17
18
1,074
06
300
+ 11.3 m
DETAIL 01 07
2,200
19
08
+ 8.6 m 300
20
2,200
09
10
21
12
22
300
+ 3.6 m 23
2,200
10K HOUSE: LIGHT HOUSE
DETAIL 02
2,200
11
300
11,816
+ 6.1 m
24
DETAIL 04
13 14
GF View
+1.1 m 15
742
W ORK SAM P L E | H U NG FA I TA N G | 6 1 7 7 1 0 6 5 8 3 | f ai jar @ gm ai l. com
25
+/- 0 m
DETAIL 03
16
Overall design 17
02
18
17
06 1,074
27
+ 11.3 m
300
+ 11.3 m
DETAIL 01
300
A’
1,074
19
07
07 2,200
2,200
19
08
08
+ 8.6 m
+ 8.6 m
20 300
300
20 09
09 28
10
+ 6.1 m
DETAIL 02
21
12
24
300
300 2,200
+ 3.6 m 23
23
DETAIL 04
13 14
+1.1 m
10
+1.1 m 742
15
742
B’
26
22
+ 3.6 m
B
21
2,200
2,200
11
300
11,816
+ 6.1 m
11,816
+1.1 m
300
+/- 0 m
2,200
2,200
SEE WINDOW PLAN
2,200
01
25
+/- 0 m
25
+/- 0 m DETAIL 03
16
29
16
SEE JOINT PLANS
A
Plan
27
Section B
300
Joints design
Section A
1,074
17
+ 11.3 m
19
04
07 2,200
03
08
LIGHT HOUSE JOINT STUDIES AXON SCALE 1:4
+ 8.6 m 300
20
09 +11.3 m
28
2,200
+ 8.6 m
300
11,816
+ 6.1 m
21
Overall View
2,200
+6.1 m
26
HYBRID JOINTS
300
+ 3.6 m 23
10
2,200
05
+1.1 m FABRICATED FOR 1:2 MOCK UP MODEL 742
CAST JOINTS
25
+/- 0 m
16
29
INTERLOCKING JOINTS
Construction Mock up
2F View
3F View
Design Formicarium Interdisciplinary Creative Incubator W ORK SAM P L E | H U NG FA I TA N G | 6 1 7 7 1 0 6 5 8 3 | f ai jar @ gm ai l. com Strategies
Programtic Organization
Developer Approach: Maximize Floor Area
DESIGN INCUBATOR
Desing Incubator Area: 33,000 gsf
Typical Stacking of 7 floors
Strategy II: “Connective Surface”
Strategy III: “Inhabitable Wall”
ADMIN.
PRODUCTION ARCHI. & LIGHTING
FAB LAB FILM & VIDEO GRAPHIC & BRANDING
I-Beam
The programatic “Beam” are introduced to occupy the “Void”
O-Beam
The “Surface” negeotiates “Beams” to connect them.
INDUST. & MEADIA
Increasing solar eposure with double curvture 1. Insulated channel glasses with transparency varition 2. Insulated plain glasses 3. Metal cladding with white coating
DESIGN & MATERIAL LIBRARY
Beam Typologies
STORAFRONT
STOREFRONT
THEATRE
THEATRE
Water barrier
25mm Extruded polystyrene foam board
INDUST.
2mm Metal flashing
MEDIA THE VOID
W36 x 527 I beam
ADMIN. CAFE & LOBBY DESIGN & MATERIAL LIBRARY
140mm Extruded polystyrene foam board
FAB LAB STOREFRONT
Tectonics Assembles: THEATRE 1. Composition of four panel materials: clear glass, etched glass, zinc panel, amd copper mesh 2. Insulated plain glasses 3. Roof decking with bend profile
1. Continuous metal mesh envelope 2. Insulated plain glasses
10mm Heat soaked toughened glass 16mm Air cavity 8mm Heat soaked toughened glass
3
H-section I-section Offset to provide space
FAB LAB
H-Beam
for both sound and heat
GRAPHIC & BRANDING
ADMIN. CAFE & LOBBY
Tectonics Assembles:
Alternating opague, translucent andinsulation transparent Continuous 1.envelope provides good polycarbonate sheets 2. Insulated plain glasses 3. Metal roof decking with white coating
FILM & VIDEO
INTERDISCIPLINARY
The “Wall” inbatit the periphary of Ice House
Tectonics Assembles:
Tectonics Assembles:
BIKE MANU.
FILM & VIDEO GRAPHIC & BRANDING
INDUST. & MEADIA
The stacking programs kills the “Void Space”
Double layered water barrier 80mm Extruded polystyrene foam board Vapour barrier 150mm Precasted concrete decking W 10 x 30 I beam Suspended ceiling
ARCHI. & LIGHTING
BIKE MANU.
ARCHI. & LIGHTING
BIKE MANU.
THE BEAMS
CAFE & LOBBY
reflection witrh sinle curvature
mize solar exposure
Strategy I: “Programmatics Beams”
DESIGN & MATERIAL LIBRARY
The Ice House has to house the Design Incubator
Sectional Detail
Designer Approach: Maximize Quality
Maximize solar exposure
C-section 3
Increae headroom
Engage high angle sun
Maximize Area 10mm Heat soaked toughened glass 16mm Air cavity 8mm Heat soaked toughened glass
3
1
1
300mm Ventilation air cavity
1 2 1
2
50mm x 100mm Aluminum profile
2
2
Double low E glazing 60mm x 2
Polycarbonate sheet
HD14 x 117 Steel Column
Structural Model
Section + 132'-7"
+ 101'-9"
25mm floor finish Vapour barrier 75mm Extruded Polystyrene foam board 150mm Precasted concrete decking W10 x 30 I beam
+ 88'-10"
+ 76'-3"
+ 69'-0"
+ 49'-0" + 44'-0"
+ 33'-0"
+ 26'-0"
+ 13'-9"
±0'
Massing Model
50mm Waterproof exterior board Water barrier 40mm Extruded polystyrene foam board
URBAN FOLIAGE ROOFTOP SHADING DEVICE W ORK SAM P L E | H U NG FA I TA N G | 6 1 7 7 1 0 6 5 8 3 | f ai jar @ gm ai l. com Concept I: Origami System
Concept II: Foliage Shading
Colo
red
Folding: I
Blac
k&
Blac
k&
Ma
x Ra
duis
: 18
Max Radius: 10 px
Max Radius: 18 px
Max Radius: 25 px
Wh
ite
Wh
RGB Colour
ite
px
Folding: II Red
orig inal
desa
tura
ted
Green
Inve rte
d
Half
Grasshopper Development
ton
ed
Blue
Daylighting Analysis
Output
Input
December - 11.00 am - 02.00 pm
09.00 am
10.00 am
11.00 am
01.00 pm
02.00 pm
03.00 pm
12.00 pm
December - 11.00 am - 02.00 pm
04.00 pm
Solar Radiation | December 1 - December 31
Image Sampler Division Grid factor
Surface Subdivision
Geometry: Circle
09.00 am
10.00 am
11.00 am
01.00 pm
02.00 pm
03.00 pm
12.00 pm
04.00 pm
Solar Radiation | June1 - June30
December - 09.00 am
Design Model
December - 01.00 pm
Dynamic exchange between indoor and outdoor spaces
“A Place to Present, to Integrate and to Distinguish”
Beyond Bouwkunde New Faculty of Architecture, TU Delft W ORK SAM P L E | H U NG FA I TA N G | 6 1 7 7 1 0 6 5 8 3 | f ai jar @ gm ai l. com Programs Organization
Keyplan
Spatial varieties
“The Tower” cafe/ restaurant on top floor
conference facilities
Connections
car + bicycle parking
mega-structure
restaurant & cafe
studio space for young architects
lecture hall
guest rooms
library
Mekelpark
ECOPARK
CARPARK BERLAGE PLAZA
BOUWKUNDE
UW UWE DELFT NIE E NIEUWE ELFT NI DELFT NIEUWE NIEUWE ED T UW DELFT DELF LF NIE T NIEU FT WE DE DEL
NIEU
WE DE
NIEUW E
“Berlage Square”
ECO PARK
ELE. ENG MATHS
MECH . ENG
COMPUTER SCI.
MARTIME ENG
CULTURAL C E N T R E
CIVIL ENG
E
STOP BOUWKUNDE
lecture halls
GEOSCI.
BOUWKUNDE
LIBRARY AULA APPLIED SCI.
studio space for young architects
SPORT CENTRE
Plan “The Bridge”
exposition gallery + cafe
studio
“The Stage”
entrance to public square
Bouwkunde tram station
existing water pond
Public domain & circulation
“The Stage”- studios on cascade platforms ±0.0
gymnasium
“The Tower”
-1.0
Bouwkunde Tram Station
-mega-structure defines vertical zones of about 3 to 4-story high -great flexibility in both spatial and program arrangement -light construction provides intermediate floors
informal seating place for spontaneous meeting
entrance to “The Bridge”
Bouwkunde entrance lobby
+11.4 +11.4 +6.4
+11.4
3-story car & bicycle parking
new roof deck over the campus gymnasium
Dialogue between engineering building
+7.0
-4.0
Bouwkunde reception platform connecting to the Tower & the Bridge
-4.0
“Berlage Square”
±0.0
+8.5
±0.0
The Tower- a mega-structure of hybrid uses
+5.0
Floor plan at 12.5m
0
10
20
50
“The Bridge” -links up the surrounding campus facilities from car park to gymnasium -offers convenient and comfortable travel experience in all climate conditions -gallery, cafe, magazine store arranged along the path way to support spontaneous meeting
“The Stage”
- studios on platforms of various heights -maximum visual contact among students -open plan offers great flexibility for layout arrangement
cafe
gallery
elevator
studio new roof deck
“Berlage Square”
- perfect space for Bouwkunde Party, mass gathering and experimental construction, e.g. full scale facade mock up
bicycle ramp entrance to Bouwkunde
workshop space
Bouwkunde Tram Station
+ Revitalization of Good Prospect Building Design Competition 2010 Open Ground for business meeting with the public
F r o m
R E - n o v a t e
t o
S C A
P
The Facade
E
I N - n o v a t e
>
C
o
n
c
e
p
>
Ordinary Industrial Building
Maximized Natural Lighting
- Basic Column Beam & Slab Structure
- Remove all low wall & frame window to maximize the surface for natural light
Box-window Type Double- glazed cavity
t
Wong Chuk Hang is a post-industrial district under transformation into a robust commercial and hotel hub activities in near future. Good Prospect Building is standing right next to one of the main roads,Wong Chuk Hang Road, which is an important gateway linking southern part of Hong Kong Island to the city centre in the north. In urban scale, with its advantageous location and dominant south-facing façade, renovation of Good
Facade[Green]scaPe Design Criteria
>
1. Program - provide comfortable working space 2. Context - create a new image in the postindustrial district 3. Environmental & Energy Saving - Air quality - Noise - Sunlight - Wind
Facade [Green]scaPe
- Minimize heat gain during summer - Provide sound insulation against the external noise - Improve indoor environment and perimeter area
[1] DEEP REFLECTION
and create a distinctive unique facade [Green]scaPe - By STACK EFFECt, the undulating and carry hot air away
[2] GLARE
+
=
[3] AIR QUALITY & NOISE LEVEL
+
[4] VIEW
+
Revitalization of life Good Prospect Building Design Competition 2010 Second pedestrian in the area. It should embrace the concept of revitalization, sustainability and |green design Prize
Design Parameters of Facade[Green]scaPe
Green-Scape From Re-novate to In-novate building and upgrading necessities for the new programme, but is an IN-novative design for REnovation of Good Prospect Building. It minimizes the structural change meanwhile maximizes the building value for the owner, the user and the context by establishing two [Green]scapes:
- Angle (constant = 40degree) - to deal with 80% direct sunlight - Spacing (80 ~ 400mm) - Width (100 ~ 500mm) - In-and-out position (-2000 ~ 500mm) - Material & color
W ORK SAM P L E | H U NG FA I TA N G | 6 1 7 7 1 0 6 5 8 3 | f ai jar @ gm ai l. com
Design Competition 2010
P
e
v a t e
-
The Facade
>
>
We believe, leading to a
>
[Green]scaPe is sustainable and Box-window Type Double- glazed cavity
Facade [Green]scaPe
- Remove all low wall & frame window to maximize the surface for natural light
- Reduce the wind pressure effects - Minimize heat gain during summer - Provide sound insulation against the external noise - Improve indoor environment and perimeter area
- Specifically designed solar shading device accoding to different parameters and create a distinctive unique facade [Green]scaPe - By STACK EFFECt, the undulating shading skin allows air to flow through and carry hot air away
t
A E vationP of Good
nd green design tivities to come.
n the original design for REhile maximizes [Green]scapes:
p
t
mercial and hotel hub
oads,Wong Chuk Hang ity centre in the north.
renovation of Good on design green design ”lity andBuilding!
The Facade
- Basic Column Beam & Slab Summer -Structure Inverted Landscaped made of recycled - Minimize heat gain during summer toAirflow maximizewindow the surface(Internal for naturalair curtain) Solstice - Provide sound insulation against core tube of printing paper, light echos 10% Exhaust Air returns to AHUthe via Angle external noise against the stepping ground - Improve indoor environment and double-skin cavity
Average Sun Angle
protect from glare due to low relaxingParameters and informalofsetting for resting, Design meeting and walking through angle sunlight at winter time
CORE
Balcony
Extensive Green Roof + Rainwater Harvesting System
- each louvre is treated as a
Electrical System
- Spacing (80 ~ 400mm) - Enlarged Core on one side breaks - Width (100 ~ 500mm) layout houses - symmetrical In-and-out position (-2000 ~and 500mm) - reception/security Material & color check point
the the
- box-double skin facade has relatively higher acoustic control
to 9m deep.
sun angle, which is chosen as a bench mark to minimize about 80% of direct sunlight, while being able to be
system
10% Exhaust Air returns to AHU via double-skin cavity
angular louvre Imprint - dotted Low-E Glass to protect from glare due to low angle sunlight at winter time
[4] VIEW
+
Extensive Green Roof + Rainwater Harvesting System
Air Handling Unit + Water-cooled Chiller
Sectional Detail 1:50
Through box window facade with separate ventilation for each bay
Air return
energy, Denser spacing as sound tobarrier the - more setback balcony to system
Air Supply
Better view at higher level can have a wider spacing to create less obstruction
form buffer area for greenery - box-double skin facade has relatively higher acoustic control
Balcony
and carry hot air away
[2] GLARE
GROUND
[3] AIR QUALITY & NOISE LEVEL
[4] VIEW
Cool Air diffuses from Radiant Chilled Ceiling Beam Stack Effect
+
+ Direct sunlight at winter time - Use of dotted-print glass panel and low-E glass to protect from direct low angle sunlight
Denser spacing as sound barrier - more setback balcony to
Rainwater harvesting system
to 9m deep.
Exhaust air heated by solar energy escape along THE FACADE by
+
- box-double skin facade has relatively higher acoustic control
Infrared Motion Sensors Collected rainwater which are introduced at all areas would supplied on demand connect to the HVAC and lighting system outlets. With 50%-70% Sectional Detail 1:50 Through box window facade with separateThat ventilationsensor for each bay directly. could automatically the system can greatly Deep light switch on the ventilation reduce the demand angular louvre system and light system for drinking-quality Imprint - dotted Low-E Glass to protect from glare due to low at particular area or room mains supply water. The angle sunlight at winter time as any occupant enters system can minimize the to the particular areas impact of erosion and which are covered by the infrared radiation. environment
Average Sun Angle (40 degree)
ovation design pect” Building!
[1] DEEP REFLECTION
1. Program - provide comfortable working space Deep light 2.capturing Context - create new image in the postgooda cross ventilation and industrial district by reflection natural lighting 3. Environmental & Energy Saving angular louvre - Air quality profile - Noise - Sunlight Imprint - dotted Low-E Glass to - Wind Wooden Deck creates - Exterior a
- Angle (constant = 40degree) - to deal with 80% direct sunlight
Better view at higher level can have a wider spacing to create less obstruction
and create a distinctive unique facade [Green]scaPe - By STACK EFFECt, the undulating
perimeter area
WALL (40 degree)
Summer Solstice Angle
sive Green + Rainwater sting System
Panel & Beam +
Limited HVAC system Mitigating urban heat This proposed using water-cooled Design Parameters of chiller. The Double Reducing heat gain from decrease in fan Angular profile Direct sunlight at winter Facade[Green]scaPe Façade ALSO contributes roof as compared - each louvre is treated as a time - Angle (constant = 40degree) 80% HVAC micro- reflector for a specific - Use of dotted-print partly- to deal to with the Controlling storm water standardglassVAV sun angle, which is chosen panel and low-E glass to direct sunlight system. In this way the baseline as a bench mark to minimize protect from direct low - Angular Profile - to reflect light up to 9m deep = > Double Façade can>play about 80% of direct sunlight, prolong the > life spanangle of sunlight - Spacing (80 ~ 400mm) while being able to be - Width (100 ~ 500mm) the role of the roof and enhance the reflected into the office up - In-and-out position (-2000 ~ 500mm) to 9m deep. + the pre-heater for the image of the building - Material & color ventilation air + ventilation duct Ordinary Industrial Natural(mostly Box-window Type Facade [Green]scaPe +Maximized pre-cooler for CEILING Building Lighting Double- glazed cavity night cooling) - Remove all low wall & frame window
Facade[Green]scaPe
ative design for REeanwhile maximizes two [Green]scapes:
+
- Air quality - Noise - Sunlight - Wind
Facade[Green]scaPe Design - Green Wall covers up all theCriteria services
Denser spacing as sound barrier - more setback balcony to
Deep light
an IN-novative RE-novation design authentic “Good Prospect” Building!
Maximized Natural
Lighting Sustainable Measures
Average Sun Angle (40 degree)
=
l and hotel hub [2] GLARE [3] AIR QUALITY & NOISE LEVEL Facade[Green]scaPe Design Criteria [1] DEEP REFLECTION nd line and city dspect exciting mixBuilding of 1. Program -Design provide comfortable working space Competition 2010 2. Context - create a new image in the postWong Chuk Hang industrial district ntre in the north. 3. Environmental & Energy Savingsystem HVAC Extensive Green Roof Radiant Chilled Ceiling
nd orevitalize v a t the e
Summer Solstice Angle
2 to be a Sustainable Green Building, which is: Enhance human comfort and spatial quality for the new program Interplay of old and new Good use of recycled materials
- Basic Column Beam & Slab Structure
sun angle, which is chosen as a bench mark to minimize about 80% of direct sunlight, while being able to be
Direct sunlight at winter time - Use of dotted-print glass panel and low-E glass to protect from direct low angle sunlight
THE FAÇADE THE GROUND
Facade Development
Ordinary Industrial Building Other
- each louvre is treated as a
Better view at higher level can have a wider spacing to create less obstruction
Building Integrated Photovoltaic’s Power generator Podium Garden
10% Exhaust Air returns to AHU via double-skin cavity
Sectional Detail 1:50
Through box window facade with separate ventilation for each bay KITCHEN
Gallery /Artist Studio
THE GROUND
Gallery is more transparent toward the Wong Chuk Hang highway to get more exposure to passer-by
Natural Cross Ventilation
Interior Perspective
Sectional Diagram 1:500 SWITCH ROOM
CAFE
Exhaust air heated by solar energy escape along THE FACADE by stack effect
Balcony
Open Entrance WC
LIFT LOBBY
SECURITY Exhaust air heated by solar energy escape along THE FACADE by
Gallery is more transparent toward the Wong Chuk Hang highway to get more exposure to passer-by
Gallery is more transparent toward the Wong Chuk Hang
highway to get more Natural Cross Ventilation
exposure to passer-by
Exterior Facade View on Wong Chuk Hang Highway
Interior Perspective
Natural Cross Ventilation
Ground Floor Plan 1:200
Exterior Facade View on Wong Chuk Hang Highway
Interior Perspective
Gallery as Entrance
Shortcut Passage
Exterior Facade on Wong Chuk Hang Highway
Site Analysis
Masterplan
1500m from site boundary
7% urban gre
(zone 1500m o
1,280,000 m2 17,210,000 m2 2,940,000 m2 reference:
17% average
Green
Urban Context Program
residential industrial institutions utilities green sport venue
2nd Runner-up
Kai Tak Airport Urban Design W ORK SAM P L E | H U NG FA I TA N G | 6 1 7 7 1 0 6 5 8 3 | f ai jar @ gm ai l. com Developments
Renderings
Development Phasing Plan
Circulation Plan
Harbour Circulation
Development Phasing Plan Circulation Plan Phase I: 202.5 ha
4
metro park metro station hotel airport memorial museum recreational facilties stadiums
2 3
Cultural Entertainment
6
5
Residential SOHO
=
1
Office and Commerial
lightrail station
light rail
Phase II: 510.9 ha
Urban capacitor
view corridor
MTR
public housings infracstructures education units commerial buildings
Land Use Plan Land Use Plan
Human Circulation Plan
Recreational Institutional
Phase III: 134.9 ha high quality housings office and commercial development cultural facilties
Landscape as infrastructure
13
VENUE SPORT A 7 Programs
8
14
PR
1 Main stadium 2 Indoor sports arena 3 Water cube swimming arena 4 Metro hotel 5 Leisure and Culture Service Department Headquarter 6 Existing sport arena 7 Heliport and helicopter pilot training institute 8 Recreation and entertainment waterfront 9 Cruise terminal 10 EYE of Hong Kong 11 Kati Tak Memorial Museum 12 Memorial Park 13 Metro Station 14 Touristic lightrail
Section
OM
EN
+
Mixed use waterfront
+
9
11 Post industrial urban extension
AD
12
E
+
Sports avenue
Landscape Plan Landscape Plan urban green linkage
TIMBER New England Design and Fabrication competition
D (ifferentiated)-LAM
W ORK SAM P L E | H U NG FA I TA N G | 6 1 7 7 1 0 6 5 8 3 | f ai jar @ gm ai l. com CONCEPTS
FORM DEVELOPMENT
+
+
= RULED SURFACE
TYPICAL 2” x 6” LUMBER
3-PLY LAMINATION
DEFORMARION: BENDING
DEFORMARION: TWISTING
ROTATION ARMATURE
TWISTED ELEMENT
D-LAM
UPPER LEVEL ENTRANCE
AGGREGATION PROCESS
AGGREGATION TYPES BSA OFFICES
0, 0, 7
0, 0, 7
D-LAM FABRICATION DOCUMENTARY
D-LAM EXHIBIT
TURN +45o SHIFT 1.75” 1, 0, 3.5
GROUND FLOOR ENTRY LOBBY
TURN -45o SHIFT 1.75” -1, 0, 3.5
CONTINUE TO GALLERY EAST
FLOOR PLAN 0, 0, 0
0, 0, 0
1’ - 5”
8’ - 5” 7’
SECTION
1/4” THK. STL. PLATE 3/4” THK. LAMINATED WOOD, MILLED TO FIT STL. PLATE
STL. PLATE BOLTED TO STRUCTURE BELOW
1/4” - 1” 3D PRINT MODEL
JOINT AXON
FOOTING DETAIL