YEHEZKIEL WILIARDY 2016 portfolio
Entrance To the Courtyard (Render) 2015 Core III Studio | Urban Living
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content Page Content page .............................................................. Personal profile .......................................................... Technical skills ..........................................................
2. 3. 4.
Sustainable Studio Opt 1 .....................................
6
Studio III: Urban Living ....................................... Studio II: SUTD Extension 2 ............................. Studio II: SUTD Extension ................................. Studio I: Man and Nature ....................................
12. 18. 22 27.
Sustainable Urban Centre ................................... Fabrication and Analysis....................................... Parametric Designs .................................................
30. 32. 36.
Competitions ............................................................... Renderings ....................................................................
38. 40.
Co-curricular Activities .........................................
42. Spatial Joint (study model) 2015 Digital Design and Fabrication
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profile Name : YEHEZKIEL WILIARDY MANIK Nationality : Indonesian Date of birth : January 15, 1993 Date of graduation : September 2016 (B.Sc Architecture and Sustainable Design) Contact number : +65 8492 1080 Email address : yehezkiel.wiliardy@gmail.com I am a Senior year architecture student in Singapore University of Technology and Design. I came to Singapore in October 2008 to seek new challenges and find opportunities in this city. I was awarded ASEAN scholarship to pursue my high school and current undergraduate studies. Secondary and JC: ACS(I)
1993 Born
Undergraduate studies: SUTD
2008
2013
2012 International Baccalaureate Diploma. Score: 41 / 45
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2015: Intern in WATG
2016
2014. Intern in CPG Consultants. Studio Y
B.Sc ASD
NOW
2017 M.Arch
technical skills graphic design | post renderings | video editing
Adobe Illustrator
Adobe Photoshop
Adobe Lightroom
Adobe InDesign
Adobe Premiere Pro
Adobe After Effects
[Top] SG 50 - Pico Dome (Render)
2015 Research Assistance at SUTD Advance Architecture Lab
[Bottom, Left] Irradiance Analysis (Diagram) 2016 Building Energy | Urban Farming
[Bottom, Right] Floor Plan (Technical Drawing) 2016 Studio III. Urban Housing
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technical skills 3D modelling | rendering | technical drawings | laser cutting | parametric design
SketchUp
Rhinocheros
Grasshopper
AutoCad
Autodesk Revit
Karamba
DesignBuilder
[Top] Nursing Home at Bedok (Render)
2014 Internship
[Bottom, Left] Detailed Floor Plan (Drawings) 2014 Architecture Science and Technology
[Bottom, Right] Massing Studies (Diagram) 2015 Generative Casting
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tokyo 2028 sustainable studio option 1| 2016
The project was to design a 60 thousand seaters stadium for the coming olympic games in Tokyo, Japan 2028. The main structure of the stadium is made of catenary shell which balanced out by the tension structure of the membrane roof.
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[Top] Night View (Render)
2016 sustainable studio option 1 | tokyo 2028
tokyo 2028 axonometric | renders
The legacy plan was to convert the stadium as a continuous landscape and porous to the underground which function as the shopping mall and sports facilities of the stadium. PAGE 7 OF 42
[Left] Night View (Diagram)
2016 sustainable studio option 1 | tokyo 2028
[Right Top] Olympic View (Render) 2016 sustainable studio option 1 | tokyo 2028
[RIght Bottom] Shopping Mall (Render) 2016 sustainable studio option 1 | tokyo 2028
tokyo 2028 sections
[Top] Short Section (Diagram) 2016 sustainable studio option 1 | tokyo 2028
[Bottom] Long Section (Diagram) 2016 sustainable studio option 1 | tokyo 2028
There are 18 entrances into the stadium via tunnels. Stadium control room, VIP lounges and rooms are located at level 4 where the access are from the ground level. There are two vehicular entrances to the field which consist of ramps on each side of the stadium.
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tokyo 2028 detailed section
Detailed Section (Diagram)
2016 sustainable studio option 1 | tokyo 2028
This section shows the part of the basement that is being used as shopping mall and the lightwell from the opening of the stadium between the tunnels. There is access to the level 4 and above from the ground level via lift and cores. The carpark is located at basement 3.
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tokyo 2028 elevations
[Left] Elevations (Diagram)
2016 sustainable studio option 1 | tokyo 2028
[Top] Physical Model
2016 sustainable studio option 1 | tokyo 2028
While sectionally, the stadium is one continous piece of landscape, as seen from outside it is a unique stand-alone structure. The complexity of the structure requires long period of model making. In the picture above, a styrofoam mold made by cnc is used before a layer of plaster is applied. PAGE 10 OF 42
tokyo 2028 floor plans
The project was bridging the neighboring sport facilities as well looking at the residential areas to give them sense proud of the new stadium. The functions are divided based on the surrounding neighborhood to attract people to visit the stadium when it is not used for the olympic games.
[Top] Site Plan (Diagram)
2016 sustainable studio option 1 | tokyo 2028
[Right] Floor Plans (Diagram) 2016 sustainable studio option 1 | tokyo 2028
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urban living site studies | analysis
[Left, Top] Figure Ground (Diagram) 2016 Studio Core III | Urban Living
[Left, Bottom] Land Use (Diagram) 2016 Studio Core III | Urban Living
[Middle, Top] Urban Heights (Diagram) 2016 Studio Core III | Urban Living
[Middle, Bottom] Intersection Density (Diagram) 2016 Studio Core III | Urban Living
[Right, Top] July Wind(Diagram) 2016 Studio Core III | Urban Living
[Right , Bottom] Irradiance (Diagram)
2016 Studio Core III | Urban Living
The project was to design a mixed used residential building at Joo Chiat road. Surrounded by low rise residential housings and strip of conserved shophouses, the concept was to integrate new experience of living through organic approach of the building design.
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urban living perspective
The form was defined by the site plan, responding to the edges and reacting to the buildings around it. The shape was to increase exposure to the wind hence improving air circulation. Facade was designed to function as structure, shading for each unit. The organic shape takes form to minimise the material needed for the structure. [Left, Top] Perspective (Render) 2016 Studio Core III | Urban Living
[Left, Bottom] Concept (Diagram) 2016 Studio Core III | Urban Living
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urban living floor plans | axonometric
I am using revit to document the drawings of the floor plan, details, and sections. The shell was modeled through computation coding in Rhino and exported for Revit use. The floor plans are layered based on the functions where the residential units will receive sufficient amount of sunlight followed by circulation. The axonometric diagram on the left shows hows the function works.
[Left] Floor Plans (Plans) 2016 Studio Core III | Urban Living
[Middle] Axonometric (Diagram) 2016 Studio Core III | Urban Living
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urban living section | elevations
URBAN LIVING - Joo Chiat Yehezkiel Wiliardy Manik / 4
elevation | sections EAST ELEVATION 1:500
1
SOUTH ELEVATION 1:500
2 NORTH ELEVATION 1:200
[Left] Section Detail (Drawings) 2016 Studio Core III | Urban Living
[Top] Elevations (Render)
2016 Studio Core III | Urban Living
[Bottom] Ground View (Render) 2016 Studio Core III | Urban Living
KEY PLAN
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4
3
urban living residential units | section
The units are catered to expanding families of various sizes. They stretch along the periphery of each of the floors. Each holes of the facade provides shading for the unit and also act as the structure for entire building.
[Top] Residential Units (Axo)
2016 Studio Core III | Urban Living
[Right] Detailed Floor Plans
2016 Studio Core III | Urban Living
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urban living physical models
The pieces to assemble the whole model was scripted using grasshopper and tagged accordingly. They were cut using laser cutter to ensure the accuracy of the shape. For the units, the facade was 3D printed, attached by styrofoam strips and acrylic for the glass. There are three types of units depending on the location of the unit in the organic shape.
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[Left] 1:100 Full Model
2016 Studio Core III | Urban Living
[Right] 1:25 Unit Models
2016 Studio Core III | Urban Living
A
B
Urban Playground
Krishna Singh Centre for Nano Technology Weiss / Manfredi
A open seminar and colaborative space
SCALE 1 : 4000
self shading
5515
To provide both public and students conducive learning environments, integrating nature and city life in their learning activities.
SUTD extension II site studies | analysis
B
5.2
clear and fast circulation
STRATEGIES
A
The project is to design a building to SUTDx II house public events of SUTD in the city TWISTING center. Programmatically the exercise is to design a structure with a flexible space B that hosts public events of the Universi2D SCALING ty in a central urban location. The project will also house a number of related other SCALE 1 : 500 programs and administrative functions. VARIOUS VOLUMES PRECEDENCE
CONCEPT
Yehezkiel Wiliardy | 1000 575
A
SITE ANALYSIS
shaded outdoor space
B
primary circulation
PUBLIC
A
STUDENTS
A
B
OPTION 1
Krishna Singh Centre for Nano Technology Weiss / Manfredi
Urban Playground
OPTION 2
OPTION 3
OPTION 5
OPTION 6
OPTION 8
OPTION 9
To provide both public and students conducive learning environments, integrating nature and city life in their learning activities.
A
open seminar and colaborative space
DENSITY AND GREEN
SCALE 1 :4000
LAND USE
DOUBLE VOLUME
SCALE 1 : 4000
self shading
5515
5.2
8.4
STRATEGIES
A
61
06
Main road
This exercise, I intended to find a form 2 Ways road that is more organic. Providing spaces for 1 Way road greeneries on every levels and interesting intersections between the functions. PROGRAMME ARRANGEMENT The site itself is next to SOTA at the end of Orchard road, marking the boundary NATURAL LIGHTINGS between shopping road and education centres. LT A
Pedestrian walks
SINGLE VOLUME
02
OPTION 4
TWISTING
B
58
B
clear and fast circulation
B
7.
4
OPTION 1
OPTION 2
OPTION 3
OPTION 4
OPTION 5
OPTION 6
OPTION 7
OPTION 8
2D SCALING
ROAD DIRECTION AND SUN PATH
SCALE 1 : 2000
GREENERIES
SCALE 1 : 500
LEGENDS
DOUBLE VOLUME
VARIOUS VOLUMES
Green and open spaces
Commercial
Main road
Buildings
Hotels
Pedestrian walks
Educational institutes
Residentials
2 Ways road
Public facilities
Residential with commerce
1 Way road
SECTION ANALYSIS
SINGLE VOLUME
PROGRAMME ARRANGEMENT NATURAL LIGHTINGS
OPTION 7
68.4
55155.2
610
B
circulation and colaborative space
580
27.
4
section b
CHURCH
section a
SR
SR MRT
PUBLIC
SITE
STUDENT
SOTA
SECTION A
SR
SR SR
SOTA
SR SITE
SMU
SR
SR
STORE
STORE CORE
SECTION B
VERTICAL CIRCULATION
Form Finding (Diagram)
2015CIRCULATION Studio II. SUTD Extension 2 VERTICAL
GREEN SPACE (LUSH)
LT
CAFE CORE
LT
OPEN SPACES GREEN SPACE SHADED (LUSH)
AREA REQUIREMENTS
LT
CAFE CORE
LT LT
SR
CONSIDERATION
CONSIDERATION LT
SR
SR CATHAY
LT
SR
OPTION 9
CORE
AREA REQUIREMENTS PAGE 18 OF 42
SHADED OPEN SPACES
SUTD extension II floor plans | perspective
[Top] Perspective (Render) 2015 Studio II. SUTD Extension 2
Level Height:
PARK
+ 0.00 m
Area: Level Height:
[Left] Floor Plans (Drawings)
S.R 2
2015 Studio II. SUTD Extension 2
200 m2 + 7.00 m
STORAGE
Area: Level Height:
Area: Level Height:
125 m2 + 0.00 m
The form is made up two organics structure overlapping at different floors creating a lot of green spaces. The aim was to create clear connections from lecture halls and tutorial rooms at every floor.
SHOP
100 m2 + 0.00 m
KITCHEN
Area: Level Height:
AUDITORIUM
Area: Level Height:
600 m2 + 0.00 m
Area: Level Height:
RECEPTION
Area: Level Height:
150 m2 + 0.00 m
100 m2 + 0.00 m
CAFE
200 m2 + 0.00 m
Area: Level Height:
S.R 3
150 m2 + 7.00 m
DROP OFF
Level Height:
+ 0.00 m
Area: Level Height:
ENTRANCE
Level Height:
Level Height:
Area: Level Height:
EXIT
ADMIN
150 m2 + 8.00 m
LT 1
600 m2 + 8.00 m
+ 0.00 m
+ 0.00 m
LEVEL 3 SCALE 1 : 200
LEVEL 1 SCALE 1 : 200
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2
SUTD extension II elevations | sections
SECTION 2 SCALE 1 : 200
SECTION 1 SCALE 1 : 100
Sections (Render)
2015 Studio II. SUTD Extension 2 SECTION 3 SCALE 1 : 200
ELEVATION 2 SCALE 1 : 200
ELEVATION 1 SCALE 1 : 100
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Elevations (Drawings)
2015 Studio II. SUTD Extension 2
There is a unique interaction between the two functions at different levels. The shifting of floors adds to the playfullness of the functions and the areas and at the same time creating open shaded spaces, inviting people to explore the building.
SUTD extension II perspective | physical model
3 0
4 0
The entrance was designed to be playful, inviting people to explore and wonder the beauty of organic shape of the building. The 1:50 physical model was made out of styrofoam sheets and acrylic.
[Top] Perspective (Render)
2015 Studio II. SUTD Extension 2 PERSPECTIVE
[Right] Physical Model (Photos) 2015 Studio II. SUTD Extension 2
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SUTD extension I site studies | analysis SUN PATH AND BUILDING HEIGHTS
Located in the middle of the city, the project is to design a building to house public events of SUTD in the city center. Programmatically the exercise is to design a structure with a flexible space that hosts public events of the University in a central urban location. The project will also house a number of related other programs and administrative functions.
CONSERVATION AND MASTER PLAN
SOUTH BRIDGE ROAD Upper Circular Conservation Area
CIRCULAR ROAD Boat Quay Conservation Area
June 21
19:00
07:00
December 21
NANKIN STREET MOSQUE STREET Kreta Ayer Conservation Area
LEGENDS
LEGENDS
site sun paths
Given the required programmes and limitations, considering the demographic and land use, I chose Integration to be my concept driving the design of this building. The building integrates the business and public park, open and closed spaces, and clear circular circulation for easy wayfinding
China Square Conservation Area
site hotels commercial business parks
building heights 0.0 m
150.0 m
GREEN AND OPEN SPACE CIRCULATIONS
VIEWS / ANGLE BUS
BUS
MRT
BUS
LEGENDS site
LEGENDS site vehicular access pedestrians crossings pedestrians access
LEGENDS site buildings
Site analysis (Diagram)
green spaces plantations
2015 Studio II. SUTD Extension 1 SCALE 1 : 4000
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SUTD extension I floor plans | programmes
[Top] Building in the context (Diagram) 2015 Studio II. SUTD Extension 1
[Right] Floor plans and progrrames (Diagram) 2015 Studio II. SUTD Extension 1
The circulation is continuous from both entrances. The floor heights are different for each functions. There are double and triple volume spaces to mark the entrance, events, and cafe areas. The middle courtyard is visible from every parts of the building, thus providing easy wayfinding for people to navigate inside. PAGE 23 OF 42
SUTD extension I sections | interior
[Top Left] Long section of the building (Render) 2015 Studio II. SUTD Extension 1
[Top Right] Interior view (Render) 2015 Studio II. SUTD Extension 1
[Bottom] Short section of the building (Render) 2015 Studio II. SUTD Extension 1
The spaces inside are designed to invite people to explore the exhibitions around the building. Interlacing of floorplates evokes their interest to find out the spaces above them. The rooftop garden is part of the circulation, to infuse the events with nature, as well as the inner courtyard. The staircases are more visible than the lift to invite people to take the stairs as part of their explorations. PAGE 24 OF 42
SUTD extension I elevations
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SUTD extension I physical model
[Top Left] Perspective view of model (Physical model) 2015 Studio II. SUTD Extension 1
[Top Right] Intimate view of the garden (Physical model) 2015 Studio II. SUTD Extension 1
[Bottom] Two parts of the model (Physical model) 2015 Studio II. SUTD Extension 1
The 1:100 model is made out of white foams and acrylic sheets, it can be divided into two to see the interior and spatial qualities of the inside.
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man and nature site studies | massing development
The project asks for a design within a natural space in One North area. The actual conditions of the plot like slope, existing trees, close buildings framing the space, accessibility, close amenities, potential users, character of the different traffic roads, etc will be taken into account to design a building carefully designed and connected to its close environment. The project will develop strategies for dealing with an urban context but extremely natural at the same time, and explore how to combine in a whole design the required exterior and interior spaces. Given the required programmes and limitations, considering the demographic and land use, I chose nestling within to be my concept driving the design of this building.
Site analysis and massing strategy (Diagram) 2014 Studio I Man and Nature
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man and nature programme arrangement | floorplan
The building is nestling within the forest with the pillars standing from the forest floor being parts of the tree lines. The holes and voids are created based on the positions of the current trees. The trees are becoming the walls and roof for this building, integrating nature with the activities.
[Top] The arrangements of the programmes (Diagram) 2014 Studio I Man and Nature
[Bottom] Floorplans (Diagram) 2014 Studio I Man and Nature
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man and nature elevations | physical model
The interlacing of different floor shape allowing the forest canopy to be part of the building’s ceiling and trees as the wall for the spaces. There is a play between open and concrete walls to integrate the nestling idea into the building. PAGE 29 OF 42
[Top] Elevations of the building (Diagram)
2014 Studio I Man and Nature
[Bottom] 1:100 Physical Model (Physical Model) 2014 Studio I Man and Nature
sustainable urban centre section | concept
The aim of this project is to design a sustainable urban planning by considering the energy (wind, solar, irradiance, lightings) and urban concepts (walkability, programmes, context). The requirements was to achieve FAR (floor area ratio) of 7.0, mixed composition of residential, community, education, commerce and office.
The strategy was to create a main boulevard that connects the future MRT stations while having a shophouse-functioned buildings along it where commercial activities are happening at the first few floors. The slanted roof is designed for solar harvesting in terms of urban farming or solar panels. Residential buildings are located next to these functions. PAGE 30 OF 42
[Left] Energy Use Intensity (Diagram)
2016 Sustainable Urban Centre
[Right] Section of the Urban Space (Diagram)
2016 Sustainable Urban Centre
sustainable urban centre analysis
1
2 The various aspects were considered to meet the requirements and lively neighborhood that encourage people to utilise the roads and open spaces.
4 [1] Water runoff (Analysis) 2016 Sustainable Urban Centre
[2] Walkability of functions (Analysis) 2016 Sustainable Urban Centre
[3] Annual Irradiation (Analysis) 2016 Sustainable Urban Centre
[4] Daylighting (Analysis) 2016 Sustainable Urban Centre
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3
digital design and fabrication generative casting | laser cutting | model making
The project is to explore different massing possibilities that can be uniquely made by concrete casting. The mold is prepared by multiple layer of laser cut greyboards. Each was arranged and marked according to the order by using grasshopper and C# programming. The three options of the towers are generated with grasshopper. It takes a shape of the base, adding it to the next floor with simple rotation and scaling factors that we can parametrically control.
[Left] Concrete model (Physical model) 2015 Generative Casting
[Middle] Massing studies (Diagram) 2015 Generative Casting
[Right] Making the concrete model (Diagram)
2015 Generative Casting
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digital design and fabrication spatial | planar joints Chart of Force (Newton) / Extension (mm) Graph 1600
Small Locks Break: Two “easier� locks are broken at this point.
1400 1200
Snap: 1300N - 1260N
1000
2015 Spatial Joint
[Middle] Structure analysis (Diagram) 2015 Planar Joint
[Right] Planar joint (Model) 2015 Planar Joint
600
All joints break: 1250N - 900N
Bending joint
800
[Left] Spatial joint (Model)
Tearing apart: Three layers of plywood are shown to break one by one
Complex tearing Fracture: Constant force (567N)
400 200 0 0.00
Disjointed Bending joint: One of the main lock start to deform 1.00
2.00
3.00
4.00
5.00
6.00
7.00
8.00
The task were to create joints, planar and 3D spatial joints using different machinaries. They are CNC milling, water jet, and stress analyser. The 3D joint is designed to maintain the accuracy of the angles, simple assembly process, and minimal material requirements. The circular shape allows various angles and can be produce in large scale.
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simulation and analysis
[Left, Top] Solar Irradiance Analysis (Analysis) 2016 Building Energy and System
[Middle, Top] Shadow diagram (Diagram) 2016 Building Energy and System
[Right, Top] Pressure simulation (Diagram) 2016 Building Energy and System
[Left Bottom] Wind simulation (Analysis) 2016 Building Energy and System
[Right Bottom] Lighting simulation (Analysis) 2016 Building Energy and System
On analysing the environmental energy and impact on the building, I am using DIVA and Design Builder to find out how to our design impact people.
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parametric design canopy design
DIfferent curve control systems 2014 Introduction to Computational Design
Given certain constraint, I was to design and build a 1:20 scale canopy structure in a given site. There are 4 entrances to the site and thw two wall structuresthat can be placed freely on the site. My design system was using grasshopper to control a gradation of transparency where visibility / light condition will shift as one moves around. PAGE 35 OF 42
parametric design lamp holder | weaving assignment The assignment was to create a lamp holder for a light bulb. The holder would create interesting shadow patterns when the light is lighted up. The pictures on the right shows different variation of the weaving parameters by using grasshopper.
[Top] Elevations of different parameters (Diagram) 2015 Lamp holder
[Left] Plan view of the designs (Diagram) 2015 Lamp holder
[Right] Model in the making (Physical model) 2015 Lamp holder
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SG50 future of us
[Left, Top and Bottom] SG50 Pico Dome | Interior (Render) 2015 Advance Architecture Laboratory - Research Helper
[Right, Top] Team for This Project (Photograph) 2015 Advance Architecture Laboratory - Research Helper
I helped the school SUTD Advanced Architecture Lab for the pavilion design in hosting the SG50 celebration in 2015. Mainly for the render and some iterations for the final form during the design process.
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competitions
[Left, Top] ASED Carport Design (Render)
2015 Architecture Structure and Energy Design | Merit Awards
[Left, Bottom] URA Forgotten Space (Render) 2015 URA Competition | Entry
The ASED competition was to design a carport that is targetted to high-end consumer which explored geometry that is weird but structurally stable. My team won the fourth place, a merit award for this competition. I participated in URA forgotten space competition. The idea was to be able to place modular units as filler space of the backlanes or park to make those area more usable and lifely.
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competitions entrance view We envision the retrofitted Sky Park as a multi-functional space that will be popular in the district as a flexible, family-centric urban playground that will engage both children and adult.
[Left, Top] Day view (Render)
diseño | verde
FLOATING GREEN
2016 BCA Greensparks Competition | Merit Awards
[Right, Top] Night view (Render)
about the site
2016 BCA Greensparks Competition | Merit Awards
existing site
climatic response The prevalent monsoon south and north winds in July and December respectively can reach a comfort-able 4m/s at the height level of the existing deck of the Sky Park. However, the existing planters around the wooden deck as well as the closed wall on the east of the Sky Park will buffer the winds considerably. The elevated platform was designed to work around these constraints, elevated above the planters and wrapping around the perimeter of the deck such that users can enjoy not only the unobstructed rooftop breeze, but also the urban vista.
[Left, Bottom] Floorplans (Diagram) 2016 BCA Greensparks Competition | Merit Awards
july wind july wind
BCA Greensparks competition calls for a renovation of a rooftop which has to be inviting for people to explore and get closer to the greeneries. For this competition, I was doing the 3D digital model and the renders.
december wind
0 m/s
4 m/s
Modular façade incorporates solar panels and planters that allow for the growth of trellis for shading purposes on the North-Western and South-Western facades of the Sky Park. These two facades are where there are no neighbouring walls present and thus, where the fierce afternoon sun will hit the strongest. The integration of the dense planters under-foot in close proximity coupled tropical façade and elevated at the perimeter of the Sky Park results in a thermally comfortable space. irradiance analysis 0
1700 kwhm-2yr-1
dynamic pressure - 19
14 Pa
our concept
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renderings
[Top] Teaching Assistant (Night Render) 2015 Advance Architecture Laboratory - Research Helper
[2] Media Team of SUTD Orientation (Render) 2014 Internship
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renderings
[Top] Exterior of the exhibition space (Render) 2015 Architecture Structure and Enclosure Design
[Right]Silicon Tower | Perspective (Render) 2016 Building Information Management
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co-curricular activities I have been involved in numerous activities in school such as the student government (events head), SUTD bands, SUTD productions, and the Indonesian Cultural Club. The following pictures are some of the activities I did over the two years in SUTD.
[1] A new community (Photo) 2014 Photography
3
[2] Media Team of SUTD Orientation (Photo) 2014 SUTD Productions
[3] 2nd Events Committee (Photo) 2014 2nd SUTD Student Government
[4] Band performance in Blujaz Cafe (Photo) 2014 Bands
[5] Cultural night cultural performance (Photo) 2014 SUTD Indonesians Cultural Club
[6] Valentine Bazaar(Photo) 2014 2nd SUTD Student Government
[7] Guitar lesson tutor (Photo)
6 7
2014 Bands
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2
4
5