ARCHITECTURAL PORTFOILO 2012-14 DESGIN BY TONY LAU
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PERSONAL INFORMATION Name: TONY LAU Place: Melbourne, Australia Phone No.: 0416 471 868 Email: lau2005114@hotmail.com
EDUCATION AND WORKING EXPERIENCE Student Intership June-August 2012 Top Link Aluminum Engineering Ltd.
Bachelor’s Degree of Environment
August 2014-15
Major in Architecture The University of Melbourne (AUS)
Associate’s Degree of Sicence
September 2012-14
Major in Architectural Studies City University of Hong Kong (HKSAR)
Higher School Certificate Chong Gene Hang College (HKSAR)
Project 1
The Cloudland
September 2004-12
SKILLS Autodesk AutoCAD 2015 Revit 2015 Mcneel Rhionceros 5 Grasshopper Luxion Keyshot 5 Adobe Photoshop CC Illustrator CC InDesgin CC Microsoft Office Words 2013 Powerpoint 2013 Excel 2013 Google Sketchup Pro Google Earth Pro LANGUAGES Cantonese Mandarin English
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.......... .......... .......... .......... .......... .......... .......... .......... .......... .......... .......... .......... Project 1
The Cloundland Sepetember - October 2014
Project 2
M+ January - May 2014
Project 3
Mid-rise Residential Building October - December 2013
Project 4
Hong Kong Architectural Centre Sepetember - October 2013
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THE CLOUDLAND Project 1
Project 1
The Cloudland
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DESIGN CONCEPT
THE MYSTER OF THE UNDERWATER WORLD
The flexibility of liquid water
The basic form of wave
Penetrating light through water
F Project 1
or the inspiration, it is came from the sea and there are two elements gaining my interest which is the wave form and the voronoi pattern created by penetrating light through the water. Based on these elements, I started to form a shape of container for the 3D voronoi cells.
The Cloudland
Sunlight
Wave pattern (regelar/ retangle shape)
Voronoi pattern (irregular/ biological shape)
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DEVELOPMENT ON ALGORITHMIC FORM EXPERIMENT ON KLEVIN SURFACE
Input of Components
+ Component 1
Component 2
U Division:
96.0
V Division:
91.0
R Parameter:
6.0
T Parameter:
1.0
Scale:
10
Domain 1:
2*Pi
Domain 2:
1*Pi
Component 1 Input of Final form Component 2
Final Form of Container
Framing the Voronoi Cells
Project 1
The Cloudland
U Division:
96.0
V Division:
91.0
R Parameter:
6.0
T Parameter:
1.0
Scale:
10
Domain 1:
2*Pi
Domain 2:
2*Pi
Container - Box Container - Klevin Surface
80 Ramdom Points
1400 Ramdom Points
3D Voronoi Cells 3D Voronoi Cells
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Human Scale 1.8m Tall
Project 1
The Cloudland
Voronoi Cells/ Space
Corresponding Voronoi cells to solar panels
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Solar System
According to Ladybug softwave
Voronoi Cells/ Space
Corresponding Voronoi cells to solar panels
Platform slab
Divide to Functional use and Greenary
Circulation
Vertical transportation - Lift
Overview
Combination of components
Project 1
The Cloudland
DESIGN PROPOSAL MULTI-FUNCTIONAL SPACE
Functional use space Total area: 3, 655m2
Greenery space Total area: 1, 530m2
W
ith the aid of computation and algorithmic softwave, a effective solar system is created in order to maximum the
efficency of energy generation. Based on the location of solar panels, the corresponding voronoi cells is selected for placing slab within them. Five horizontal slab is sectioning the voronoi cells and form the irregular floor slabs. Then, the larger slab-platform are desgined for functional use: small library, resting room, restraurant etc.; and the smaller slab-platform are designed for greenery that providing satisfied environment for visits and user. Since the slab-platform are based on the sunpath analysis, there are sufficient sunlight for plants and vegetation.
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+6.0m
+9.5m
1st Floor Plan
2nd Floor Plan
Total area: 488m2
0
10
20
30
40
Total area: 843m2
80m
Scale: 1/1750
Cylinder Elevator Diameter: 3.00m
+20.0m +16.5m +13.0m +9.5m +6.0m
T
o the circulation, people can arrive their destinations by cylinder elevators with 3m diameter. Every egde of the slab is fenced by glass barrier
with 1.1m height. Therefore, people can enjoy the wonderful view of Oresund. Also, the ground level is placed with the grass that providing a huge public space for people resting or picnic.
Project 1
The Cloudland
+13.0m
+16.5m
3rd Floor Plan
+20.0m
4th Floor Plan
Total area: 749m2
5th Floor Plan
Total area: 1, 272m2
Total area: 1, 664m2
5th Floor 4th Floor 3rd Floor 2nd Floor 1st Floor
Elevation A
0
5
10
15
20
40m
Scale: 1/600
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TECTONIC ELEMENTS AND PROTOTYPES
C
loudland is a architecture constructed by large framing system using node join. The
voronoi cells is connected together by steel rod (Dia: 200mm)and steel node (Dia: 400mm), the solar panel is install in the pit (THK: 100mm) of the special steel rod. Structural joint members for a space frame system with a node joint having threaded apertures, structural strut members with threaded end sections, and a connecting member.1
Node Jointing Syste
Structure Frame of Voronoi Cells
Project 1
The Cloudland
4) 5)
PANEL FRAME
STEEL ROD WITH PIT (Diameter: 200mm)
THK.: 400mm
Structural Components
Size (Diameter/ Thinkness)
1)
Steel Node
D: 400mm
2)
Connecting Stick
D: 100mm
3)
Steel Rod
D: 200mm
4)
Steel Rod with Pit
D: 200mm & THK: 100mm
5)
Panel Frame
THK: 400mm
3)
STEEL ROD Diameter: 200mm
em
1)
STEEL NODE Diameter: 400mm
Tectonic Elements
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CLOUDLAND
PUBLIC FUNCTIONAL
Project 1
The Cloudland
Kastellet RING OF BASTIONED RAMPARTS
L SPACE
THE LITTLE MERMAID BRONZE SCULPTURE
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Project 1
The Cloudland
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CLOUDLAND PERSPECTIVE AT 7PM SUMMER
Project 1
The Cloudland
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M+ PROJECT 2
Project 2
M+
27
DESGIN CONCEPT
THE ORIGIN OF HEADQUATER
SITE AREA: 1522m2
SITE LOCATION
THE SHAPE OF SITE
THE SHAPE OF SITE
FACADE DESGIN
THE SIGNATURE OF THE HEADQUATER
SUP ELE
PRECAST CONCRETE FACADE PATTERN M-MODULE PATTERM
Project 2
M+
PRECAST WINDOW WALL
PODIUM (G/F - 2/F) 879.73m2 715.01m2 (81.28%) 164.72m2 (18.72%) 67.2m
Floor area: Floor plate: Core:
TOWER II (12/F - 27/F)
TOWER I (3/F - 10/F) 879.73m2 721.16m2 (81.98%) 158.57m2 (18.02%) 33.6m
Floor area: Floor plate: Core:
TOWER I (3/F - 10/F)
Floor area: Floor plate: Core:
17.7m
TOWER II (12/F - 27/F) 879.73m2 721.16m2 (81.98%) 158.57m2 (18.02%)
PODIUM (G/F - 2/F)
80
290
290
290
TYPE II
8400
8400
TYPE 1
PPORTING EMENTS
290 FACADE PATTERN
80 290
TYPE 1 Unit in mm
290 TYPE II Unit in mm
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FACADE DETAIL
THE DETAIL OF M FACADE
FS-01
Southern Facade
Project 2
M+
PARTIAL FACADE ELEVATION 1:40 @A3
FS-02
PARTIAL FACADE SECTION 1:40 @A3
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FACADE DETAIL
THE DETAIL OF M FACADE
PERSPECTIVE EXTERIOR VIEW
Project 2
M+
14/F FLOOR PLAN 1:500 @A3
PERSPECTIVE INTERIOR VIEW
FS-03
PARTIAL FACADE PLAN 1:40 @A3
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GROUND FLOOR PLAN 1:400 @A3
Project 2
M+
PARTIAL AMENITY PLAN 1:25 @A3
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PARTIAL AMEN 1:20
Project 2
M+
NITY SECTION 0 @A3
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PARTIAL AMENITY 1:5
Project 2
M+
Y SECTION DETAIL @A3
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RENDERING PERSPECTIVE
GROUND FLOOR PLAN 1:300 @A3 Project 2
M+
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FIRST FLOOR PL 1:600 @A3
RENDERING PERSPECTIVE
TYPICAL FLOOR P 1:600 @A3
Project 2
M+
LAN
PLAN B
SECOND FLOOR PLAN 1:600 @A3
HEADQUARTER PLAN 1:600 @A3
TYPICAL FLOOR PLAN A 1:600 @A3
ROOF PLAN 1:600 @A3
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ELEVATION A 1:500 @A3
Project 1
M+
ELEVATION B 1:500 @A3
45
SECTION A 1:500 @A3
Project 2
M+
SECTION B 1:500 @A3
MODEL PHOTO 1:300
47
Project 2
M+
49
MID-RISE RESIDENTIAL BUILDING PROJECT 3
Project 3
MID-RISE RESIDENTIAL BUILDING
51
DESGIN CONCEPT
THE MAGIC OF THE GEOMETRY
+ FACING 3 STREETS & RECTANGLE MODULE
WINDMILL FORM
Idea is coming from the site condition which is facing three streets and have many vehicles pass by that showing vitality of the site. Hence, i development three faces into three wings of building, like a windmill, which represent the site vitality by showed the movement of building (wingmill).
BASIC MODULE
TYPE A FLAT
TYPE B FLAT
TYPE C FLAT
TYPE D FLAT
For modular planning, the flat is created from a basic module which is 6m(L)x6.6m(W)x3.15m(H). Developing from the basic module, there are FOUR type of typical flats, including 2 modules for type A, 3 modules for type B and C, 4 modules for type D. There are FOUR typical floor plan from type A to D, which includes 79.2m2 for type A, 118.8m2 for type B and C, 158.4m2 for type D.
Project 3
MID-RISE RESIDENTIAL BUILDING
EXTENSION
WINGS’ RELOCATION
TYPICAL FLOOR FORM
3D DIAGRAM OF 4 TYPICAL FLATS 53
MODULAR DESIGN
EFFECTIVE AND EFFICIENT WAY
TYPICAL ROOM SEPARATION 1:100 @ A3
ROOM DATA
TYPICAL WINDOW LOCATION 1:150
Project 3
MID-RISE RESIDENTIAL BUILDING
WINDOW A
FOR LIVING ROOM & BEDROOMS
WINDOW B
FOR KITCHEN & BATH ROOM
WINDOW C
FOR BEDROOMS
SPACE PLANNING: The basic space module is 600x600mm. Then, flat layout is based on this module as the table showed.
MODULAR WINDOW: The type of window is separated into 3 types: 900mm(W) with mixed un-openable window and openable window for Kitchen and Bath room; 1800mm(W) with mixed un-openable window and openable window for Living room and Bedroom; 1800mm(W) with un-openable window for Bedroom. And, All of the window type is 1800mm(H), The flat could fill up with sunlight by using those large window.
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SITE PLAN 1:250 @A3
Project 3
MID-RISE RESIDENTIAL BUILDING
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TYPICAL FLOOR PLAN AT 5/F 1:400 @A3 Project 3
MID-RISE RESIDENTIAL BUILDING
TYPICAL FLOO 1:400
OR PLAN AT 6/F 0 @A3
TYPICAL FLOOR PLAN AT 7/F 1:400 @A3 59
ELEVATION A 1:400 @A3
ELEVATION B 1:400 @A3
Project 3
MID-RISE RESIDENTIAL BUILDING
61
Project 4
HONG KONG ARCHITECTURAL CENTRE
63
DESGIN CONCEPT THE
PLANE
STAIR
SUBTRACTION
PHOTOS OF CURRENT BUILDING FORMER CENTRAL MARKET
Project 4
HONG KONG ARCHITECTURAL CENTRE
+ CONTIUNOUS PLANE
PLANE
STAIR
In the begining, i separate the plane into different postion and leve. However, there is not logical and then i link the planes together becoming a continuous plane. After developing the draft concept of continuous, i link the idea of continuous plane and stair together, to make the form of continuous plane like a stair.
STAIR PLANE
From the site visit of Bridges Street Market, there are some interesting elements i want to maintain, which are Plane, Stair, Subtraction of the original building. One of the interesting components is the subtraction in the facade. i make use of this concept and more wide use of this pattern in new building.
IN AND OUT
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DESGIN DEVELOPMENT
THE TRANSFORM OF GEOMETRY
STAIR
+
CONTINU
ORIGINAL SITE SHAPE (2D)
LATTICE PATTERN
ORIGINAL SITE SHAPE (3D)
Separate the form into lattice pattern according to the column of original building. Then, Arrange lattice into two different shape to ensure that it including both 1st & 2nd floor. And Remove spare lattice to create basic form of new building
CONTINUOUS PLANE
Project 4
FRONT ENVELOPE
HONG KONG ARCHITECTURAL CENTRE
BACK ENVELOPE
UOUS PLANE
FLOW A
FLOW B
CONCEPT MODEL (FORM)
Based on the concept of continunous plane and stairs, i keep going to develop this concept into the evenlope design.
OVERALL ENVELOPE CONCEPT MODEL (ENVELOPE)
67
TECHNICAL ASPECT
THE STRUCTURE OF THE BUILDING Load-bearing Wall 300mm (THK.)
Structural Beam 300mm (Depth)
Structural Column 490mm (L)x 290mm(W)
3D STRUATURAL VIEW
Project 4
HONG KONG ARCHITECTURAL CENTRE
3D STRUATURAL VIEW WITH ANNOTATION
m
NUMBER OF STRUCTURAL CLOUMNS: 23 NUMBER OF STRUCTURAL BEAMS:
101
NUMBER OF LOAD-BEARING WALLS:
4
NUMBER OF STAIRS:
7
STRUCTURE MATERIAL:
SUSTAINABLE CONCRETE
STRUATURAL PLAN VIEW
To enhance the diversity of the building, some part of envelope part transfer to the glass chairs. This design also improve the spare space for public.
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TECHNICAL ASPECT
THE DETAIL OF FACADE DESIGN
THE HIGHLIGHTED DETAIL OF FACADE
Project 4
HONG KONG ARCHITECTURAL CENTRE
PARTLY SECOND FLOOR PLAN 1:100 @ A3
GLASS PANEL PLAN DETAIL SECTION 1:10 @ A3
GLASS PANEL DEATAIL SECTION 1:5 @ A3 PARTLY SECTION 1:100 @ A3 71
GROUND FLOOR PLAN 1:200 @ A3
FIRST FLOOR PLAN 1:300 @ A3
Project 4
HONG KONG ARCHITECTURAL CENTRE
SECOND FLOO
1:300 @ A3
OR PLAN
3
THE MODEL PHOTO 1:100
ROOF PLAN 1:300 @ A3
73
ELEVAT
1:150
ELEVAT
1:150
Project 4
HONG KONG ARCHITECTURAL CENTRE
TION A
0 @ A3
ATION B
0 @ A3
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SECTIO
1:150
SECTIO
1:150
Project 4
HONG KONG ARCHITECTURAL CENTRE
ON A-A’
0 @ A3
ON B-B’
0 @ A3
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