C H I N K I A T
D E S I G N RECORDS
Curriculum Vitae
MAIN WORKS Semi detached house Utility building A&A Iconic Mosque Precint-specific, community-driven recycling Framework sports park Hydro-electrical infrastructural networkk Buona Vista Residences
OTHER PROJECTS Dover fab lab One finlayson green Developing composite wood for 3d-printing sunny. Let’s put a smile on that face Market residences / SUTDx / Hong lim parkk
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SIA CHIN KIAT Project Manager, Designer, Musician Contact +(65) 97980667
Email : siachinkiat@gmail.com
ABOUT
SKILLS
I am a highly motivated team-player who is seasoned in high-stress environments, confident in verbal communication and skilled in management of multiple stakeholders in fast-moving projects.
Soft skills
Design management Project management Architecture contract administration
Hard skills
Rhinoceros Grasshopper AutoCAD SketchUp Microstation
I am experienced in design and construction management, authority compliance and contract administration, with an interest in sustainable design, music and sports.
Photoshop Illustrator Indesign Premiere pro Word, Excel, Powerpoint
WORK
EDUCATION
2018 - Formwerkz Architects present Full Time Architectural Designer Lead the schematic to post-completion of private landed house Lead the schematic to construction of A&A utility building Completed Professional Practice work experience and Case study
2013 2017
Singapore University of Technology & Design (SUTD) B.Sc (Architecture & Sustainable Design) M.Arch (Architecture) GPA : 4.6/5.0 Graduated Summa Cum Laude
2014
Massachusetts Institute of Technology SUTD-MIT Global Leadership Programme
2011 2012
5th Singapore Infantry Regiment Platoon commander of 22 men during National Service Interim Company commander during reservist
2005 2010
Hwa Chong Junior College
2017
2016
Pomeroy Studio 3d model production in Revit Authority submission drawings Low-resolution render production DP Architects Mall design typologies research Physical model-making 3d modeling Presentation preparation
G.C.E. ‘A’ Levels Art Elective programme
INTERESTS
AWARDS
2013 2015
2013
SUTD Merit Scholarship
2016
ASD Design Excellence Award (Merit)
SUTDio Events Director Planning and conducting of art/archi events
2013 2015
SUTD Bands Logistics Director Prem1ere musical director Open Mic Sessions 5 & 7 organising director Official opening combined concert musician
2016 now
Highgate Crashers Wedding Band Creative music director
SEMI
Time
DETACHE D
2 01 8 - present Form werkz A rc hi tects
Credits
HOUSE
The project was conceptualized by a private developer to be rented out to expats and in the future to be a retirement home for his family.
Un d isclosed
Location
As a result the project was focused on value engineering and providing flexible spaces that can be converted in the future. I joined the this construction project in the tender stage, and worked closely with the client with suppliers and direct contractors. Under guidance, I managed Authority compliance, contract administration, project management, and design management of the project (through the COVID-19 circuit breaker) up till T.O.P. stage.
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Working perspective
Working Section
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UTIL ITY
Time
Credits
Location
BUIL DI N G
2 01 9 - present
Formwerkz Architects
A& A
This development was a rejuvenation project to an existing unused building, which involved a facade refresh and an insertion of a central staircase and skylight.
Un di sclosed
Like many addition and alterations for buildings constructed decades ago, alot of focus was placed on authority compliance and waivers the retained portion of the development had be constructed from out-dated guidelines. I assisted in this project from its conceptualization, including designing for authority compliance, client and consultant coordination and tender.
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Overall perspective
Sectional perspective
Facade
The concept for the facade design of the utility building is to sensitively preserve the original character of the existing building while giving it a facelift with a modern twist. The prominent clay-colored brickface facade, common in such buildings built in the 1970s, is replaced with glass blocks to retain the monumental appearance while imbuing with a sense of lightness. It also enables natural light into the internal spaces from the front facade. The rows of angled windows between the two solid facades are converted into external corridor breakout spaces with planters to add greenery and depth to the facade. Perforated metal screens further enhance the modern aesthetic while concealing mechanical ventilation openings that needed to be diverted to the front and as well as other M&E equipment on the rooftop.
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ICON IC
Time
Credits
Location
MOS QUE
2 01 8
Formwerkz Architects
This design competition called for a mosque that would be placed in a prominent position in a city. The location would also serve as a green connecter.
Un di sclosed
We proposed to place all the main spaces of the mosque underground, following a gridline that is aligned to Mecca, freeing up the ground floor garden to be aligned with the green connector. We also designed an arabesque canopy shelters the entire mosque and serves as a recognizeable landmark from afar. My contribution in this project was the parametric design of the roof and columns, as well as the production of coloured plans.
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Roof concept
In order to achieve a modern rendition of the arabasque pattern, I made use of grasshopper and rhinoceros to automate the panelization of the roof/column structure.
Roof perspective (credits : Formwerkz Architects)
Roof perspective 2 (credits : Formwerkz Architects)
Section Y-Y1 (credits : Formwerkz Architects) 9
Roof plan
Ground storey plan
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Basement 1 plan
Basement 2 plan
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PRECIN T- S P E CI F I C COMMU N I TY- DRI V E N RECYCLI N G Time Credits
Location
M a sters th esi s Yeo Ka ng S hu a (I n s)
FACI L I TY
T h i s t h e s i s e x p lo re s t h e w a st e fa c i l i t y a s a n a rc h i t e c t u ra l ve h i c le fo r w a st e e d u c a t i o n .
Ju rong E a st Ga tewa y, S i ng a p ore
I t i n ve st i g a t e s t h e a rc h i t e c t u ra l a n d lo g i s i t i c a l i n t e g ra t i o n o f a w a st e re c yc l i n g fa c i l i t y i n t o p re c i n c t s p e c i f i c amenities. T h ro u g h t h e co - lo c a t i o n o f i n d u st r i a l p ro ce s s e s a n d p u b l i c u p c yc l i n g p ro g ra m m e s , i t a t t e m p t s t o a c h i e ve a t y p o lo g y t h a t e le va t e s t h e v i s i b i l i t y o f w a st e m a n a g e m e n t i n t h e lo c a l co m m u n i t y, w h i le b e i n g a n c h o re d b y i t s a rc h i t e c t u ra l a n d lo g i st i c a l i n t e g ra t i o n .
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BRIDGE FROM JCUBE
COMMUNITY FARM
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The Jurong gateway is chosen as a flagship recycling facility, to act as the testbed for the integration of waste management to the supermarket logistical and spatial design.
135 Jurong Gateway road
JURONG GATEWAY
Amenity type NTUC fairprice Recycling Households
CLEMENTI TANGLIN
Boundary of influence Existing recycling factories Existing recycling factories Incineration plants
NTUC FAIRPRICE NETWORK AS A VEHICLE FOR WASTE MANAGEMENT precinct-specific, community-driven recycling facility
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FENGSHAN resi
mall
amenities recycleables
stand alone Over-emphasis on convenience
Lack of community Lack of involvement Architectural visibility NTUC fairprice position
MARINE PARADE
The research of recycling culminates in 3 observed problems. First, a worrying invisible waste management infrastructure creates too much emphasis on convenience of waste management for the public.
Given these problems, it is observed that the existing NTUC fairprice network of 138 stores are distributed evenly in extremely public locations of most precincts in Singapore.
This is invariably tied to the other side of the problem, which is a lack of community involvement.
Being hubs of plastic and food waste, and being a necessary amenity that draws crowds from all ages, it can be re-imagined to act as the centre for waste exchange.
The third reason is a lack of architectural visibility due to the urban plan that exiles waste management facilities to the periphery of the country.
PROBLEMS
OPPORTUNITY 27
COMPRESSION PLASTIC BRICK
shredder
BALING
vertical Baler
water vapour compressor
PLASTIC RECYCLING TECHNIQUES
DIY PLASTIC PROCESSING MACHINERY
FOOD TO WATER
compression molder
extruder
minishredder
injection molder
eco-digester (Eco-wiz)
FOOD RECYCLING TECHNIQUES FOOD TO COMPOST
VERTICAL AQUAPONICS
VERTIAL CONVEYANCE SYSTEM
eco-composter (Eco-wiz)
aquaponics A-frame rack (Comcrop)
vertical conveyor system (NERAK)
WASTE CONVEYANCE SYSTEMS
HORIZONTAL CONVEYANCE SYSTEM
OTHERS
OPPORTUNITIES IN TECHNOLOGY
precinct-specific, community-driven recycling facility
horizontal Conveyor belt
bin-unloader (Eco-wiz)
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1m
500k
500k
1m
1.5 m
Weight / tonnes
1.5 m
tons
construction debris slag ferrous tyres non-ferrous wood horticulture paper glass sludge food textile plastics others tons
1.5 m
1m
500k
500k
RECYCLED
1m
1.5 m
WASTAGE
PLASTIC AND FOOD AS RESOURCE
LOCAL RECYCLED PLASTIC
FRESH CROPS
Composting technology
EXPORT
SEALED IN UPCYCLED CONSTRUCTION
COMPOST
Handcraft / Simple machining
BALED PAPER
Baling
Super heat water compression
CLEAN
STORAGE FORM
STRUCTURAL BRICKS
Shred & Sort
CONTAMINATED
PAPER WASTE
PLASTIC WASTE
Consumer usage
COOK AND RESELL
Vertical conveyance system
CLEAN
Composting technology
Vertical conveyance system
‘UGLY’ FOODS
SCRAPS
FOOD WASTE
PROPOSED LOGISTICAL FLOW
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clean shredded plastic
contam plastic
compression plastic bricks
clean plastic
Central core
clean paper waste
VERTICAL WASTE AND PRODUCT EXCHANGE precinct-specific, community-driven recycling facility
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scrap food
fresh produce & ‘ugly’ foods
The spatial design of the supermarket and recycling facility is arranged around a 3 main vertical exchange cores : plastic (left), circulation (centre), and food (right), each serving the surrounding spaces.
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GROUND FLOOR
LEVEL 2
Sorted plastic is sent up to the upcycling lab for creative reuse. The conveyor system passes through the ground floor, visible to the heavy pedestrian traffic. Waste plastic is sorted indivually into clean and contaminated before depositing.
To JCUBE
PLASTIC SORTING ROOM
GROUND
J CUBE
precinct-specific, community-driven recycling facility
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Fresh food supplied from production farm, leftover fresh food supplied from Fairprice hybrid mart.
FRESH FOOD COURT
Parking spaces are shared between food, plastic and paper export and import.
Fresh foods is sent down from the production farm to be sold. Chosen fresh foods are sent up to to the outdoor food court to be cooked directly.
Food scraps and unsold foods are transported up to the food court (on top) for use,and to the compost level for composting.
To Jurong East MRT
FAIRPRICE HYBRID MART
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Above the upcycling lab, an upcycling production factory focuses on mass production of remainder plastic into weaved tote bags to be sold in Fairprice hybrid mart.
PLASTIC REPRODUCTION FACTORY
LEVEL 4
Sorted plastic is stored and upcycled in the upcycling lab. It provides the tools and space for individual creative exploration of plastic recycling.
PLASTIC UPCYCLING LAB
LEVEL 3
precinct-specific, community-driven recycling facility
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PRODUCTION FARM
Transfer of goods and heavy equipment between production farm and admin office in the composting lab.
Food scraps are treated through the eco-digester to produce non-potable water; as well as the eco-composter to form compost. Non-compostables are packaged and exported.
LOCAL COMMUNITY FARM
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FRAMEWORK
Time
Credits
Yea r 4 S tudi o
Yui ch i Koda i (i ns) Ca m i el Wei j enberg (i ns)
Location
M ou n t Fa ber, Si n g a p ore
SP ORTS
PARK
Mount Faber is the final destination of Southern ridges, a popular Singaporean hiking route, making it a site of growing potential for tourists, explorers and sports enthusiasts. Yet, the allure of the site, which lies on its beautiful natural greenery, is a gated scenery that can only be seen but not experienced. Riding on these ideas, a systematic framework is proposed to colonize these green spaces. The modular wooden construction system is used to inspire the continuous organic growth of the sports program.
4
61° - 90° 46° - 60°
future pedestrian pathways
31° - 45° 16° - 30° 1° - 15°
visual slope analysis / predicted pedestrian pathways
5
two joints
two layers
slanted wall
floor
MODULAR CONSTRUCTION SYSTEM Using a modular joint system adapted from the mortise and tenon joint using in the malay vernancular roof, an 60 degree angled grid is created. This grid allows for construction of surfaces angled along 5 different planes. The system is designed with the vision of creating a constantly growing sports complex, where structure can be continually added to create new spaces where appropriate. The multi-faceted system also can anchor to the changing slope conditions of Mount Faber.
top : construction variations bottom : Long section right : long film for four projectors (anthony mccall) far right : vernancular malay house construction
framework sports park
6
roof tiling
roof 60 °
facade
DY N A M I C P L A N E S The spatial structural system allows for slanted walls to meet each other alone , evoking the spatial effect of intersecting planes from “the long film for four projectors” by Anthony Mccall.
flooring
The spatial structural system, acts as a framework to lay floors, walls, facades, stairs, furniture, and exercise equipment such as climbing walls.
structure
flat
plinth
B1 PLAN
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climbing room
restaurant overlooking gym
canopy structure
key plan
framework sports park
8
LONG SECTION
B1 PLAN 9
framework sports park
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11
HYDR O- E L E CTRI C IN FRAS TRUCTURAL N E TWORK Time
Credits
Term 8 Stu di o
E va Ca stro (I n s) I g n a ci o L op ez B uston (I ns ) Federi co Ruberto (I ns) Jez a m i ne (tea m ) A u Cheuk Yee (tea m ) Ch a n Wei Ji e (tea m ) E e H ui Ji e (tea m )
Location
M a d i ri ver, N ep a l
The hydro-electric infrastructural network in Madi river is an exploration of system based landscape design as a driver for urban development. Applying this idealogy to the unique geographical and economical conditions of Nepal, the project envisions the urban possibilities through the use of a parametric master-planning framework that integrates landscaping techniques with infrastructural systems to create a self-sustaining urban network within the rural regions of the Madi River region.
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braided filtration channels
pedestrian walkways
electricity nodes
electricity routes
existing channels
Neighbourhoods
Conservation Area Conservation Area
Farmland
waterbanks Tourism / Recreation
Park
Elements of the hydro-electric infrastructural network
13
d by
due as a Pokhara
d
ods.
Seti River
Madi River
MAIN RIVERS TRIBUTARIES
countour lines main rivers tributaries
roads hierarchy
agriculture 7
settlements E XTE N SI VE RI VE RS, UN DULATING MOUNTAINS
EXISTING URBAN CONNECTIONS
Madi river runs alongside Seti river. It runs from head waters in the North to the South, with many tributary rivers joining to each river. The two rivers join at the southern end of the site to form the Seti Gandaki river.
The largest city in the site is Pokhara (North-west). The Seti River runs through it. Pokhara is connected by the Prithvi highway to Kathmandu.
The river is straddled by high mountains on both sides, creating a continuous valley condition.
The existing rural settlements are scattered around the Seti and Madi river, disconnected from the highways.
existing site conditions
hydro-electric infrastructural network
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landslide risk (slope) >60°
proximity to water source
>30°
>5km
potential connections from villages to water
increasing water pollution Through visual data analysis and research, three geographical problems and opportunities were found.
<100m
PROBLEMS Electricity shortage Consistent landslide induced floods
Pollution of sole water source in rural areas
AND OPPORTUNITIES Extensive hydro-electric potential River channel braiding as flood control Self-sustaining phyto-remediation
15
500m
village cluster
electrical supply
braided filtration channels
hydro-electric infrastructural network
16
left : masterplan of hydro-electric infrastructural network right : site 3 plan
17
ELECTRICAL NETWORK
POWER 1.52 x 5 x 9.81 74.56 kW 6250 households
HOUSEHOLD CLUSTERS
POWER 1.52 x 5 x 9.81 74.56 kW 6250 households
hydro-electric infrastructural network
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penstock 0 - 16m 17 - 90°
depth
urban spaces 16 - 32m 8 - 17° filtration channels 32 - 48m 0 - 6°
DIVERSION POINT
width
DIVERSION WEIR PATH
173 - 230m hiking
115 - 173m park
58 - 115m waterfalls water retention lake
0 - 58m penstock water sports wetlands
PENSTOCK
90 m 80 m 70 m 60 m TOPOGRAPHY
50 m 40 m 30 m 20 m 10 m
SURFACE RUNOFF
left : Meshing of urban & infrastructure right : grid construction
The main strategy for addressing all three problems at once was the redirection of water. The redirection allows for the introduction of hydro-electric and filtration infrastructure. At the same time, an urban masterplan grid (the mesh) is designed using the flowing pattern of the river braids. This allows for the organization of new passive urban spaces that support existing rural communities as well as bridging the tourists and communities from Pokhara.
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water filtration infrastructure plan
sedimentation pond
fishery
surface flow
mini sedimentation pond
sud surface flow wetland
biodiversity pond
river
water filtration infrastructure section hydro-electric infrastructural network
20
ALNUS NEPALENSIS is common in the mid-mountainous Himalayan ecosystem. It grows fast in most conditions.
Nepalese Broom Grass is highly effective in preventing soil erosion. It is also a significant source of income as brooms and woven materials.
IRIS PSEUDACORUS (yellow iris) absorbs heavy metals. It can potentially be overly-invasive.
FESTUCA RUBRA (red fescue) achieves phytostabilization of mercury.
EROSION CONTROL
GABIONS prevent movement of material downslope.
heavy metals
arsenic
DUCKWEED is the main plant to remove Arsenic from water. Also absorbs iron, zinc, cadmium and lead.
PHYTOPLANKTON
algae
AZOLLA CAROLINIANA (water velvet) is bio-fertilizer for wetland paddy (through nitrogenfixing), and sustainable livestock feed.
PHYTO-REMEDIATION
TYPHA LATIFOLIA (broadleaf cattail) absorbs Arsenic, Cadmium, Lead and Nitrogen from the water.
Nymphea alba Reduce the growth of algae in ponds and lakes, to reduce growth of mosquitoes in ponds
BENTHOS
COPPER MAHSEER
RAINBOW TROUT
FOOD-CHAIN
ZOOPLANKTON
21
visualization 1
visualization 2
hydro-electric infrastructural network
22
visualization 3
23
BUON A
Time Credits
Location
VIS TA
Term 6 Stu di o Dong m i n Sh i m (I ns)
B uona Vi sta , S i ng a p ore
RE S I DE N CE S
The existing Buona Vista Site has an abundance of natural greenery as well as the green corridor. These elements serve as a visual buffer from commercial buildings across the road, as well as natural screens and shades. Using the natural architectural properties of the greenery as inspiration, this project conceptualizes the unit as a modular block that geometrically stacks around the trees, creating interlocking courtyards amongst an agglomeration of interior and exterior living spaces.
36
resi
core
amenities
commonwealth ave
ground
building masses
37
site plan
concept sketch
figure ground
greenery
amenities residential business green
buona vista residences
38
ground floor plan
39
perspective 1
perspective 2
buona vista residences
40
overall unit plan
41
section
200.00
100.00
The facade design makes use of a flexible full height louvre system along the perimeter of each volume. When open, the user is directly confronted by the massive trees that extend from the ground floor.
200.00
facade section
The facade design makes use of a flexible full height louvre system along the perimeter of each volume. When open, the user is directly confronted by the massive trees that extend from the ground floor.
key plan
buona vista residences
mansion unit plan studio unit plan
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43
44
OTHE R
P ROJ ECTS
45
ENTER
LASERCUTTER
3D PRINTING
MEETING ROOM
ASSEMBLY
STUDY AREA
PERSPECTIVE FROM ASSEMBLY AREA
AXONOMETRIC other projects
46
STATIC EXHIBITION
DYNAMIC EXHIBITION
EXIT
ROOF
DOVER FA B L A B
Time Credits Location
Term 4 Studio Aloysius Lian(Ins) SUTD Dover campus, Singapore
D BACK ELV
C
B
A
This project combines design and fabrication spaces, as well as dynamic and static exhibition areas. The concept is to express the unity of these programs by using a single continuous wall to describe every space, eventually twisting to form the multifaceted roof. Each wall is angled to guide specific view vistas from the peripheral spaces into the central space. This is emphasized in the dynamic exhibition where the slanted walls provide the dual purpose of a warping corridor space, as well as direct views down into the assembly space.
FRONT ELV
C
D
B
A
SITE PLAN
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FACADE DETAIL SIDE VIEW
FACADE DETAIL FRONT VIEW
MASSING MODEL 1:1000 KEY PLAN
E1 N
LEGEND
FINLAYSON GREEN 1
9000
2
9000
3
9000
4
9000
5
9000
6
9000
ENCLOSED OFFICE
7
MEETING ROOM
9000
9000
9000
9000
9000
9000
OPEN PLAN OFFICE CORE SUPPORT ROOM
9000
9000
A
DATE
B 9000
9000
22/11/2015
9000
E
9000
HIGH ZONE LIFT LOBBY
MID ZONE LIFT LOBBY
LOW ZONE LIFT LOBBY
CLIENT
F
2 FI
BUILDING INDUSTRY MENTORSHIP & CO
BU ME
9000
9000
PROJECT
2 FINLAYSON GREEN
RAFFLES QUAY
E2 -
9000
-
D
ROBINSON ROAD
-
9000
E3
9000
9000
C
8 Somapah Road Singapore 487372
G
SHELTERED DROPOFF
8 Som
DRAWING LEVEL 2 PLAN
GRO
DETAILS
TELEGRAPH STREET
1:500 @ A3 BY AUDREY
-
E4 -
ONE RAFFLES QUAY
DRAWING NUMBER
DR
AP02
HONG LEONG BUILDING GROUND FLOOR PLAN 1:1000 0
L2 PLAN
other projects
10
20
CARR
35 50
C
m
48
9000
9000
9000
9000
9000
9000
9000
9000
MID ZONE LIFT LOBBY
LOW ZONE LIFT LOBBY
MID ZONE LIFT LOBBY
HIGH ZONE LIFT LOBBY
LOW ZONE LIFT LOBBY
9000
50
3000
1000 1500 HONG LEONG m BUILDING
900
MENTORSHIP & CO
My main contribution was the design and development of the 8 Somapah Road Singapore 8 Somapah Road Singapore 487372 meshed facade detail. It was 487372 designed to maximise porosity to DRAWING DRAWING facilitate views, but at the GROUND same time maintain the sense of priGROUND LEVEL PLAN LEVEL PLAN vacy and security in a high rise building. ONE DETAILS DETAILS RAFFLES QUAY 1:500 @ A3 1:500 @ A3
1000 1000
BY AUDREY
BY AUDREY
DRAWING NUMBER
DRAWING NUMBER
1500 AP01 3000 3000
1500 1500 20
1000
1500 1500 HONG LEONG 0 10 m BUILDING
CLIENT
1000
AP01
900
The facade structure consists of modular frames of vertical thin rods slab by support armatures. The rods CARRattached onto the the building CARR act as a second facade that diffuses the otherwise direct sunlight into office spaces, and provides a sense of security in the higher floors of the building.
PARTIAL FACADE ELEVATION, 1:50
1000
PARTIAL FACADE PARTIAL ELEVATION, FACADE ELEVATION, 1:50 1:50
1
3000
2
3 1
1
2
2
4 3
150 300
4
4
6
150
7 5 8
600 100
5
9
300
600
100 300 600 150
3
5
100
of nonrams to e more work re
50
PROJECT
2 FINLAYSON GREEN
MENTORSHIP & CO
SHELTERED DROPOFF
1000
1500 20
PROJECT
2 FINLAYSON GREEN
900
3655
800
120
6 10 7
6
8 11
8
9
9
7
10
900
900
3000
10
DATE 22/11/2015
This group BIM project challenges the commercial building typology. Instead of a single massive volume, the building massing CLIENT is broken down and offset to create a mixture of outdoor spaces. BUILDING INDUSTRY BUILDING INDUSTRY
9000
9000 9000
SHELTERED DROPOFF
DATE
22/11/2015
1000
9000
9000 9000
HIGH ZONE LIFT LOBBY
3000 3000 RAFFLES QUAY
RAFFLES QUAY
9000
ROBINSON ROAD
9000
ROBINSON ROAD
ONE FINLAYSON GREEN
aking down the Time Term 6 B.I.M. project Insertion of nonck to allow for Credits Stylianos Dritsas(Ins)office programs to aking Breaking downdown the the Audrey Chin (Team) Insertion Insertion of nonof nonerent strata of encourage more Law Kang Jie (Team) ck block to allow to allow for for officeoffice programs programs to to ce spaces that dynamic work erent different stratastrata of Location of Raffles place, Singapore encourage encourage more more cater to different culture ceoffice spaces spaces that that dynamic dynamic work ONE work TELEGRAPH STREET TELEGRAPH STREET needs RAFFLES QUAY cater can cater to different to different culture culture VELneeds PLAN, 1:1000 needs GROUND LEVEL PLAN, 1:1000
1500
1000
9000
3000
9000
LEGEND
3000
9000
9000
9000
9000
9000
FINLAYSON GREEN
1000 1000
LEGEND
FINLAYSON GREEN
1 water-cut extruded alu combs 2 50mm low-e glass w/ 30mm cavity FACADE SECTION DETAIL, 1:25 3 3mm expanded mesh 4 150mm raised flooring 5 800mm maintainence steel grating FACADE SECTION FACADE SECTION DETAIL, DETAIL, 1:25 6 armature bracing 1:25 7 spandrel panel 8 suspended ceiling 9 support armature custom 10 aluminium transom 11 800mm dropped ceiling
3655
3655
800
120
10
1
WATER-CUT EXTRUDED ALUMINIUM COMBS
2
50 11 MM LOW-E GLASS WITH 11 30 MM CAVITY
800
120
3
3 MM EXPANDED MESH
1
WATER-CUT EXTRUDED ALUMINIUM COMBS EXTRUDED ALUMINIUM COMBS 1 WATER-CUT
2
50 MM LOW-E GLASS2WITH 50 MM 30 MM LOW-E CAVITY GLASS WITH 30 MM CAVITY
4
150 MM RAISED FLOORING
3
3 3 MM EXPANDED MESH 3 MM EXPANDED MESH
5
800 MM MAINTENANCE STEEL GRATING
4
4 150 MM RAISED FLOORING 150 MM RAISED FLOORING
6
ARMATURE BRACING
7 5 8
SPANDREL PANEL 5 STEEL 800 MM MAINTENANCE 800 MM GRATING MAINTENANCE STEEL GRATING SUSPENDED CEILING
9
SUPPORT ARMATURE CUSTOM
6 6 ARMATURE BRACING ARMATURE BRACING 10 ALUMINIUM TRANSOM 7 SPANDREL PANEL 7 SPANDREL PANEL 8 8 SUSPENDED CEILING CEILING 800 MM DROPPED CEILING 11 SUSPENDED 9
SUPPORT ARMATURE9 CUSTOM SUPPORT ARMATURE CUSTOM
10 ALUMINIUM TRANSOM 10 ALUMINIUM TRANSOM
A-40 A-40A-40
11 800 MM DROPPED CEILING 11 800 MM DROPPED CEILING
CADE ELEVATION, 1:50 PARTIAL FACADE ELEVATION, 1:50
FACADE ELEVATION
FACADE SECTION
49
DEVELOPING COMPOSITE WOOD FOR 3D-PRINTING Time Term 7 Digital design and fabriation Credits Stylianos Dritsas(Ins) Rachel Tan (Team) Tee Yong Kiat (Team) Kendall Koh (Team)
Existing 3D printing material, though cheaply available, comprises mostly of non-biodegradable components. The objective of this study is to develop a wood-resin composite material to be extruded via 3D-printing. We examine the possibility of using wood sawdust, to create a scalable, structurally stable and sustainable artefact using modified 3D-printing extrusion technology. 2:2:1
3:3:1
Machine-aided extrusion samples 4:3:1
4:4:1
9:9:2
5:5:1
3:6:1
Glue : Water : Wood
extruder prototyping
layer height
offset width
continuous lines
extrusion characteristics
tool operation other projects
medium scale casted material prototype
50
s u n n y.
STAGE
FINAL DESIGN
Time Term 8-9 Capstone
1 2 3 4 5 6
Credits Bige Tuncer (Ins) Camiel Weijenberg (client)
NOTES USER INTERFACE BATTERY WATER PUMP SOLAR PANEL STRUCTURE WATER COLLECTION S
Location HDB, Singapore
sunny is an integrated solar energy harvesting and rainwater collection facade system designed to enable sustainable, high-density living. The sunny was a cross-disciplinary design project in collaboration with industry partner Weijenberg that spanned over two terms. Our research found that there was an increasing need for alternative sources of energy for the average singaporean, while at the same time, the HDB facade was an ubiquitous yet under-utilized resource.
WHY sunny?
SEAMLESS INTEGR ATION
UTILITY SAVINGS
CLEAN ENERGY
Designed to work with existing furniture layouts, the non-intrusive interface is housed in a sleek module installed right under your window. It provides electrical outlets and soft lighting options powered 24/7 by the solar energy generation and storage system within.
S AV E
127
PER MONTH
PER BLOCK
FOR YOUR USE
sunny generates up to $24 worth of electrical power and water collected per month. This means that it will take 7.2 years for the system to pay for itself - comparable to most commercial rooftop solar photovoltaic array systems.
By harvesting renewable energy and resources, sunny maximizes solar gains and saves 370 MWh of fuel energy per residential block. That’s 420 tons of C02 prevented from entering the atmosphere, or 127 cars taken off the road.
sunny is an off-grid energy system, meaning1 that you get to make use of the power your home system 2 generates, any time of the day. It 1 can even be a backup power source for your 2home, as long as the sun is shining!
$24
DIRECT BENEFIT AVA I L A B L E
24/7
ISSUE DATE
MA XIMIZING SOL AR GAINS
12/08/2016
DRAWING NUMBE
101
DRAWING
4
R AINWATER USAGE AT HOME
SUBSTANTIAL CAPACIT Y
4
The orientation of the sunny module is optimized through the use of environmental simulation software. This ensures that users obtain the maximum possible free energy from the sun.
By combining electrical and mechanical engineering with aesthetic design, the research and experimentation culminated in a retrofit product design that was patented by the Weijenberg office in Singapore.
Energy savings is achieved by allowing harvested rainwater to be directly used in user interface homes for cleaning, battery planting or toilet bypassing water pump flushing, the energy-intensive solar panel cycle of water treatment. structure
60° 830
kWh/m2·yr
45° 897
kWh/m2·yr
30° STAGE
904
FINAL DESIGN
1 2 3 4 5 6 water collection system
kWh/m2·yr
881 971
OVERALL SECTI
With just one module of 4 solar panels, 1120 kWh of energy can be produced daily. Here’s how 881 long some everyday household appliances can run using the energy harvested with the system: 971
Rainfall Drain age Reser voir
Rainwater Collection Module
Water Treatment
5
5
3
Utility Pipes
WATER TO TANK
WATER TO TANK
3.00
USB device charger 5W 224.0 hours
3
HDB
NOTES
1086
Electric lamp 18W 1244 62.2 hours
1086
SCALE 1:10 DRAWN BY CHIN K
74
6
Notebook computer 158 50W 6 22.4 hours
Ceiling fan 75W 74 14.9 hours
3.00
40” LED TV 140W 8.0 hours
SUTD CAPSTONE
158 1244
facade
HOW IT WORKS
construction section EXISTING FACADE
SOLAR PANEL
CHARGE CONTROLLER
BATTERY
INVERTER & CONVERTER
Physical support for retrofit facade system
Converts light energy from the sun into electrical energy.
Controls the flow of current from the solar panel into the batteries.
Stores electrical energy generated for usage at all times of the day and night.
Controls and direct electrical power to be discharged through the A.C. electrical outlet or the D.C. USB outlet
STAGE
STAGE
FINAL DESIGN
FINAL DESIGN
WITH WEIJENBER
BATTERY INDICAT Indicates amount of remaining in batteries
NOTES
NOTES
AC OUTLET 100
ISSUE DATE
12/08/2016
STRUCTURAL DESIGN
100
structure
DRAWING NUMBER
solar panels
STRUCTURE
102
1167
SOLAR PANELS
DEPLOYMENT
CONFIDENTIAL
DRAWING
OPERATION
OVERALL DEPLOYMENT
SUTD CAPSTONE 2016
30
311
158
USB PORTS
WATER SAVING
102
492
202
781
OPEN
DRAWING NUMBER
operation
facades
DRAWING
ANGLED TOP VIEW
30 2118
158 781
WATER STORAGE
SCISSOR JOINT A
Stores water collected by the system for usage of toilet flushing or cleaning
WITH WEIJENBERG CO.
retrofit process
structure mechanics
SCALE 1:XX DRAWN BY SIA CHIN KIAT
Harvested water is channe FIN flush toilets or be used for g cleaning purposes.
CLOSE
DRAWING
OVERALL DEPLOYMENT
Provides direct current 5W to charge and power USB d such as mobile phones..
DRAWING NUMBER 492
2118
OPERATION
D.C.
-
12/08/2016
SCALE 1:XX DRAWN BY SIA CHIN KIAT
3MM FLAT BAR
deployment
Provides 13A 240V alter current electric power for g electricity use, such as lapt
ISSUE DATE
311
ISSUE DATE
12/08/2016
DEPLOYMENT
+
IN PROCESS OF PATENT APPLICATION
1167
SOLAR PANELS
D.C.
A.C.
resource collection process
STAGE
SUTD CAPSTONE 2016 - PROJECT 058
SIDE VIEW
SCALE 1:10 DRAWN BY SIA CHIN KIAT
FINAL DESIGN
TEAM
SUTD CAPSTONE 2016 Chan Wei Jie, Cheryl Lim Xin Wan, Law KangNOTES Jie River, Sia Chin Kiat, Yee Zheng Kang
ADVISORS
Bige Tuncer, Thommen Karimpanal George
facades
SUTD CAPSTONE 2016
WITH WEIJENBERG CO.
facades WITH WEIJENBERG CO.
SOLAR PANEL TOP SCREW HOLE POSITIONS UNDERNEATH THE PANEL ARE SHOWN FOR DRAWING PURPOSES
SCALE 1:2
IS
12 ISSUE DATE
12/08/2016
DRAW
DRAWING NUMBER
205 TOP VIEW
479.00 69.50
69.50
125.00
125.00
14.00
24.00
D
FRONT VIEW
14.00
45.00
SCIS ME
DRAWING 18.30 22.80
18.30 22.80 9.50
9.50
ROTATIONAL JOINT HINGE
EXTENT OF SOLAR PANEL
50.80 25.50 21.00
25.50 21.00
36.30
15.50 29.00
29.00
M6 SCREW, 20MM SPACER, 5MM M6 WASHER
13.50
14.50
50.00
M6 BUTTON HEAD SCREW, 16MM
M5 COUNTERSUNK SCREW, 16MM
M6 NUT
14.50
M8 BUTTON HEAD SCEW, 16MM
M6 T-SLOT NUT
DRAWN
SCALE 1:XX DRAWN BY SIA CHIN KIAT
52.00
(30 X 30)MM SQUARE BAR, CENTRE BORED, SIDE COUNTERSUNK
3MM L-PLATE
30.00
SUTD CAPSTONE 2016 SCISSOR MECHANISM MIDDLE JOINT
SCALE 1:1
SUTD C
157.72
SCISSOR MECHANISM END JOINT
solar panel attachment techical drawings
facades solar panel attachment techical drawings
post-retrofit facade visualization
user interface visualization - kitchen
fac
WITH WEIJENBERG CO.
WITH W
51
L E T’S
PUT
SM ILE
O N
A THAT
FACE Time Junior College Art Elective Programme Coursework Credits Tan Siang Yu(Ins) Tan Siang Miang (Ins)
Hello there, why that frown? You shouldn’t be feeling down. It’s time to get to a better place, so lets put a smile on that face.
This painting is a 2 x 2m x 1m acrylic painting, of a man trying his best to pull his face apart into what he thinks is a convincing smile. His struggle is what I see as a physical metaphor of a society of facades, as well a cathartic exploration of my struggle to fit in as a teenager.
other projects
52
M A R KET R E SI DEN CES Time Term 6 Architecture Energy Credits Alstan Jakubiec(Ins) Rachel Tan (Team) Jean Lee (Team) Tee Yong Kiat (Team) Location Buona Vista L10 plan
L1 plan
DIVA thermal performance visual analysis of massing
DIVA thermal performance visual analysis of unit
S U TDx L IM
H O N G
PAR K
Time Term 6 Studio Credits Thomas Wortmann(Ins) Location Hong Lim Park
western elevation
-3.6
1.0m
m
2m
-3.6 m
-0.9
2m
m
m -0.8
-0.8 m
-0.2 0.4 1.0 1.6
1.0m
1.0m
aerial perspective 0.0 m
0.5m
0.0 m
0.5m
0.0 m
0.0
0.5m
m
0.5m
L1 plan
rooftop perspective
L1 gallery perspective
SHORT SECTION 1:200
L1 gallery perspective 53