Advances in the SMS design method for imaging optics

In this work, two SMS algorithms are presented for an objective design with different selected ray-bundles: three meridian ray-bundles (3M) and one meridian and two skew ray-bundles (1M-2S), the latter from pin hole point of view, provides a better sampling of the phase space. Results obtained with different algorithms will be compared.

Integrated learning of computer applications for production engineering

A high productivity rate in Engineering is related to an efficient management of the flow of the large quantities of information and associated decision making activities that are consubstantial to the Engineering processes both in design and production contexts. Dealing with such problems from an integrated point of view and mimicking real scenarios is not given much attention in Engineering degrees. In the context of Engineering Education, there are a number of courses designed for developing specific competencies, as required by the academic curricula, but not that many in which integration competencies are the main target. In this paper, a course devoted to that aim is discussed. The course is taught in a Marine Engineering degree but the philosophy could be used in any Engineering field. All the lessons are given in a computer room in which every student can use each all the treated software applications. The first part of the course is dedicated to Project Management: the students acquire skills in defining, using Ms-PROJECT, the work breakdown structure (WBS), and the organization breakdown structure (OBS) in Engineering projects, through a series of examples of increasing complexity, ending up with the case of vessel construction. The second part of the course is dedicated to the use of a database manager, Ms-ACCESS, for managing production related information. A series of increasing complexity examples is treated ending up with the management of the pipe database of a real vessel. This database consists of a few thousand of pipes, for which a production timing frame is defined, which connects this part of the course with the first one. Finally, the third part of the course is devoted to the work with FORAN, an Engineering Production package of widespread use in the shipbuilding industry. With this package, the frames and plates where all the outfitting will be carried out are defined through cooperative work by the studens, working simultaneously in the same 3D model. In the paper, specific details about the learning process are given. Surveys have been posed to the students in order to get feed-back from their experience as well as to assess their satisfaction with the learning process. Results from these surveys are discussed in the paper

Progress in the SMS design method for imaging optics

In this work, two SMS algorithms are presented for an objective design with different selected ray-bundles: three meridian ray-bundles (3M) and one meridian and two skew ray-bundles (1M-2S), the latter from pin hole point of view, provides a better sampling of the phase space. Results obtained with different algorithms will be compared

Overview of the SMS design method applied to imaging optics

The Simultaneous Multiple Surfaces (SMS) was developed as a design method in Nonimaging Optics during the 90s. Later, the method was extended for designing Imaging Optics. We present an overview of the method applied to imaging optics in planar (2D) geometry and compare the results with more classical designs based on achieving aplanatism of different orders. These classical designs are also viewed as particular cases of SMS designs. Systems with up to 4 aspheric surfaces are shown. The SMS design strategy is shown to perform always better than the classical design (in terms of image quality). Moreover, the SMS method is a direct method, i.e., it is not based in multi-parametric optimization techniques. This gives the SMS method an additional interest since it can be used for exploring solutions where the multiparameter techniques can get lost because of the multiple local minima

Development of an adequate model for verification of design safety-margins of the HTTR nuclear test facility

This work is based on the prototype High Engineering Test Reactor (HTTR) of the Japan Agency of Energy Atomic (JAEA). Its objective is to describe an adequate deterministic model to be used in the assessment of its design safety margins via damage domains. The concept of damage domain is defined and it is shown its relevance in the ongoing effort to apply dynamic risk assessment methods and tools based on the Theory of Stimulated Dynamics (TSD). To illustrate, we present results of an abnormal control rod (CR) withdrawal during subcritical condition and its comparison with results obtained by JAEA. No attempt is made yet to actually assess the detailed scenarios, rather to show how the approach may handle events of its kind

Structural behaviour and design criteria of under-deck cable-stayed bridges subjected to seismic action

Under-deck cable-stayed bridges are very effective structural systems for which the strong contribution of the stay cables under live loading allows for the design of very slender decks for persistent and transient loading scenarios. Their behaviour when subjected to seismic excitation is investigated herein and a set of design criteria are presented that relate to the type and arrangement of bearings, the number and configuration of struts, and the transverse distribution of stay cables. The nonlinear behaviour of these bridges when subject to both near-field and far-field accelerograms has been thoroughly investigated through the use of incremental dynamic analyses. An intensity measure that reflects the pertinent contributions to response when several vibration modes are activated was proposed and is shown to be effective for the analysis of this structural type. The under-deck cable-stay system contributes in a very positive manner to reducing the response when the bridges are subject to very strong seismic excitation. For such scenarios, the reduction in the stiffness of the deck because of crack formation, when prestressed concrete decks are used, mobilises the cable system and enhances the overall performance of the system. Sets of natural accelerograms that are compliant with the prescriptions of Eurocode 8 were also applied to propose a set of design criteria for this bridge type in areas prone to earthquakes. Particular attention is given to outlining the optimal strategies for the deployment of bearings

Neutronics design and radiological aspects of HiPER facilities

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.

Analysis and design of multiagent systems using MAS-CommonKADS

This article proposes an agent-oriented methodology called MAS-CommonKADS and develops a case study. This methodology extends the knowledge engineering methodology CommonKADSwith techniquesfrom objectoriented and protocol engineering methodologies. The methodology consists of the development of seven models: Agent Model, that describes the characteristics of each agent; Task Model, that describes the tasks that the agents carry out; Expertise Model, that describes the knowledge needed by the agents to achieve their goals; Organisation Model, that describes the structural relationships between agents (software agents and/or human agents); Coordination Model, that describes the dynamic relationships between software agents; Communication Model, that describes the dynamic relationships between human agents and their respective personal assistant software agents; and Design Model, that refines the previous models and determines the most suitable agent architecture for each agent, and the requirements of the agent network.

Engineering Agent Systems for Decision Support

This paper discusses how agent technology can be applied to the design of advanced Information Systems for Decision Support. In particular, it describes the different steps and models that are necessary to engineer Decision Support Systems based on a multiagent architecture. The approach is illustrated by a case study in the traffic management domain.

Final year project: students and instructors perceptions as a competence-strengthening tool for engineering students

This work indicates the importance of the Final Year Project (FYP) in the strengthening of competences of engineering students. The study also shows which personal competences of students are reinforced most during the FYP process,including the preparation, elaboration, presentation and defence stages. In order to gather information on this subject, a survey was conducted at two different Spanish technical universities—one public and one private—and a comparative analysis was performed of the questionnaires collected. The competence model considered is that used by the Accreditation Board for Engineering and Technology (ABET), since the official title of the public university has been accredited by this model. The results indicate which personal and professional competences of students are reinforced well by undertaking the FYP. Any significant differences in response by university are explained in the study. For validation purposes, the results were contrasted with the instructor’s perspective using the triangulation methodology. Finally, the conclusions drawn will permit the design of new study plans to cope more effectively with the challenges of the FYP in the new Bologna framework.

Pounding force assessment in performance-based design of bridges

Bridges with deck supported on either sliding or elastomeric bearings are very common in mid-seismicity regions. Their main seismic vulnerabilities are related to the pounding of the deck against abutments or between the different deck elements. A simplified model of the longitudinal behavior of those bridges will allow to characterize the reaction forces developed during pounding using the Pacific Earthquake Engineering Research Center framework formula. In order to ensure the general applicability of the results obtained, a large number of system parameter combinations will be considered. The heart of the formula is the identification of suitable intermediate variables. First, the pseudo acceleration spectral value for the fundamental period of the system (Sa(Ts)) will be used as an intensity measure (IM). This IM will result in a very large non-explained variability of the engineering demand parameter. A portion of this variability will be proved to be related to the relative content of high-frequency energy in the input motion. Two vector-valued IMs including a second parameter taking this energy content into account will then be considered. For both of them, a suitable form for the conditional intensity dependence of the response will be obtained. The question of which one to choose will also be analyzed. Finally, additional issues related to the IM will be studied: its applicability to pulse-type records, the validity of scaling records and the sufficiency of the IM.

Programmed design of ship forms

This paper describes a new category of CAD applications devoted to the definition and parameterization of hull forms, called programmed design. Programmed design relies on two prerequisites. The first one is a product model with a variety of types large enough to face the modeling of any type of ship. The second one is a design language dedicated to create the product model. The main purpose of the language is to publish the modeling algorithms of the application in the designer knowledge domain to let the designer create parametric model scripts. The programmed design is an evolution of the parametric design but it is not just parametric design. It is a tool to create parametric design tools. It provides a methodology to extract the design knowledge by abstracting a design experience in order to store and reuse it. Programmed design is related with the organizational and architectural aspects of the CAD applications but not with the development of modeling algorithms. It is built on top and relies on existing algorithms provided by a comprehensive product model. Programmed design can be useful to develop new applications, to support the evolution of existing applications or even to integrate different types of application in a single one. A three-level software architecture is proposed to make the implementation of the programmed design easier. These levels are the conceptual level based on the design language, the mathematical level based on the geometric formulation of the product model and the visual level based on the polyhedral representation of the model as required by the graphic card. Finally, some scenarios of the use of programmed design are discussed. For instance, the development of specialized parametric hull form generators for a ship type or a family of ships or the creation of palettes of hull form components to be used as parametric design patterns. Also two new processes of reverse engineering which can considerably improve the application have been detected: the creation of the mathematical level from the visual level and the creation of the conceptual level from the mathematical level. © 2012 Elsevier Ltd. All rights reserved. 1. Introduction

Conceptual design of the liquid metal laboratory of the TECHNOFUSION facility

The application of liquid metal technology in fusion devices requires R&D related to many phenomena: interaction between liquid metals and structural material as corrosion, erosion and passivation techniques; magneto-hydrodynamics; free surface fluid-dynamics and any other physical aspect that will be needed for their safe reliable operation. In particular, there is a significant shortage of experimental facilities dedicated to the development of the lithium technology. In the framework of the TECHNOFUSION project, an experimental laboratory devoted to the lithium technology development is proposed, in order to shed some light in the path to IFMIF and the design of chamber's first wall and divertors. The conceptual design foresee a development in two stages, the first one consisting on a material testing loop. The second stage proposes the construction of a mock-up of the IFMIF target that will allow to assess the behaviour of a free-surface lithium target under vacuum conditions. In this paper, such conceptual design is addressed.

Mechanical design optimization for multi-finger haptic devices applied to virtual grasping manipulation

This paper describes the design of a modular multi-finger haptic device for virtual object manipulation. Mechanical structures are based on one module per finger and can be scaled up to three fingers. Mechanical configurations for two and three fingers are based on the use of one and two redundant axes, respectively. As demonstrated, redundant axes significantly increase workspace and prevent link collisions, which is their main asset with respect to other multi-finger haptic devices. The location of redundant axes and link dimensions have been optimized in order to guarantee a proper workspace, manipulability, force capability, and inertia for the device. The mechanical haptic device design and a thimble adaptable to different finger sizes have also been developed for virtual object manipulation.

Integration of design tools and knowledge capture into a CAD system: a case study

onceptual design phase is partially supported by product lifecycle management/computer-aided design (PLM/CAD) systems causing discontinuity of the design information flow: customer needs — functional requirements — key characteristics — design parameters (DPs) — geometric DPs. Aiming to address this issue, it is proposed a knowledge-based approach is proposed to integrate quality function deployment, failure mode and effects analysis, and axiomatic design into a commercial PLM/CAD system. A case study, main subject of this article, was carried out to validate the proposed process, to evaluate, by a pilot development, how the commercial PLM/CAD modules and application programming interface could support the information flow, and based on the pilot scheme results to propose a full development framework.