Our Work

PulseMEP Engineering

MEP DESIGN

Building Services Model (Revit)

This project represents a comprehensive MEP (Mechanical, Electrical, and Plumbing) systems model for a multi-story residential or mixed-use building, developed using Autodesk Revit. The model illustrates a vertical section view of the entire structure, showcasing the integration of various building services systems across all floors, including basement levels.

Key elements featured in the model:

Mechanical Systems: HVAC ductwork and equipment are distributed across all floors, including rooftop mechanical units. Vertical risers and horizontal ducting are shown, ensuring efficient air distribution.
Plumbing Systems: Cold water, hot water, and wastewater piping systems are meticulously designed. Pipe routing is color-coded for easy identification and coordination.
Electrical Systems: Cable trays, conduits, and main electrical routes are coordinated throughout the building, with special attention to vertical risers and basement distribution.
Fire Protection: Fire sprinkler lines and riser systems are included for each floor, ensuring compliance with fire safety standards.
Coordination and Clarity: The model ensures spatial coordination between all MEP systems, architectural elements, and structural components, minimizing clashes and optimizing system efficiency.

The design provides a high level of detail and accuracy, suitable for construction documentation, system analysis, and BIM coordination purposes.

SANITARY AND PIPING CONNECTIONS DESIGN

Sanitary and Piping Connections (Revit)

This detail represents a section of the piping network for the sanitary or mechanical system, modeled in Autodesk Revit. The view shows horizontal and vertical pipe connections between equipment fixtures, most likely in a basement or technical service area.

Key elements included in the drawing:

Steel Pipes (Çelik Ø77 mm): These pipes are used for high-pressure or durable transport lines, likely for water or heating purposes.
PP Pipe (Polypropylene Ø110 mm): Commonly used for waste or vent piping due to its chemical resistance and durability.
HDPE Pipe (Tub HDPE Ø75 mm): High-Density Polyethylene pipe, used for drainage or underground systems due to its flexibility and corrosion resistance.
Valves and Fittings: Properly placed at junctions and branch lines for operational control and maintenance.
Equipment/Fixtures: Connection points to pumps or system units are shown, indicating detailed coordination with mechanical systems.

This detail demonstrates accurate system routing and labeling, aiding in both coordination and future maintenance.

Vertical Water Supply Distribution (Revit)

This image shows an isometric 3D view of a vertical water distribution system, modeled using PPR (Polypropylene Random Copolymer) pipes in Autodesk Revit. The model highlights a riser shaft containing the main water supply and distribution piping for a multi-story building.

Key elements in the model:

Main Vertical Risers (PPR Ø75 mm): These larger diameter pipes are used for the main cold/hot water supply running vertically through the building.
Branch Distribution Lines (PPR Ø60 mm and Ø50 mm): These smaller diameter pipes feed water horizontally from the main risers to individual units or fixtures on each floor.
Connection to Manifolds or Metering Units: The pipes are connected to manifolds or control valves, likely used for water metering or zone control.
3D Coordination: The pipes are modeled in a shaft or utility core, with careful spacing and alignment, demonstrating system clarity and accessibility for maintenance.

This view clearly illustrates the vertical distribution layout and system organization, which is crucial for efficient water supply and installation planning in multi-level buildings.

3D Fire Pump Room Model – Revit

This is a 3D model of a fire pump room, created in Autodesk Revit. It showcases a highly detailed mechanical room layout, dedicated to fire protection systems in a building. The model includes all critical components required for a fully functional firefighting water supply system.

Key components visible in the model:

Fire Pumps: Central red mechanical units that boost water pressure during fire emergencies.
Piping Network: Red piping represents the fire protection lines, including suction, discharge, and bypass lines. The routing is carefully coordinated to avoid clashes and ensure efficient operation.
Valves and Fittings: Control valves, pressure gauges, and test lines are included for system regulation, testing, and maintenance.
Concrete Equipment Base and Structural Elements: The pumps are mounted on concrete pads, and structural walls are shown for context and support.
Coordination and Realism: The model ensures realistic spacing and clearances according to NFPA (National Fire Protection Association) and local fire codes, supporting constructability and maintenance accessibility.

This kind of Revit model is essential for design validation, interdisciplinary coordination, and facility management in modern BIM-based building projects.