The Nightingale Project
The Nightingale is a multi-storey building with underground parking, commercial area at groundfloor, and apartments on upper floors.
The project is carried out in stages, beginning with the Intial phase, Analyzing and Designing for the Competition phase, and progressing to a more detailed phase where keypoints and details are completed, followed by the Assembly phase and construction.
The building holds the shape of the nightingale spreading its wings - a symbol well-mentioned in many Northern Europe mythology. We name it after the creature with the view of constructing a strong, yet elegant building, where people can feel safe and comfortable for usage.
Project's Poster
Rendering images: Enscape
Building model: Revit
Poster: Photoshop
Successive Calculation
(Budget)
-Rough cost calculation in the Outline phase
-Break down the cost -> Estimation
 |  |  |  |
|---|
Total budget
Work cost
- Craft man's salary
- Material costs
- Facility cost
- Gross price
Risk analysis
- Identify potential risks
- Risk assessment
- Risk mitigation strategy
Building Component Analysis (BCA)
- Material choices
- Component choices
- Structure analysis
- Material choices
- Component choices
- Structure analysis
Site plan
Apartment Layouts
- 1 bedroom Apartment
- 2 bedroom Apartment
- 3 bedroom Apartment
- Penthouse Apartment
 |  |  |  |
|---|
Basement Plan
6th - 7th floor layout
Fire Plans
- Escape routes
- Fire wall analysis
- Fire door analysis
Exploded drawing
- The area load of snow will have an effect on the roof's load.
- The load transferred from the roof to the column structure, which is the basic skeleton of the building, will be divided into two categories of load. First, consider the horizontal load, often known as the line load. The second type of load is the vertical load, can be known as point load.
- Following then, all of the weight from the strutural columns and beams will be transferred to the floor slab and foundation.
- Wind load, also known as area load, will have an impact on facades.
Energy calculation
- U- value calculation
- Thermal bridge assessment
- Thermal resistance calc.
- Visualizations
MEP
- Water supply plan
- Sewage plan
- Accessories included
- Pipes information included
Master Schedule
Wind flow analysis
Staircase focusing
General drawings
- Staircase at groundfloor level
- Plan drawing
- 2 Sections
- Followed by Building Regulations 18
- 3D view
Details
- Staircase - Wall connection
- Nosing detail
- Handrail detail
- Stair flight - Landing connection
- Rebar Layout
Staircase weight
- Stair flight: ~1350 kg
- Stair landing: ~1058 kg
Staircase Tolerances
-In length: +/- 13mm
- In width: +11/-7mm
In length
In width
Constructing Order
Stair landing first
Stair flight comes after
Animation using Naviswork
Assembly Procedure
Protocol control
Process control on how the staircase should be treated from:
-
The production phase
-
In delivery
-
During erection
-
After treatment
Element prices
- Estimation of labour cost
- Material cost
- Fixed cost
-> Element total cost
Programmes I have used for this project
BIM360
For collabration
with team members
Microsoft Project
Generate Schedules
Teams
For collaboration
Revit
Modeling
Drawings
Naviswork
Clash detections
Basic animation
Flow
Wind flow analysis
Photoshop
Project's Poster
Numfem
U-value calculation
Microsoft Excel
Statistics