El reto de implementar BIM enproyectos de infraestructura

Jornada BIM | Colegio de Caminos, Madrid – 7 Junio 2016

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Ramón GonzálezDigital Environments SN Europe Leader

BIM Maturity Measure Tool• Todas las empresas aseguran tener una

experiencia BIM elevada

• Esto no ayuda a entender el avance del

“proyecto medio”

• Queremos que todo proyecto sea un

caso de éxito….

• Necesitamos aumentar la madurez BIM del

“proyecto medio”

• Necesitamos controlar nuestro avance

BIM Maturity Measure Tool

¿Por qué medir la madurez BIM?

1. Entender el rendimiento de Arup en el proyecto

2. Comunicar que constituye BIM

3. Identificar el “BIM Wash”

Para los Directores / Coordinadores de Proyecto

• Mide tanto la gestión de la información como el modelado

• Permite establecer objetivos y monitorizarlos

• Utilizable tanto dentro como fuera de Arup

Standards: initiation stage

DISEÑO

ANÁLISIS

PRODUCCIÓN

FABRICACIÓN

COORDINACION / EXPLOTACIÓN

COLABORACIÓN

Arup Issue Tracker

CERNWhat is it?• European Centre for Particle Physics• Higgs Boson Discovery 2012

Underground Infrastructure• Large Hadron Collider: 27 km• Tunnels: 70 km• Caverns: 80 no.

Arup Tunnels involvement• Post-Higgs period of machine upgrade• Upgrade of existing ageing infrastructure• Development of new schemes

• Future Circular Collider• International Linear Collider

Combined BIM Strategy & BIM Development

Data• Novel Use of Early Project Information• CDE for engineering, planning, physics across project

collaborators

Analytics• Step change to tunnel development and planning• Objective, repeatable, parametric Design• Regional scale clash detection

Tunnel Optimisation Tool (TOT)• Bespoke Open Source Development• Cloud based server for shared model• User friendly GUI and user management

CERN | Future Circular Collider (FCC) How is this best practice?

Early project BIM integrationFailures in ground-related construction projects are mainly due to shortcomings in the use of available data and knowledge as opposed to uncertainty due to unknown factors. - Cardenas et al (2013)

CERN | Future Circular Collider (FCC) Value to Arup and The Client?

“One of ARUP’s key values is understanding what the client requires at a

particular stage of a project. They quickly proposed this unique interactive investigative tool called TOT, which has proved invaluable in understanding

what is possible and what is not. The tool developed has proved not only crucial in the decision making process, to help decide which layout is most

feasible, but also as an excellent communication tool.

Thanks to ARUP’s excellent client relationship, they have proved the perfect

match with CERN, and have far exceeded the expectations given in the initial brief !”

– John Osborne, CERN Head of Civil Engineering Future Accelerator Studies Section

Ability to impact cost and functional design

Cost of design changes

Traditional design process

Pre-

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Digital Engineering• Arup and client upskilling• Early adopter benefits• Communication and collaboration (VDR)

Next steps• Phase 2 futureproofing with increasing data

maturity and LOD• Adoption onto new projects

International Linear Collider• CERN + KEK (Japan) + Fermilab (USA) +

DESY (Germany)• Working with Arup Japan• Digital as a means to share knowledge and

export skills

CERN | Future Circular Collider (FCC) New Ways of Working?

“A perfect example of industry and fundamental

research partnership that demonstrates the many possible synergies between accelerator R&D activities worldwide.”

- Michael Benedikt, CERN, Chair of FCC Study Coordination Group

CERN | Future Circular Collider (FCC) Why is this important?

International Linear Collider WorkshopSantander, SpainMay 30th - June 5th, 2016

Thanks to:

• Lluis Miralles Verge: CERN Head of Site

Management and Buildings Department

• Luigi Scibile: CERN Head of Site Engineering Group

• John Osborne: CERN Head of Future Accelerator

Studies Section

GD Wine Factory, China

Construction preparation

Soil nail Cross-check

Terminal de graneles sólidos

¿Cómo lo hacemos?

Muelle

• Microstation (dgn)

Almacenes y Silos

• PowerCivil (dgn)• Microstation (dgn)

Redes

de agua

• SewerCAD (dgn)• WaterCAD (dgn)• SUE (dgn)

Cintastransportadoras y

tuberías

• SUE (dgn)

Movimiento de

tierras y dragado

• PowerCivil (dgn)

¿Cómo trabajamos?

SUEModelo geométrico

ModelBuilderVía Excel

SewerCadModelo Hidráulico

ModelBuilderVía Excel

Reducir el riesgo en todo = Reducir el coste

Reducir el incertidumbre