiliario con criterios responsables. Su hecho diferenciador: su marca, su reputación. ABSTRACT It comes difficult to define a profession that emerges due to the need of adapting working spaces to new organization’s trends, productivity improvements and new technologies, which have kept changing and making easier the way that we work during the last decades. Defining an invisible profession results much more complicated than that, because everything is fine when everything works in a building, or in an asset, properly. Hence, there is the difficulty of its definition. What it is not seen, it is not worth. Meeting rooms, reception spaces, work spaces, recreational rooms. HVAC, fire protection, power supply, legionnaire’s disease, evacuation. The organization itself, its needs and its philosophy. Reporting, analysis, improvements. People, spaces, process, technology. Today everything is associated to cost and profitability. In the hard task of developing a building project, a lot of issues, that participate, must be perfectly organized. Architects design and gather/put together in the project: the past (experience), the present (trends) and the future (durability). In that moment, considering the future of the building, e. g. its perdurability, Life Cycle turn as the key point of the design. This issue makes LCC a good idea to have into account since the very first draft of the project. A great number of conditioner factors exist in order to the building resist through time. Starting from a suitable use and the level of activity, passing through different characteristics it may have, and ending daily maintenance responsible. That invisible profession, that discipline, is known as Facility Management. Another discipline, not as new as FM –it begun at the end of XIX century- that is becoming more and more valuable is Social Responsibility. It involves everything a company realizes in a voluntary way, above legal regulations contributing sustainable development (financial, social and environmentally). Both disciplines stand out by their continuous dynamism. Reflecting the evolution of different concerning: • People, process, spaces, technology • Financial, social and environmentally It can only be managed from the right change management. This is the linking point between both disciplines. This research work is based on the study of existing level of increasing sensitivity about Social Responsibility within Facility Management’s sector in Spain. In order to do that, several –five- exercises have been studied with the purpose of analyze: communication, law, professional and facility manager’s opinions. The objective is to know the current implication that Social Responsibility has over Facility Management. It is very important the voluntary part of both disciplines, that’s why the present research work is focused over the voluntary elements and about the added value that is obtained managing the before named disciplines as a whole and in voluntary way. In order a company can develop his core business/primary activities, facility managers must operate the second largest company budget/cost centre. Being the first centre cost if we considerer human resources’ costs included (salaries, incentives…) Among 70-80% building costs are produced along its operative life. Durability Technology ease management, but people are who manage and carry out this durability, within different levels: strategic, tactic and operational. In a world of continuing competence, where innovation is the uniform for the battle, facility manager’s added value is provided managing company’s real estate with responsibility criteria. Their distinguishing element: their brand, their reputation.

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Nowadays, the projects LIFE (Laser Inertial Fusion Energy) in USA and HiPER (High Power Laser Energy Research) in Europe are the most advanced ones to demonstrate laser fusion energy viability. One of the main points of concern to properly achieve ignition is the performance of the final optics (lenses) under the severe irradiation conditions that take place in fusion facilities. In this paper, we calculate the radiation fluxes and doses as well as the radiation-induced temperature enhancement and colour centre formation in final lenses assuming realistic geometrical configurations for HiPER and LIFE. On these bases, the mechanical stresses generated by the established temperature gradients are evaluated showing that from a mechanical point of view lenses only fulfil specifications if ions resulting from the imploding target are mitigated. The absorption coefficient of the lenses is calculated during reactor startup and steady-state operation. The obtained results reveal the necessity of new solutions to tackle ignition problems during the startup process for HiPER. Finally, we evaluate the effect of temperature gradients on focal length changes and lens surface deformations. In summary, we discuss the capabilities and weak points of silica lenses and propose alternatives to overcome predictable problems

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Understanding the radio signal transmission characteristics in the environment where the telerobotic application is sought is a key part of achieving a reliable wireless communication link between a telerobot and a control station. In this paper, wireless communication requirements and a case study of a typical telerobotic application in an underground facility at CERN are presented. Then, the theoretical and experimental characteristics of radio propagation are investigated with respect to time, distance, location and surrounding objects. Based on analysis of the experimental findings, we show how a commercial wireless system, such as Wi-Fi, can be made suitable for a case study application at CERN.

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This thesis presents a task-oriented approach to telemanipulation for maintenance in large scientific facilities, with specific focus on the particle accelerator facilities at European Organization for Nuclear Research (CERN) in Geneva, Switzerland and GSI Helmholtz Centre for Heavy Ion Research (GSI) in Darmstadt, Germany. It examines how telemanipulation can be used in these facilities and reviews how this differs from the representation of telemanipulation tasks within the literature. It provides methods to assess and compare telemanipulation procedures as well a test suite to compare telemanipulators themselves from a dexterity perspective. It presents a formalisation of telemanipulation procedures into a hierarchical model which can be then used as a basis to aid maintenance engineers in assessing tasks for telemanipulation, and as the basis for future research. The model introduces a new concept of Elemental Actions as the building block of telemanipulation movements and incorporates the dependent factors for procedures at a higher level of abstraction. In order to gain insight into realistic tasks performed by telemanipulation systems within both industrial and research environments a survey of teleoperation experts is presented. Analysis of the responses is performed from which it is concluded that there is a need within the robotics community for physical benchmarking tests which are geared towards evaluating the dexterity of telemanipulators for comparison of their dexterous abilities. A three stage test suite is presented which is designed to allow maintenance engineers to assess different telemanipulators for their dexterity. This incorporates general characteristics of the system, a method to compare kinematic reachability of multiple telemanipulators and physical test setups to assess dexterity from a both a qualitative perspective and measurably by using performance metrics. Finally, experimental results are provided for the application of the proposed test suite onto two telemanipulation systems, one from a research setting and the other within CERN. It describes the procedure performed and discusses comparisons between the two systems, as well as providing input from the expert operator of the CERN system.

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As advanced Cloud services are becoming mainstream, the contribution of data centers in the overall power consumption of modern cities is growing dramatically. The average consumption of a single data center is equivalent to the energy consumption of 25.000 households. Modeling the power consumption for these infrastructures is crucial to anticipate the effects of aggressive optimization policies, but accurate and fast power modeling is a complex challenge for high-end servers not yet satisfied by analytical approaches. This work proposes an automatic method, based on Multi-Objective Particle Swarm Optimization, for the identification of power models of enterprise servers in Cloud data centers. Our approach, as opposed to previous procedures, does not only consider the workload consolidation for deriving the power model, but also incorporates other non traditional factors like the static power consumption and its dependence with temperature. Our experimental results shows that we reach slightly better models than classical approaches, but simul- taneously simplifying the power model structure and thus the numbers of sensors needed, which is very promising for a short-term energy prediction. This work, validated with real Cloud applications, broadens the possibilities to derive efficient energy saving techniques for Cloud facilities.

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Besides space laboratories for in-orbit experimentation, Earth based facilities for laboratory experimentation are of paramount importance for the enhancement on liquid bridge knowledge. In spite of the constraints imposed by simulated microgravity (which force to work either with very small size liquid bridges or by using the Plateau tank technique, amongst other techniques), the availability and accessibility of Earth facilities can circumvent in many cases the drawbacks associated with simulated microgravity conditions. To support theoretical and in orbit experimental studies on liquid bridges under reduced gravity conditions, several ground facilities were developed at IDR. In the following these ground facilities are briefly described, and main results obtained by using them are cited.