JIAQI LIEW
SELECTED WORKS 2016 - 2018
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JIAQI LIEW Phone Email Skype
+65 8368 8122 liewjiaqi94@gmail.com jiaqiliew-
SKILLS
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3D
Rhinoceros, Revit, Sketchup, ARCHICAD, Grasshopper
Rendering
Vray, Keyshot
Drafting
Autocad
Graphics
Adobe Photoshop, Illustrator, InDesign, Lightroom
Development
HTML, CSS, Javascript
EDUCATION Master of Architecture
National University of Singapore
Aug 2018 - May 2019 Singapore
Bachelor of Arts in Architecture (Honours with Distinction)
Aug 2013 - May 2018 Singapore
National University of Singapore
Minor in Entrepreneurship New York University
Aug 2015 - Aug 2016 New York
EXPERIENCE National University of Singapore Teaching Assistant for Environmental System & Construction
Aug 2018 - Dec 2018 Singapore
+ Planned and conducted lectures on BIM Modeling in ARCHICAD environment + Delivered one-to-one consultations during workshops + Participated in the assessment of students’ assignment and provided timely feedback to support learning
Shigeru Ban Architects Architecture Intern
May 2017 - Aug 2017 Tokyo
+ Involved in schematic design of a large-scale resort project and design development of a small-scale villa project + Explored and developed design through 2D drawing, 3D and physical models + Visualized designs for client presentations through renders, diagrams and physical models + Organized and facilitated exhibition of disaster relief structure
Vital AI, LLC Lead Product Designer
Aug 2015 - Aug 2016 New York
+ In charge of market research, concept design and design development of product + Worked closely with clients throughout projects to cater to their needs + Introduced branding guidelines to establish visual identity for all collaterals
ACCOLADES CityEx 2018: Interplay Exhibition
2018
The Architecture Society Singapore
NUS Design 2018 Publication
2018
National University of Singapore
CityEx 2014: HEAR | HERE Exhibition
2014
The Architecture Society Singapore 3
ATEBATTOIR
RENEGOTIATING DISJUNCT BETWEEN MEAT PRODUCTION & CONSUMPTION
HONOURS PROJECT
YEAR 4 SEMESTER 2 2018
Atebattoir Honours Project 2018
Featured in: CityEX 2018: Interplay Exhibition NUS Design 2018 Publication
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Atebattoir is an interpretation of the food hub in the masterplan of Wen Shu Fang, Chengdu. It is a parody of a farm-to-table concept that pairs dining and abattoir alongside each other.
The architecture does not impose but rather enables the curiosity of patrons to discover their own truth - to develop a more honest relationship with the meat they consume.
The design narrative describes the extent one would go in the pursuit of freshness. Sited across the old temple of Wen Shu Yuan, it also brings to attention our new ‘religion’ of consumerism.
The abattoir is enclosed in the central volume by a bamboo veil that doubles as a cattle ramp. Whereas restaurants are housed in a series of L-shaped blocks, each defining courtyard space that assumes the normality of the existing urban fabric.
Southwest Elevation
Short Section A-A’
Atebattoir Honours Project 2018
Northwest Elevation
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Atebattoir Honours Project 2018
Exploded Axonometric
Site Plan
Render (Top to bottom): Stunning Room, Visitor Path. Bridge. Roof Terrace, Courtyard, Entrance
2nd Floor Plan
Atebattoir Honours Project 2018
1st Floor Plan
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Atebattoir Honours Project 2018
Long Section C-C’
Atebattoir Honours Project 2018
Long Section B-B’
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STUDIO PROJECT
CYCLINE STUDIO
YEAR 3 SEMESTER 1 2016
BICYCLE FRIENDLY CO-LIVING & WORK-LIVE UNITS
Cycline studio is a mixed-use development of coworking offices and work-live units in Singapore. The studio aims to promote cycling as a new form of lifestyle for its residents. Being a cost-effective and convenient mode of transport, it is especially enticing to these new nomads. Hinging on its proximity to a green trail and proposed flyover, the design strategy is to connect the two with a bicycle loop. The architecture is formally expressed as a plane that dips diagonally to negotiate the height difference, punctuated by a central courtyard.
A bidirectional 5m wide bicycle loop circulates through the architecture. It is flanked by a 45mm kerb on either side which demarcates pedestrian access. This kerb also provides for bicycle parking, rest stops and seating. Co-working and work-live units above can be conveniently accessed via the staircases here. In addition, Cycline studio value adds to the green trail by providing cycling-related amenities on the first level. Over time, this attracts the public and fulfils its vision of being a nodal point for cycling culture in Singapore. CO-WORKING/ WORK-LIVE
CO-WORKING/ WORK-LIVE
EXERCISE
TRANSPORT EXERCISE
Cycline Studio Studio Project 2016
CO-WORKING/ CO-WORKING/ WORK-LIVE WORK-LIVE
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TRANSPORT
CO-WORKING/ CO-WORKING/ WORK-LIVE WORK-LIVE
Concept Diagram
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Site Plan
Cycline Studio Studio Project 2016
Exterior Render
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EXTRUSION
Extrusion of site boundary after setback
CONNECTION
Connection between flyover and green trail
LOOP
Continuous bicycle loop created and punctuated with a central courtyard
VOLUME
Extrude volume above bicycle loop to host co-working and work-live spaces
Performative Diagram
Cycline Studio Studio Project 2016
Render of Co-working Space
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Render of Bicycle Loop
1st Floor Plan - Amenities & Cafe
Cycline Studio Studio Project 2016
2nd Floor Plan - Bicycle Loop
3rd Floor Plan - Co-working & Work-live units
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THE KRAKEN
SEA-BASED INTEGRATED CONCRETE PRECAST HUB
Singapore is a tiny island-state where land scarcity has pushed manufacturing activities out of its borders. Hence the proposed Integrated Concrete Precast Hub (ICPH) is located at sea to tap onto the extensive sea space surrounding the country. Other advantages of a sea-based ICPH include 1. Job prospects in overseas markets, 2. Accessibility in transportation of raw materials and finished precast concrete.
The Kraken Studio Project 2018
Salt corrosion due to sea spray is the main design driver. Non-production programmes such as dormitories, stairs and lift cores are placed at the perimeter to serve as a buffer against the sea. These “cores” follow the architectural language of storage racks for precast elements. The entire architecture is cladded in a porous corten steel façade that is designed to keep the sea spray out of the factory.
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STUDIO PROJECT
YEAR 4 SEMESTER 1 2018
The Kraken is adapted in both coastal and in deepwater scenario. In the coastal conditions, finished precast products are delivered by trucks. Whereas in deep-water scenario, barges carrying trucks will dock and receive the completed products. The production area is divided into 4 levels: Rebar and precast production on the top floor followed by Prefabricated Prefinished Volumetric Construction (PPVC) casting and grouting, and PPVC fit out on the bottom two floors. The ground floor also provides access for bulk ship cargo for the delivery of cement and aggregate.
Exterior View
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Rebar Production
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PPVC Casting
Precast Production
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PPVC Grouting
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Visitor Centre Detail
View of aggregate rolling into batching plant
PPVC Fit Out
2. Deep-water Scenario
Completed PPVC is transported via barges
1. Coastal Scenario
Exploded Axonometric
The Kraken Studio Project 2018
Completed PPVC is transported via trucks
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Workers’ Dormitory & Corten Steel Facade Detail
Sea spray
The Kraken Studio Project 2018
Buffer Zone
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Product
Buffer Zone
Short Section A-A’
The Kraken Studio Project 2018
tion Area
Spatial Experience of Buffer Zone
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ENVIRONMENTAL SYSTEMS &
SYSTEMS WORKSHOP
CONSTRUCTION WORKSHOP
YEAR 3 SEMESTER 2
ENVIRONMENTAL SYSTEMS OF PROPOSED RESIDENTIAL BUILDING
2017
Systems workshop is aDESIGN week-long intensive TURAL AXONOMETRIC PASSIVE
The design and environmental systems of the East Northenergy consumption. workshop focused on expanding the building aims to reduce This Pathis achieved through passive design strategies such environmental systems and constructionEastof a1.TheSunbuilding is faing north-east hence there is no direct sunlight into the selected studioNorth project. as cross-ventilation coupled with technologies individual residential units such as automated sensor regulators. Morning Sun The project selected is a residential building sited 2. Wind in the woodland. One of the key concepts of theThe prevailing Similarly, the materials and methods wind direction is along construction the SSW-NNE axis. Both the communal architecture is ecological consciousness. chosen to give occupants a sense of wellspaces andare residential units are orientated in this direction to maximize natural and West South cross ventilation being residing within nature. 1:1000 Plan
Afternoon Sun
South
West Residential Units
5. Controlled Daylight Harvesting
East
North
direction is along the th the communal tial units are orientated maximize natural and
Detail 1
West
South
Window Glass 3400 x 12mm laminated glass with butacite
4. Natural Ventilation Balconies at communal spaces and operable windows within each unit allow for cross-ventilation and hence natural ventilation at the corridors and atrium space. The atrium is also open to allow for natural ventilation.
Window Track Trolley with nylon rollers connected to 100 x 60mm white finish aluminium frame
Detail 1
Systems Workshop ES&C Workshop 2017
Detail 5
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Self-Shading The inverted shape of the building on one side allows the recessed lower floors to be shaded by the upper floors. On the other side, the residential units are recessed below the floor plates in order to the limit the amount of daylight entering.
Fan
Detail 4 Post to beam connection 200 x 200mm post-to-beam aluminium bracket Column 300 x 300mm cross-laminated timber column Handrail Handle
5. Controlled Daylight Harvesting Skylight The skylight allow a restricted amount of daylight that is just enough to light up the atrium
Roof Drip Detail 20 x 20mm concrete indent Screed to fall
Window Track 60 x 50mm aluminium pin within aluminium soffit
Large Beam to tie back False Ceiling 600panel x 600mm cross laminated 600 x 600 x 10mm acoustic wood timber beam 20mm deep steel profile 150mm rockwood insulation 600mm false ceiling
1:1000 Plan
Lift and stair cores
Skylight The skylight allow a restricted amount of daylight that is just Detail 1 enough to light up the atrium 1:20 Section
Self-Shading The inverted shape of the building on one side allows the recessed Roof lower floors to be shaded by the 10mm thick damp proof upper membrane floors. On the other side, the 5 80mm bondex Detail composite steel deckunits are recessed below residential the floor plates in order to the limit the amount of daylight entering.
3. Greenery Greenery throughout the communal spaces at various levels of the building reduces natural heat gain and solar glare
north-east hence nlight into the units
ted
False Ceil 600 x 600 20mm dee 150mm roc 600mm fal
Room Floor 10mm matte white plaster finish 0.6mm polythene waterproofing 80mm bondex composite steel deck
30 x20mm stainless steel u channel
Beam with sealant 300 x 300mm cross-laminated timber beam 1000 x 12mm
butacite
Detail 6
laminated glass with
Handrail Glass 1000 x 12mm laminated glass with butacite
Detail 2
Detail 3
Outdoor Timber Decking 150 x 30mm timber cross section
Detail 2
Floors
Supply Plenum
DETAILED SECTIONS Fan Detail 4 Post to beam connection 200 x 200mm post-to-beam aluminium bracket
2. Air is cooled by chilled water supply
1:20 Section
1. FreshBuilding air from the Overall Section of Residential building exterior enters the fan coil unit
Cooling Coil Diffuser
Corridor
1:200 Section
Unit
Fan Coil Unit Fan coil units are installed in the communal areas such as the cafe in level 2 and 3. These units not only help cool the temperature quickly but also helps to introduce fresh air into these
Roof 10mm thick damp proof membrane 80mm bondex composite steel deck
1. Sun Path 3. Greenery throughout the communal The building Greenery is faing north-east hence spaces at various levels of the there is no direct sunlight into the building units reduces False Ceiling natural heat gain individual residential 600 x 600 x 10mm acoustic wood panel and solar20mm glare deep steel profile
West
South
Detail 5 Roof Drip Detail 20 x 20mm concrete indent Screed to fall
Window Track 60 x 50mm aluminium pin within aluminium soffit
150mm rockwood insulation 600mm false ceiling
DETAILED SECTIONS Window Track Trolley with nylon rollers connected to 100 x 60mm white finish aluminium frame
Large Beam to tie back 600 x 600mm cross laminated timber beam
West
South
5. Controlled Daylight Harvesting
4. Natural Ventilation Detail 1 Self-Shading stair cores Balconies at communal spaces and The inverted shape of the building on one side allows the recessed operable windows within each unit lower floors to be shaded by the upper floors. On the other side, the allow for cross-ventilation and Detail 5 residential units are recessed below natural ventilation at the the floor plates in order to thehence limit the amount of daylight entering. corridors and atrium space. The South atrium is also open to allow for natural ventilation.
Detail 4 Outdoor Timber Decking 150 x 30mm timber cross section
M&E within false ceiling 2 TheDetail m&e loop runs in each floor, supplying Column services to each unit by branching out300and x 300mm cross-laminated 5. Controlled Daylight Harvesting timber column entering the units via the corridor
Cooling Coil
Skylight Fan Coil Unit Fan coil units are installed in the communal The allow restricted areasskylight such as the cafe in level a 2 and 3. These units not onlyof help cool the temperature quickly amount daylight that is just but also helps to introduce fresh air into these spaces enough to light up the atrium
Diffuser
umn x 300mm cross-laminated ber column
Detail 5
3. Fan coil unit pushes cool air out into the room
rning Sun
Ground Floor Slab 500mm reinforced concrete cast in situ
Supply Plenum
1:20 Section
East
100mm thick coarse washed sand
2. Windand residential units are orientated spaces The prevailing direction is along the in this directionwind to maximize natural Detail 6 and SSW-NNE axis. Both the communal cross ventilation spaces and residential units are orientated in this direction to maximize natural and cross ventilation
1:10 Section
Roof 10mm thick damp proof membrane 80mm bondex composite steel deck Interior Cross-ventilation
1:1000 Plan
South
1:1000 Plan
Foundation Layer 1.5 x 1m pile cap
Detail 2
Geotextile and waterproofing membrane
louvres False Ceiling 600 x 600 x 10mm acoustic wood panel 20mm deep steel profile Partition Drywall False Ceiling 1200 x 500 x 12mm timber cladding 150mm rockwood insulation 600 x12mm 600 xplasterboard 10mm 600mm false ceilingacoustic wood panel 20mm deepvertical steel profile 100mm steel stud Rockwood insulation 150mm rockwood insulation 3. Fan coil unit pushes 0.6mm polythene 600mm false ceiling waterproofing cool air out into the room
South
Ground Layer 100mm compacted hardcore
Foundation Layer piles
Detail 3
Screed to fall
South
200mm precast reinforced concrete planter box with paint finish
Flashing 1:200 SectionSkylight The skylight allow a restricted 5. Controlled Daylight Harvesting
Unit
that is just 3000 xamount 800 ofx daylight 200mm
Skylight to light up the atrium 3400 x 12mm enough The skylight glassallow a restricted Facial laminated glass with structural Detail 1 Self-Shading amount of daylight that is just butacite The inverted shape of the building
Trolley x with nylon rollersDetail 1 1000 250mm connected to 100 x 60mm tapering beam white finish steel aluminium Detail 5
80mm bondex composite steel deck frame
300Large x Beam 300mm cross to tie back 600 x 600mm cross laminated laminated timber beam timber beam
enough to light up the atrium on one side allows the recessed Self-Shading lower floors to be shaded by the The inverted shape the building upper floors. On theof other side, the on one sideunits allows recessed residential arethe recessed below lower floors to be the floor plates in shaded order to by thethe limit upper floors. On the other side, the the amount of daylight entering. residential units are recessed below the floor plates in order to the limit the amount of daylight entering.
200 x 200mm steel Detail 5end plate bolted to CLT beam
50 x 30mm steel hollow section welded to steel beam Post to beam connection 200 x 200mm 200 steel end 4 post-to-beam x Detail 200mm bracket plate bolted toaluminium CLT beam Post to beam connection 200 x 200mm post-to-beam Column aluminium bracket 300 x 300mm cross-laminated
75mm versidrain
100mm thick coarse washed sand
Fan Fan
Cooling Coil Cooling Coil
Ground Floor Waterproofing 10mm damp proof membrane
Detail 5
concrete planter box with paint finish
150 x 30mm timber cross section Outdoor Timber Decking 150 x 30mm timber cross section
Supply Plenum
Geotextile and Concrete Column waterproofing reinforced concrete 2. Air membrane is600mm cooled bydiameter chilled water supply column cast in situr
Supply Plenum
2. Air 75mm is cooledversidrain by chilled water supply
Diffuser
Ground Floor Slab Ground Screed to fall Floor Screed 500mm reinforced concrete 50mm screed to fall Diffuser cast in situ 200mm precast reinforced concrete planter box with paint finish
Detail 5
Drainage cum protective sheet
Fan coil units are installed in the communal
Glass Window 3400 x 12mm laminated glass with butacite Glass Window 3400 x 12mm laminated glass with butacite
1:200
Window Track Trolley with nylon rollers connected to 100 x 60mm white finish aluminium Window Track frame Trolley with nylon rollers connected to 100 x 60mm white finish aluminium frame
Foundation Layer 1.5 x 1m pile cap
Geotextile and Section waterproofing membrane 75mm versidrain
Unit
Unit
Foundation Layer piles
Screed to fall
Detail 5
The m&e loop runs in each floor, supplying services to each unit by branching out and entering the units the corridor M&E within falsevia ceiling The m&e loop runs in each floor, supplying services to each unit by branching out and entering the units via the corridor
Ground Layer 100mm compacted hardcore
100mm thick coarse washed
sand 1:200 Section
1:10 Section M&E within false ceiling
Interior Cross-ventilation louvres
Foundation Layer piles
spaces units not only help cool the temperature quickly but also helps to introduce fresh air into these spaces
3. Fan coil unit pushes cool air out into the room
Ground Layer 50mm sand binding
Detail 3
Facial cover
Detail 2
1:20 Section
areas such the cafe in level 2 and 3. These Ground FloorasFinish Drain Fan Coil Unithelp cool the temperature quickly unitsmatte not only 10mm white plaster 400 x 300mm unfinished Fan coil units installed in the air communal but also helpsare to introduce fresh intodrain these finish concrete areas such as the cafe in level 2 and 3. These
Detail 2
50 x 30mm steel hollow section welded to steel beam
Foundation Layer 1.5 x 1m pile cap
Detail 6
Detail 3
TIONS
Detail Detail 13 Detail 2 1:20 Section
1:20 Section
1. Fresh air from the building exterior enters the fan coil unit 1. Fresh air from the building exterior enters FantheCoil Unit fan coil unit
3. Fan coil unit pushes cool air out into the room
Detail 2
Flashing
Ground Layer 50mm sand binding
1:10 Section
Detail 6
s mm
Detail 5
1:10 Section Detail 4 1:50 Section
timber column Column Beam 300 x 300mm cross-laminated 300 x 300mm timber column cross-laminated timber beam Beam 300 x 300mm cross-laminated Detail 6 timber beam media 800mm growth
Glass Floor 3000 x 800 x 200mm structural glass 50 x 30mm steel hollow section welded Glass to steelFloor beam 3000 x 800 x 200mm structural glass 50 x 30mm steel hollow section welded to steel beam
200mm precast reinforced concrete planter box with paint finish
Interior Cross-ventilation Partition Drywall louvres 1200 x 500 x 12mm timber cladding 12mm plasterboard 100mm steel stud Partitionvertical Drywall Rockwood 1200 x 500insulation x 12mm timber cladding 0.6mm polythene waterproofing 12mm plasterboard 100mm vertical steel stud Rockwood insulation 0.6mm polythene waterproofing
Ground 10mm m finish
Screed to fall
Facial cover
1000 x 250mm Detail 4 tapering steel beam
Drainage cum protective sheet
Window Handrail Handle Track Trolley with nylon connected to 30 x20mm stainless steel urollers channel 100 x 60mm white finish aluminium with sealant Handrail Handle frame 1000 x 12mm laminated glass with 30 x20mm stainless steel u channel butacite with sealant 1000 x 12mm laminated glass with Handrail Glass butacite 1000 x 12mm laminated glass with butacite Handrail Glass 1000 x 12mm laminated glass with butaciteGlass Floor
3000 x 800 x 200mm structural glass 50 x 30mm steel hollow section welded 200mm precast reinforced toTimber steel beam Outdoor Decking
Flashing
Foundation Piles
Detail 6
1:10 Section
1:10 Section
M&E within false ceiling Large Beam to tie back Interior Cross-ventilation x 600mm cross laminated louvres The m&e loop runs in each floor,600 supplying timber beam services to each unit by branching out and entering the units via the corridor Partition Drywall 1200 x 500 x 12mm timber cladding 12mm plasterboard 100mm vertical steel stud 3000 x 800 x 200mm Rockwood insulation 0.6mm polythene waterproofingstructural glass
300 x 300mm cross laminated timber beam
cover
50 x 30mm steel hollow section welded to steel beam
Room Floor 10mm matte white plaster finish 800mm growth media 0.6mm polythene waterproofing Room Floor composite steel 80mm bondex 10mm matte white plaster finish deck 0.6mm polythene waterproofing 80mm bondex composite steel deck
Ground Floor Screed 50mm screed to fall
Geotextile and waterproofing membrane
1:50 Section
Detail 3
0.6mm polythene waterproofing
x 200mm ass
sand
5. Controlled Daylight Harvesting
10mm matte white plaster finish
TIONS
100mm thick
Concrete Column 600mm diameter reinforced concrete column cast in situr
Ground Floor Slab coarse washed 500mm reinforced concrete cast in situ
Detail 4
ed timber post and beam for uppper 9 levels Concrete post and beam t level in compliance with fire safety
Piles
Drainage cum protective sheet
Roof Drip Detail Window Track 20 x 20mm concrete indent 60 x 50mm aluminium pin within Screed to fall Roof Drip Detail aluminium soffit Window Track 20 x 20mm concrete indent 60 x 50mm aluminium pin within Screed to fall Window Glass aluminium soffit 3400 x 12mm laminated glass with butacite Glass Window Window Glass 3400 x 12mm laminated glass 3400 x 12mm Window Tracklaminated glass with butacite with butacite Trolley with nylon rollers connected to 100 x 60mm white finish aluminium Window Track Ground Floor Waterproofing frame Trolley with nylon rollers connected 10mm damptoproof membrane 100 x 60mm white finish aluminium frame
South
75mm versidrain
un
1:20 Section
Fan Coil Unit
areas such as the cafe in level 21:20 and 3. These Section units not only help cool the temperature quickly Roof but also to introduce fresh air into these 10mm thick damp proofhelps membrane 80mm bondexspaces composite steel deck
entering the units via the corridor
West
Detail 4
1. Fresh air from the building exterior enters the fan coil unit
800mm growth media Fan coil units are installed in the communal Detail 6 Detail 1
Drain 400 x 300mm unfinished concrete drain
West Ground Layer 50mm sand binding
Ground Floor 10mm damp p
Detail 1
Diffuser
Unit
Detail 6
Drainage cum protective sheet
3. Fan coil unit pushes cool air out into the room
Detail 2 1:50 Section 1:20 Section
Cooling Coil
Fan
Detail 3
Ground Floor Finish 10mm matte white plaster finish
Handrail Glass 1000 x 12mm laminated glass with butacite
2. Air is cooled by chilled water supply
Detail 4
800mm growth media
un
Ground Floor Screed 50mm screed to fall
with sealant 1000 x 12mm laminated glass with butacite
Detail 4
10mm matte white Corridor Post to 3400 x 12mm beam connection 1. Sun Path East East North glass with 200 x 200mm post-to-beam plaster laminated The finish building is faing north-east hence aluminium bracket there is no direct sunlight into the butacite 1. Sun Path individual residential units East 0.6mm polythene The building is faing north-east hence Column Trolley with nylon rollers there is no direct sunlight into the 300 x 300mm cross-laminated 1:50 Section waterproofing timber column individual residential units connected to 100 x 60mm Automated Sensor Regulators Beam 80mm bondex 2. Wind M&E within false ceiling Motion sensors are installed at the white finish aluminium 300 x 300mm cross-laminated The m&e loop runs in each floor, supplying The prevailing direction is the 1:10 Section corridorswind and staircases foralong lighting composite steel deck timber beam services to each unit by branching out and frame SSW-NNE axis. energy Both the communal to reduce wastage Ground Floor Waterproofing 10mm damp proof membrane
Handrail Handle
1:200 Section
Glass Floor 3000 x 800 x 200mm structural glass 50 x 30mm steel hollow section welded to steel beam
North
Fan C Fan c areas units but al space
Diffuser
Outdoor Timber Decking 150 x 30mm timber cross section
Detail 3
Concrete Column 600mm diameter Detail 4 reinforced concrete column cast in situr
m timber cladding d eel stud on waterproofing
GN
1. bu the
Detail 2
Window Track Trolley with nylon rollers connected to 100 x 60mm white finish aluminium frame
DETAILED SECTIONS
ntilation
2. Air is cooled by chilled water supply
cladding 30 x20mm stainless steel u channel
Rockwood insulation 0.6mm polythene waterproofing
The inverted shape of the building on one side allows the recessed lower floors to be shaded by the upper floors. On the other side, the Glass Window residential units are recessed below 3400 x 12mm laminated glass the floor plates in order to the limit with butacite the amount of daylight entering.
Large Beam to tie back 600 x 600mm cross laminated 1:200 timber Sectionbeam
Partition Drywall
Room Beam Floor 10mm matte white plaster finish1200 x 500 x 12mm timber 300 x 300mm cross-laminated timber beam 0.6mm polythene waterproofing12mm plasterboard 80mm bondex composite steel 100mm vertical steel stud Detail 6deck
Detail 1 Self-Shading
m x 300mm cross-laminated ber beam
Supply Plenum Cooling Coil
Interior Cross-ventilation louvres
1. Fresh air from the building exterior enters the fan coil unit
t to beam connection x 200mm post-to-beam minium bracket
rning Sun
Post to beam connection 200 x 200mm post-to-beam aluminium bracket
1:20 Section
2. Air is cooled by chilled water supply
beam Floors evels beam e with GN safety
Window Track Trolley with nylon rollers connected to Fan 100 x 60mm white finish aluminium frame
Handrail Glass 1000 x 12mm laminated glass with butacite
Automated Sensor Regulators Motion sensors are installed at the corridors and staircases for lighting Supply Plenum to reduce energy wastage
Detail 4
Window Glass 3400 x 12mm laminated glass with butacite
1:1000 Plan
Outd 150
Roof Drip Detail 20 x 20mm concrete indent Screed to fall
Window Track 60 x 50mm aluminium pin within aluminium soffit
False Ceiling 600 x 600 x 10mm acoustic wood panel 20mm deep steel profile 150mm rockwood insulation Unit 600mm false ceiling
Handrail Handle 30 x20mm stainless steel u channel with sealant 1000 x 12mm laminated glass with butacite
Room Floor 10mm matte white plaster finish 0.6mm polythene waterproofing 80mm bondex composite steel deck
Fan
Han 1000 buta
1:200 Section
Window Glass 3400 x 12mm laminated glass with butacite
1:1000 Plan
2. Wind The prevailing wind direction is along the SSW-NNE axis. Both the communal spaces and residential units are orientated in this direction to maximize natural and Corridor cross ventilation
Skylight The skylight allow a restricted amount of daylight that is just enough to light up the atrium
The inverted shape of the building on one side allows the recessed lower floors to be shaded by the upper floors. On the other side, the Roof residential units are recessed below10mm thick damp proof membrane the floor plates in order to the limit 80mm bondex composite steel deck the amount of daylight entering.
Detail 6
Detail 3
Concrete Column 600mm diameter reinforced concrete column cast in situr Concrete Column 600mm diameter reinforced concrete column cast in situr Ground Floor Waterproofing 10mm damp proof membrane
Ground Floor Slab 500mm reinforced concrete cast in situ
Ground Floor Screed 50mm screed to fall
Ground Floor Finish 10mm matte white plaster finish
Detail 2
1:20 Section Detail 3
1:20 Section
Drain 400 x 300mm unfinished concrete drain
Systems Workshop ES&C Workshop 2017
East
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Ground 100mm
PROJECT OF SHIGERU BAN ARCHITECTS
HAMLET
CONTRIBUTIONS DURING INTERNSHIP
SUMMER 2017
LUXURY COMPANY RESORT FOR CJ GROUP
Hamlet is a luxury company resort for CJ Group that extends from the current Nine Bridges Country Club in Gyeonggi-do, South Korea. This project consists of 4 buildings - Condo A, Condo B, Recreation Centre and Learning Centre. It borrows much of its formal and material language from the existing country club.
Hamlet Shigeru Ban Architects Project 2017
My responsibility for the overall project is to generate visuals to communicate design ideas to the clients. These visuals consisted of overview renders, mood renders, conceptual diagrams, conceptual models and technical details diagrams.
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Beyond the overall project, I was also involved in the schematic design of Condo B, which is the private building for the client’s senior management. Due to the significance of Condo B, my team and I met with the client fortnightly to discuss the design. Through the use of 3D models and 2D drawings, we made design decisions and alterations according to their feedback.
Post-processed Render of Condo A, Recreation Centre and Learning Centre
Post-processed Render of Recreation Centre Interior
Diagram of Condo A’s Beam-to-Wall Connection
Study Render of Condo B’s Operable Window
Hamlet Shigeru Ban Architects Project 2017
Post-processed Render of Learning Centre Deck Onlooking Recreation Centre (Day vs Night)
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JIAQI LIEW
SELECTED WORKS 2016 - 2018
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