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Arup: Consultores globales de ingeniería y diseño con 120 profesionales en España
- 1. © Arup
- 2. Arup es una firma global de consultores, ingenieros y diseñadores que ofrecen soluciones de diseño. 2
- 3. Arup 10,000 profesionales 70 países en cinco regiones 66 años 11,000 proyectos realizados 18 líneas de negocios en 4 mercados 3
- 4. Arup se estableció de manera permanente en España en 1994 © Arup 4
- 5. © Arup Tras un crecimiento progresivo, actualmente cuenta con 120 ingenieros, consultores y personal técnico altamente cualificado. 5
- 6. Arup se organiza en tres áreas de negocio: edificación, infraestructuras y consultoría, con clientes en el sector público y privado. © Reid Fenwick Asociados © Arup © Arup/Rubio y Asociados 6
- 7. Ofrecemos valor añadido a nuestros clientes y escuchamos detenidamente sus necesidades y expectativas © Arup/ © Hufton + Crow/ © Arup/ 7
- 8. © West8 © Arup Nuestra visión holística integra los aspectos ambientales, el uso eficiente de los recursos y las implicaciones sociales. © Niegel Young + Foster and Partners 8
- 9. Alcance de nuestros servicios 2. Desarrollo 4. Construcción Asesoramiento en Adjudicaciones PPP Gestión PPP (Emplazamiento / Evaluación de Rutas / Selección) Licitaciones Project Management Adquisiciones Gestión de Stakeholder (Agentes Principales) Administración Contractual Planificación y Permisos Gestión de la Construcción Control de Contaminación y Gestión de Residuos Asistencia Técnica en Obra Licencias para la construcción en Zonas Costeras Evaluación Medioambiental Evaluación de la sostenibilidad 1. Concepto 3. Diseño 5. Operaciones Estudios de viabilidad Planificación y Control del Proyecto Seguridad y Salud Gestión de Instalaciones Auditorías técnicas Ingeniería de la Propiedad Diseño de Infraestructuras Evaluación de la Sostenibilidad Emplazamiento / Evaluación de rutas / Diseño Geotécnico Diseño Marítimo Auditoría Energética Selección Diseño Civil y de Estructuras Tráfico y Transporte Asesoramiento Estratégico Diseño de Instalaciones Evaluación de Riesgos Planes de Ejecución de Proyecto Gestión del Diseño Servicios GIS Modelos Financieros Preparación de la Documentación PPP 9
- 10. Alcalá 54 28014 Madrid www.arup.com 10
Notas del editor
- 1 - INTRODUCTION
- 1 - INTRODUCTION
- Beijing National Stadium – ‘Birds Nest’ (top right)New build stadium with a capacity of 100,000 to be used initially for the 2008 Olympic Games To reduce costs, the outside of the stadium needed to have minimum surface but contain all the structure. There are no towers or cable nets forming the support. The facade wraps around the bowl. The geometry of the bowl was defined using a powerful new computer software programme, specifically written by Arup for this purpose The thermal environment of the spectator area was investigated for the Olympic game period, taking into account the local heat gains including solar and non-solar sources using computer simulation techniques Nescio Bridge, Amsterdam (bottom right)Concept and engineering design of a 170m span, 5m wide cycle and pedestrian bridgeCyclists and pedestrians reach the new suburb of IJburg across this spectacular monocable self-anchored suspension bridge over the Amsterdam Rhine Canal.The main span is curved to give natural alignment for the cyclists. It bifurcates at each end to separate the pedestrians from the cyclists, and also to improve the lateral stiffness of the structureThe bridge was designed to be aerodynamically stable, and this was demonstrated with a 1:50 aeroelastic model in a wind tunnelCalifornia Academy of Sciences (bottom left)a new build museum containing research laboratories, naturally ventilated exhibition spaces, aquaria, a rainforest exhibit, an auditorium, offices, classrooms and a PlanetariumStriving to achieve a Platinum LEED rating, the building's sustainable features included a 'green roof,' natural ventilation, extensive use of natural daylight, reduced water run-off, alternative transportation and integration into the park and community
- Beijing National Stadium – ‘Birds Nest’ (top right)New build stadium with a capacity of 100,000 to be used initially for the 2008 Olympic Games To reduce costs, the outside of the stadium needed to have minimum surface but contain all the structure. There are no towers or cable nets forming the support. The facade wraps around the bowl. The geometry of the bowl was defined using a powerful new computer software programme, specifically written by Arup for this purpose The thermal environment of the spectator area was investigated for the Olympic game period, taking into account the local heat gains including solar and non-solar sources using computer simulation techniques Nescio Bridge, Amsterdam (bottom right)Concept and engineering design of a 170m span, 5m wide cycle and pedestrian bridgeCyclists and pedestrians reach the new suburb of IJburg across this spectacular monocable self-anchored suspension bridge over the Amsterdam Rhine Canal.The main span is curved to give natural alignment for the cyclists. It bifurcates at each end to separate the pedestrians from the cyclists, and also to improve the lateral stiffness of the structureThe bridge was designed to be aerodynamically stable, and this was demonstrated with a 1:50 aeroelastic model in a wind tunnelCalifornia Academy of Sciences (bottom left)a new build museum containing research laboratories, naturally ventilated exhibition spaces, aquaria, a rainforest exhibit, an auditorium, offices, classrooms and a PlanetariumStriving to achieve a Platinum LEED rating, the building's sustainable features included a 'green roof,' natural ventilation, extensive use of natural daylight, reduced water run-off, alternative transportation and integration into the park and community
- Beijing National Stadium – ‘Birds Nest’ (top right)New build stadium with a capacity of 100,000 to be used initially for the 2008 Olympic Games To reduce costs, the outside of the stadium needed to have minimum surface but contain all the structure. There are no towers or cable nets forming the support. The facade wraps around the bowl. The geometry of the bowl was defined using a powerful new computer software programme, specifically written by Arup for this purpose The thermal environment of the spectator area was investigated for the Olympic game period, taking into account the local heat gains including solar and non-solar sources using computer simulation techniques Nescio Bridge, Amsterdam (bottom right)Concept and engineering design of a 170m span, 5m wide cycle and pedestrian bridgeCyclists and pedestrians reach the new suburb of IJburg across this spectacular monocable self-anchored suspension bridge over the Amsterdam Rhine Canal.The main span is curved to give natural alignment for the cyclists. It bifurcates at each end to separate the pedestrians from the cyclists, and also to improve the lateral stiffness of the structureThe bridge was designed to be aerodynamically stable, and this was demonstrated with a 1:50 aeroelastic model in a wind tunnelCalifornia Academy of Sciences (bottom left)a new build museum containing research laboratories, naturally ventilated exhibition spaces, aquaria, a rainforest exhibit, an auditorium, offices, classrooms and a PlanetariumStriving to achieve a Platinum LEED rating, the building's sustainable features included a 'green roof,' natural ventilation, extensive use of natural daylight, reduced water run-off, alternative transportation and integration into the park and community