ARCHITECTURAL PROPOSAL
WATER JOURNEY Passage to Wellness
1
Seclected Site Location Scale 1:500
1:500 0
10m
20m
50m
DE |
2
Site Strategy
1. Building Footprint
2. Access and Visibility
3. Sound Pollution
4. Privacy and Programme Layering
Building footprint nestled into site boundary to minimize excavation.
Waterfront as main access and maintaing the visual connection to the river.
Vegetation filtering noise pollution from the outside (airport, DLR).
Splitting and layering residential from programmes spaces.
DE |ES |
3
Design Iterations
Iteration 1
Iteration 2
Iteration 3
Contiuious circulation flow between programmes.
Arrangging each programme in different level to have the outdoor visual.
Pushing and puncturing to create entrance and opening.
DE |
4
Initial Massing
Key Residential Area Pools Changing Rooms Hot Bath Treatment Rooms
Dry Area
Wet Area
DE | PS |
5
Birdseye Render
6
General Arrangment Plan
15
Scale 1:200
University Way
5
14
B
2 3 11
4 12
2
3
11
4
10 1
6 A 9
9
7 8
6
13
A 6
14
Legend 1. Reception. 2. Female/Male Changing Room and Lockers. 3. Water Closet. 4. Shower. 5. Plant Room. 6.Wet Area: Mineral, Hot and Cold Bath. 7. Open Courtyard with Filtration Pond. 8. Cafe. 9. Storage. 10. Shared Kitchen. 11. Shared Communal Areas. 12. Residential Entrance Lobby. 13. Reedbeds. 14. Bicycle Stand. 15. Carpark.
6
13
Royal Albert Dock B N
1:200 0 1m
Main Entrance Existing Structure Vegetation
5m
10m
20m
DE | TS | ES |
7
Mezzanine Floor Plan Scale 1:200
University Way
B 16
16
16 16
16 16
17
16
16
16
A
7 16 16
A
18 18
20
19 20
20
Royal Albert Dock
Legend 7. Open Courtyard with Filtration Pond. 16. Residence Rooms Unit. 17. Existing Resident’s Kitchen 18. Hydration Point. 19. Hot Beds. 20. Treatment Rooms.
20 B 1:200 0
Existing Structure Vegetation
1m
N 5m
10m
20m
DE | TS | ES |
8
9
Roof Plan Scale 1:200
University Way
B
21
20 21
A 7 20 20
A
21
Royal Albert Dock B 1:200
Legend 0
7. Open Courtyard with Filtration Pond. 20. Green Roof. 21. Photovoltic Roof Tiles.
Existing Building Vegetation
1m
N 5m
10m
20m
DE | TS | ES | 10
Section A-A Scale 1:200
4
3
3
3
3
3
3
2
1
Legend 1. Wet Area: Mineral, Hot and Cold Bath. 2. Dry Area: Hydration Point, Hot Beds, Treatment Rooms. 3. Residents’ Room Units 4. Outdoor Open Courtyard
TS | 11
Section B-B Scale 1:200
2
1
1
Legend 1. Wet Area: Mineral, Hot and Cold Bath. 2. Dry Area: Hydration Point, Hot Beds, Treatment Rooms. 4. Outdoor Open Courtyard
TS | 12
Circulation
Key Vertical Circulation Horizontal Circulation Public Circulation Private Circulation Services Space
DE | 13
14
Existing Structure
Steel Beam and Column
Concrete Slab and Foundation
TS | 15
Structural System
PV Tiles Roofing Green Roof
Cross-Laminated Timber (CLT) Acoustic Panel
Triple Glazed Glass Hempcrete Exterior Cladding Panel Charred Wood Cladding
Glulam Structure
3D Printed Internal Wall
Concrete Slab
Building Footprint Nestled Into Site to Minimize Excavation
TS | 16
Construction Sequence
Stage 1: Demolition of the ground floor existing walls, while leaving the existing steel columns to continue the load and excavation of the pools begin.
Stage 2: The foundation placement will then take place and landscaping works will start too.
*3D printed concrete as structure in the wet area where all the pools are located. Stage 3: Construction of the glulam structures and 3D printed wall work begin.
TS | 17
Stage 4: The construction of glulam structures then followed by the construction of the internal and external walls.
Stage 5: Upon finishing the structures on the ground floor, the above floor will then continue with the construction of the roof.
Stage 6: In the final stage, is the installation of the PV roof tiles cladding and the glass glazing.
*Completed building with landscaping work that started from Stage 2.
TS | 18
Key
3D Technical Chunk
DE | TS | ES 19
Roof to Floor Technical Detail With Ventilation Strategy Scale 1:35
Roof
Exhaust Ventilation
Exterior Wall Detail 1.3D Printed Cladding Panel 2. Aluminum Connector 3. 5mm Waterproofing Membrane 4. 150mm Mineral Wool Insulation 5. Aluminum Louver 6. Triple Glazed Glass 7. 25mm CLT Acoustic Panel Sauna
South West
Roof Detail 1. 4mm PV Tiles Roof Cladding 2. 25mm x 50mm Battens 3. 5mm Waterproofing Membrane 4. 150mm Mineral Wool Insulation 5. 25mm CLT Acoustic Panel 6. 300mm x 150mm Rafter 7. 450mm Glulam Beam
Fresh Air Supply
Internal Floor
Internal Floor 1. 45mm Engineered Wood Floor Finish 2. 70mm Concrete Screed Including Heating Floor 3. 15mm Plywood Panel 4. 50mm x 70mm Floor Joist 5. 150mm CLT Structural Floor 6. 450mm Glulam Beam 7. Fixing Rods 8. 5mm Plasterboard Ceiling Finish
Exterior Wall
3D Printer Wall
Fresh Air Supply
Ground Floor 1. 450mm Glulam Column 2. 4mm Metal Plate Connector 3. 10mm Stone Tiles 4. 50mm Concrete Screed 5. 640mm Concrete Foundation 6. 150mm Mineral Wool Insulation 7. 5mm Waterprofing Membrane 8. 200mm Steel Pile Fresh Air
Exterior
Pool Area
Ground Floor
Stale Air
TS | ES | 20
Sun Mitigation Scale 1:35
Summer Sun
Sauna
Aluminum Louver
Winter Sun
Overhang
Pool Area
ES | 21
Key
Fresh Air
Technical Detail 1 Scale 1:10
Stale Air
Ground Floor Detail 1. 450mm Glulam Column 2. 4mm Metal Plate Connector 3. 10mm Stone Tiles 4. 50mm Concrete Screed 5. 640mm Concrete Foundation 6. 150mm Mineral Wool Insulation 7. 5mm Waterprofing Membrane 8. 200mm Steel Pile
Exterior
Interior Slloted Window
Thermal Line
Roof Detail 1. 4mm PV Tiles Roof Cladding 2. 25mm x 50mm Battens 3. 5mm Waterproofing Membrane 4. 150mm Mineral Wool Insulation 5. 25mm CLT Acoustic Panel 6. 300mm x 150mm Rafter 7. 450mm Glulam Beam
Water Drainage
Gravels
Compacted Soil
Exhaust Ventilation
Interior
TS |ES | 22
Key
Technical Detail 2 Scale 1:10
Fresh Air Thermal Line
Internal Floor Detail 1. 45mm Engineered Wood Floor Finish 2. 70mm Concrete Screed Including Heating Floor 3. 15mm Plywood Panel 4. 50mm x 70mm Floor Joist 5. 150mm CLT Structural Floor 6. 450mm Glulam Beam 7. Fixing Rods 8. 5mm Plasterboard Ceiling Finish
Gutter
3D Printed Wall
Interior
Air Supply
Exterior
Interior
Ventilation Window
Exterior Wall Detail
Interior
1.3D Printed Cladding Panel 2. Aluminum Connector 3. 5mm Waterproofing Membrane 4. 150mm Mineral Wool Insulation 5. Aluminum Louver 6. Triple Glazed Glass 7. 25mm CLT Acoustic Panel
TS |ES | 23
Key
Environmental Section
1. Plant Room 2. Pools Area 3. Sauna
Summer Sun
Fresh Air
Winter Sun
Stale Air
Photovoltic Roof Tile
Solar Energy Exhaust Ventilation 3 Fresh Air Supply 1 2
2
MVHR Unit
Geothermal Heating and Cooling
ES | 24
Key
Water Managment
Rainwater
Rainwater
Rainwater
Gutter
1. Plant Room 2. Pools Area 3. Sauna
Gutter
Gutter 3
Water In Water Out
2
2
Reedbeds
1
Pond
Sand Filter
Water Tank Overflow
City Water
ES | 25
Energy Sourcing
Solar Energy 1. Plant Room 2. Pools Area 3. Sauna Passive Saving
Solar Energy
Passive Income
3
2
2
UEL Campus
Heat energy can be use to heat buildings at UEL.
Solar energy stored in plant room.
1
Heat energy from the pv tiles is collected.
Heat energy can be use to heat the Royal Albert Docks materplan.
Royal Albert Docks Masterplan
ES | 26
Fire Escape Plan: Ground Floor
Key
Fire Exit Escape Route In Case of Fire Break Glass First Aid Evacuation Assembly Point 1:200
Fire Extinguisher 0
1m
N 5m
10m
20m
Fire Alarm Call Point Fire Horse Reel TS | 27
Fire Escape Plan: Mezzanine Floor
Key
Fire Exit Door Escape Route 1:200
Fire Extinguisher 0
1m
N 5m
10m
20m
Fire Alarm Call Point Fire Horse Reel TS | 28
Fire Compartmentation: Ground Floor
1:200
Key Compartmentation A Compartmentation B Compartmentation C
0
180 Minutes 90 Minutes 60 Minutes
1m
N 5m
10m
20m
TS | 29
Fire Compartmentation: Mezzanine Floor
1:200
Key Compartmentation A Compartmentation B Compartmentation C
0
180 Minutes 90 Minutes 60 Minutes
1m
N 5m
10m
20m
TS | 30
31
32