3D BIM Engineering

Projects

If you would like to take a closer look at what we have accomplished and how we approach our projects, you can explore the projects we have completed and those currently under development. This review will help you better understand the depth of our engineering expertise, the innovative approaches we develop for complex challenges, and the effective collaboration model we establish with our business partners.

Infrastructure Models

• Pipeline Networks: Ø200‑Ø2000mm lines are modeled to meet minimum cover depth and hydraulic slope requirements; manholes and structures are selected from detailed component libraries.
• Road Superstructure: Bituminous wearing course, binder, plant-mix base, and sub-base layers are volumetrically defined to calculate excavation and fill quantities.
• Integrated Hydraulic Data: Rainfall–surface runoff analysis results are directly linked to the hydraulic properties of the pipe network.

Hydraulic Structure Models

• Dam Bodies: Rockfill, clay core, filter‑drain zones, and concrete facing blocks are modeled as separate volumes and linked to settlement and seepage analyses.
• Spillway Channels: Hydraulic crest profiles, free surface curves, and energy dissipator geometries are designed in three dimensions.
• Outlet Tunnels: Segmental lining rings, hydromechanical gates, air release shafts, and steel pipe supports are represented as detailed components.

Energy Models

• Power Plant Buildings: Turbine-generator foundations, overhead crane rails, power cabins, and operation platforms are modeled with complete geometric detail.
• Solar Energy Layouts: Panel rows on topography, shading angle optimization, cable ducts, and transformer-control rooms are defined.
• Transmission Lines: Pole types, conductor tension data, and phase-to-ground clearances are created within the model using drag-and-drop libraries.

Industrial Models

• Process Pipelines: Complete piping schematics are displayed in 3D, including flow direction, valve and fittings codes, and stress hangers.
• Steel Structures: Beam-column sections, bolt groups, connection plates, and rigidity diaphragms are represented as detailed components.
• Silo & Storage: Base plate, conical hopper, inner lining, and level measurement equipment are tracked as separate BIM elements.

Airport Models

• Runway Pavement: Concrete/asphalt layers, longitudinal-transverse slopes, grooving details, and edge stripes are defined layer by layer in the model.
• Apron & Taxiway: Panel dimensions and edge joint details based on Pavement Classification Number (PCN) calculations are created in accordance with international standards.
• Drainage & Fuel Lines: Pipe diameters, manhole locations, filter materials, and inspection chamber details are visualized in 3D.
• Lighting & Navigation: Edge lights, direction signs, centerline reflectors, and energy-control rooms are precisely positioned with coordinates.

Integrated analyses performed on LOD-3 models provide the following:

• A minimum of 50cm vertical and 1m horizontal clearance between underground utilities is verified.
• 4D schedules optimize critical path activities and equipment-personnel density.
• Live quantity takeoff tables and budget estimates are visualized on digital dashboards to accelerate decision-making processes.

• Clash detection and coordination meetings
• Time-based simulation scenarios (4D)
• Cost integration (5D)
• Cloud-based model sharing and version control
• Augmented & virtual reality verification for field teams

• Full transparency and traceability from design to construction
• Up to 30% reduction in rework and material waste
• Up to 20% increase in planning accuracy
• Low-carbon and environmentally friendly design decisions
• A shared digital data environment for project stakeholders