We believe that all engineering systems shall be working in harmony to provide the best possible performance for the building, accordingly, experts in all the field are gathered under one roof to be able to deliver optimum coordination for our clients.
During the Design & Development Process, a Quality Plan integrated within the framework of engineering communications with the suppliers there are many forms of data exchange, e.g., technical clarification and instruction, design analysis and review, program definition and control etc. To ensure the latest technology available on the market and the cost impact on the projects.
1- REINFORCED CONCRETE (RCC)
2- STEEL STRUCTUE
3- POST-TENSION SYSTEM
4- PRE-CAST SYSTEM
5- COST STUDIES
6- SPECIFICATIONS
7- BOQS
8- SHOPDRAWINGS
9- SITE SUPERVISION
10- COST STUDIES & VALUE ENGINEERING
1 – PEER REVIEW
2 – VALUE ENGINEERING STUDIES
3 – COST STUDIES
1- HVAC SYSTEMS
2- PUBLIC HEALTH SYSTEMS
3- FIRE PROTECTION SYSTEMS
4- ELECTRICAL POWER SYSTEMS
5- ELECTRICAL LIGHTING SYSTEMS
6- CCTV & INTERCOM SYSTEMS
7- SMATV SYSTEMS
8- SPECIAL LIGHTING SYSTEMS
9- STRUCTURED CABLING SYSTEM
10- POOLS AND WATER FEATURES
11- IRRIGATION
12- SITE SUPERVISION
13- SHOPDRAWINGS
14- COST STUDIES & VALUE ENGINEERING
1- SHOPDRAWINGS
2 – BIM MODELLING TO LOD400 & LOD500
APT believe that the fundamental principles and objectives of BIM processes are synonymous to our core ethos. BIM is integrated into our design processes and management systems. Appropriately applying BIM on our projects enables us to realise our core values and facilitate:
Earlier design collaboration to develop and test design alternatives
Deliverables from the building information model can be divided into two broad types: graphical information and non-graphical information. Graphical information is generat- ed from the 3D model and may be viewed as 3D or 2D representations on screen or printed onto paper (analogous to traditional drawings). Non-graphical information is generated from the database underlying the 3D model by querying the data held within or attached to the objects in the model. The results are analogous to documentation such as materials schedules, bills of quantities, etc. The various plans of work already define some of these graphical and nongraphical deliverables in different levels of detail.
LOD 300: The Model Element is graphically represented within the Model as a specific system, object, or assembly in terms of quantity, size, shape, location, and orientation. Non-graphic information may also be attached to the Model Element.
LOD 400: The Model Element is graphically represented within the Model as a specific system, object or assembly in terms of size, shape, location, quantity, and orientation with detailing, fabrication, assembly, and installation information. Non-graphic information may also be attached to the Model Element.
LOD 500 The Model Element is a field verified representation in terms of size, shape, location, quantity, and orientation. Non-graphic information may also be attached to the Model Elements.
1 – STRUCTURE
Structure Revit model must have at least concrete walls, beams, column, floor
& roof. Also Navisworks will be submitted.
2 – HVAC
HVAC discipline model, clash avoidance between Architectural, Structural, and HVAC; equipment lists, COBie data (Revit & Navisworks)
3 – FIRE PROTECTION & PLUMBING
Plumbing & Fire Protection discipline models (Revit & Navisworks), in additional to clash avoidance between itself, Architectural and Structural.
4 – ELECTRICAL AND LOW LIGHT CURRENT
Discipline models (Revit & Navisworks), panel schedules and other equipment sched- ules, COBie data, commissioning data in model. Electrical drawings showing physical size and location of all elements in the electrical system, including final electrical specifications will be part of the deliverables. In additional to clash avoidance between Services Architectural and Structural.
