BIM for ABU DHABI AIRPORT (1).pptx

Building Information Modeling – II [DAC 641] Group Activity Presented By: P2370516 – Rachit Jain P2370 517 - CH. Vijaya Krishna P 2370 518 - Divyarajsinh Solanki P2370 519 - Shreyas Beldar P23705 20 – Manjushri Pagare Course g uide: Dr. Abhishek Raj Singh 1

BIM based construction EIR – Exchange Information Requirements BEP – BIM Execution Plan Table of contents 2 https://www.adairports.ae/english/

Building Information Modeling (BIM) in Construction Dimensions to BIM Why BIM ?? 3 [1] A. L. Aryani et. al. “The Development of Building Information Modeling (BIM) Definition,” Appl. Mech. Mater., vol. 567, pp. 625–630, 2014. Dimension Representation Implementation 2D [1] Drawings/ Plans/ Elevation Sketching/ Drafting/ Computer Aided Design (CAD) 3D [1] Models/ Prototypes 3D CAD Model/Prototypes + Data BIM 4D [1,2] 3D+ Time Scheduling 5D [1,2] 4D+ Cost Estimation and Project Performance 6D [1,2] 5D+ Sustainability Energy Management 7D [1,2] 6D+ Asset Management Facility Management

BIM Coordination in Multi-Disciplinary Teams . Steps of BIM Coordination Model Placement Model Validation Tool Selection IFC Integration Scope Definition Rule Establishment Team Communication Errors/Clash Analysis With/Without Bim [1] E. Krygiel and J. Vandezande , Mastering Autodesk Revit Architecture. John Wiley & Sons, Inc., 2014. 4

BIM in Asset Life Cycle Asset Lifecycle: The delivery phase and the operational phase. Delivery Phase: This phase encompasses activities like design, construction, and commissioning. The asset information model (AIM) plays a crucial role in influencing these processes. Operational Phase: Once the asset is operational, its management continues, often guided by standards like ISO 55000 and ISO 21500. Information Management: By ensuring consistency and quality in information management, ISO 19650 can contribute to more efficient, effective, and sustainable asset management practices. Relationship with ISO 9001: The diagram also highlights the connection between ISO 19650 and ISO 9001 (quality management). Integration with Other Standards: This suggests that quality management principles should be integrated into asset lifecycle management to enhance overall quality and efficiency. 5 [1] ISO 19650: Part 1

Project Name: Abu Dhabi International Airport, Mid terminal building(MTB) Employer : Abu Dhabi Airport Companies (ADAC) Contractor : JV of Consolidated Contractors Company (CCC), Arabtec , and TAV (TCA JV) Contract Value: $3 billion Project Location: Abu Dhabi, United Arab Emirates 6. Project Scope :- Size : 700,000 square meters Capacity: Accommodates 65 aircraft, handles 8,500 passengers/hour, 19,000 bags/hour EIR : Exchange Information Requirement Picture reference: www. gulfnews.com/business/ abu - dhabi -midfield-terminal

AS ISO 19650 Alignment: This document is aligned with the requirements of the AS ISO 19650 series of standards and uses the terminology from them throughout. Refer to them for details of the requirements and definitions of terms. Purpose: This document defines the exchange information requirements (EIR) for the project. Application: This EIR document forms part of the invitation to tender documentation provided by the appointing party to prospective appointed parties. EIR Documents [1] ISO 19650- Part 1- 2018

Commercial Requirements Design Team: Architectural Firm : Kohn Pedersen Fox Associates Structural Engineer : Arup MEP Engineer : NACO Landscape Architect : BNP Associates Common Data Environment (CDE): BIM 360 Picture reference: www.autodesk.com/bim-360 1) Cost Management: Budget Control: Real-time cost tracking via 5D BIM Contractual Compliance: Adherence to BIM deliverables in contracts 2) Risk Management: Risk Mitigation: Early risk identification and mitigation via BIM Change Management: BIM-driven process for handling design and schedule changes 3) Procurement & Supply Chain: Integration: BIM for managing orders, deliveries, and inventory Digital Documentation: Transparent records of procurement activities

Technical and Managerial aspects Technical Aspects: Software IT Infrastructure Collaboration Resources Coordination Facilities Coordination Model Geographic Location Asset Identification Model Object and Property Naming Standards and Project Reference Information Managerial Aspects: Information Quality Assurance Information Security and Privacy CDE Management Project Meetings BIM Execution Plan

BIM Execution Plan Project Goals: Engineering Excellence: Address complexities in design and operation with advanced technology. BIM Integration: Enhance project delivery and lifecycle operations through a comprehensive BIM strategy. Collaboration: Ensure seamless collaboration across all stakeholders via a unified BIM platform. 10 https://www.theb1m.com/video/expanding-abu-dhabi-international-airport-with-bim

Design BEP BIM Requirements: Development of a comprehensive BIM for all disciplines. Coverage of engineering and design including clash mitigation, design coordination, and RFI systems. Focus on producing shop drawings and ensuring consistency across the project lifecycle . BIM Implementation: Engineering & Design: Detailed coordination using BIM for clash detection and design accuracy. Shop Drawings: Utilization of BIM to generate accurate and coordinated shop drawings. RFI System: Integration of an RFI system within BIM to streamline queries and responses. 11 https://www.theb1m.com/video/expanding-abu-dhabi-international-airport-with-bim

Information Exchange Information Sharing Protocols: BIM Platform: Use of a common BIM platform for real-time collaboration. Stakeholder Involvement: Inclusion of all sub-contractors, manufacturers, and consultants in BIM processes. Data Formats: Standardized file formats (e.g., IFC, Revit) for seamless data exchange. Communication Workflow: Centralized BIM Repository: All project data stored in a centralized BIM model accessible by all parties. Real-time Updates: Continuous updates and sharing of project data, reducing errors and miscommunication. Cross-Disciplinary Collaboration: BIM-driven communication across engineering, planning, contractual, and manufacturing disciplines. 12 https://www.novatr.com/blog/construction-of-abu-dhabi-international-airport

Supporting Infrastructure Technological Infrastructure: Hardware & Software: Investment in high-performance computing infrastructure and BIM software tools (e.g., Autodesk Revit, Navisworks ). Network: High-speed network for efficient data transfer between global teams . Human Resources: BIM Managers and Coordinators: Dedicated personnel to manage and coordinate BIM activities across all disciplines. Training Programs: On-going training and development to ensure all stakeholders are proficient in BIM tools and processes . Logistics & Site Management: BIM for Site Logistics: Integration of BIM for planning site logistics, temporary installations, scaffolding, and formwork. 4D Scheduling: Use of BIM for time-based simulations to optimize construction schedules and resource allocation. 13 Picture reference: www.adairports.ae

Roles and Responsibility Matrix in BEP 14 Member Roles Responsibilities Client (ADAC): Project oversight, setting BIM standards, and ensuring compliance. Approve BIM execution plans, monitor progress, and ensure alignment with project goals. JV Contractor (TCA JV): Main contractor responsible for overall project execution. Develop and implement BIM strategies across all disciplines, coordinate with subcontractors, manage data exchange. Subcontractors (Engineering, Design, Manufacturing): Provide discipline-specific input and ensure integration into the overall BIM model. Develop BIM models for respective scopes, participate in clash detection, and update models in real-time. BIM Manager (Appointed by TCA JV): Central coordinator of BIM activities. Oversee the BIM process, manage RFI systems, ensure data consistency, and facilitate communication among stakeholders. Project Controls Team: Integrate project controls with BIM, including scheduling, cost estimation, and progress monitoring. Responsible for 4D BIM model development.

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