Bryan Lim Architecture Portfolio

MY BACKGROUND

EDUCATIONAL BACKGROUND

Name: DOB: Gender Nationality: Languages: Contact no: Email:

May ‘14 - Present

Singapore University of Technology and Design (SUTD) Undergraduate in Architecture and Sustainable Design Cumulative GPA Total 4.45/5.00

Jan ‘10 - Dec ‘11

Canning College - Perth, Western Australia WAUFP Certification (‘A’ Levels Equivalent) Combined Percentage Score 83.8%

Jan ‘08 - Dec ‘09

Murdoch College - Perth, Western Australia Secondary School Education

Sep ‘05 - Dec ‘07

ELC International College - Selangor, Malaysia Secondary School Education

Bryan Lim Wei Guo 02 Oct 1993 Male Singaporean English, Mandarin, Malay 8656 6937 bryan.lim.WG01@gmail.com

WORKING EXPERIENCE June ‘17 - Aug ‘17

Czarl Architects Architecture Intern Participated in a competition and produced artist impressions

Jan ‘16

Spores Studio Architecture Intern Develop architectural drawings and prepared documents to present to clients

ACHIEVEMENTS // LEADERSHIP POSITIONS Feb ‘17

ASD Core Studio ASD Core Design Certificate of Merit 2017

Dec ‘16

Paper Architecture: Unbuilt Dreams (SIA event) Guest Speaker

Sep ‘14 - Sep ‘15

SUTD Basketball Team Captain

May ‘15 - Sep ‘15

SUTD Asian Leadership Program Exchange Student

Sep ‘10 - Sep ‘11

Overseas Christian Fellowship (Curtin), WA Local Committee - Treasurer/ Missions Secretary

SOFTWARE PROFICIENCIES Beginner

AutoCAD, Grasshopper, Artlantis, Revit

Intermediate

Adobe Illustrator, InDesign, Kerkythea, V-Ray

Advanced

Adobe Photoshop, Sketchup, Rhino

01

02

OPTION STUDIO - AUGMENTED SPACE

DUST TO DUST

CORE STUDIO 3 - URBAN HABITATION

CONFLUENCE

STUDIO WORKS

03

CORE STUDIO 3 - URBAN HABITATION

HOME OF PLANES

04

CORE STUDIO 2 - AMALGAMATED WHOLE

ALLURINGS

LIST SELECTED

05

MATERIAL COMPUTATION

BUTTERFLY BRIDGE

DIGITAL FABRICATION

06

DIGITAL DESIGN AND FABRICATION

KINETIC WEAVE

T OF D WORKS

07

ARCH OUT LOUD - TOKYO VERTICAL CEMETERY

ENSO CEMETERIAL MONUMENT

(COLLABORATION WITH CZARL ARCHITECTS)

COMPETITION

08

ONG FOUNDATION - GO BEYOND

CONHUB

(INTERNSHIP UNDER CZARL ARCHITECTS)

01 UNIVERSITY WORKS

OPTION STUDIO - AUGMENTED SPACES

DUST TO DUST BRIEF: The objective of this studio was to extract material systems from vernacular architecture buildings and to implement it into the design of our building. Furthermore, we are to incorporate space, program and time into the design, thus exploring how the 3 factors could interlock and respond with one another.

TUTOR YUICHI KODAI // 13 WEEKS // SITE MT FABER // INDIVIDUAL Time is often measured discretely, but in reality it is continuous and ever changing. Many buildings grow or shrink at specific times, however, DUST TO DUST aims to evolve gradually as time progresses fluidly. The principle of this project is to use mud architecture, inspired from vernacular buildings, to control erosion to transform spaces. It is designed as a columbarium which evolves into a gallery, followed by a museum. One key feature of the building is the central memorial of the dead. This memorial begins to erode to reveal a hidden garden, symbolical of the fading of death giving birth to life.

Newest Oldest

BUILT ENVIRONMENT SINCE 1950

Current Future

PREDICTED FUTURE BUILT ENVIRONMENT

Newest Oldest

PAST CEMETERY LOCATION

PROJECT SCHEME

Spatially differentiated by walls along x and y axis

As walls along the x axis erodes, cubicles combine to form galleries

Finally when the y axis wall erodes, the space is now transformed to an open atrium

Controlling erosion allows for the following transformations: 1 Indoor spaces transform to outdoor as ceiling erosion occurs 2 Evolving circulation systems as wall erosion occurs 3 Spatial transformation as walls and ceiling erode, enlargening space and changing light quality 4 Revealing what was otherwise hidden before erosion

2017

2067

2117 1

2 3

2017

2067

4

2117

6

1 2 3 4 5 6

5 2017

2067

1ST FLOOR ROOF PLAN

2117

N

2017

Resting area // exhibition Columbarium // gallery Memorial Hidden garden Outdoor garden Cafe 2067

2117

1ST FLOOR PLAN

TIME REQUIRED TO ERODE WALL OF SIMILAR DIMENSIONS

COMPOSITION 1

COMPOSITION 2

COMPOSITION 3

COMPOSITION 4

COMPOSITION 5

30% White Glue 70% Sand

20% White Glue 80% Sand

10% White Glue 90% Sand

30% White Glue 70% Sand

10% White Glue 90% Sand

1:1 WATER TO WHITE GLUE RATIO

2:1 WATER TO WHITE GLUE RATIO

2017

2067

2117

1

2017

2067

2117

3

2 1 2 3 2017

2067

2ND FLOOR ROOF PLAN

2117

N

2017

Resting area Columbarium // gallery Hidden garden 2067

2117

2ND FLOOR PLAN

2017

2067

2117

2017

2017

2067

2117

SECTION

206

67

2117

2017

2067

2117

PERSPECTIVE OF MEMORIAL OVER TIME

2017

2067

2117

SECTION

02 UNIVERSITY WORKS

CORE STUDIO 3 - URBAN HABITATION

CONFLUENCE PRESENTED AT PAPER ARCHITECTURE: UNBUILT DREAMS

BRIEF: Working on the scales of the city, the building and the individual unit, the studio aims to understand the complex nature of urban contexts as places for habitation and the mutual potentials evolving between them. The studio will develop innovative urban housing concepts for sustainable high-dense living and focus on themes like density, diversity and connectivity.

TUTOR OLIVER HECKMANN // 12 WEEKS // SITE BUKIT BATOK // INDIVIDUAL CONFLUENCE’ objective is to blur the boundaries between the public community and the private dwellers. In addition, I was particularly interested in exploring the potential of accomodating people of different socio-economic status mixed within clusters of residential units, thereby enhancing the possible interactions between the different communities. This is mainly done by creating different thresholds within the private unit as a means of controlling privacy as well as providing the potential for the interior spaces to spill out towards the public walkway.

Commercial Residential Community Transport

PROGRAM DISTRIBUTION

Seniors Children/Teens Working Adults Site

URBAN FLOW

High Activity Medium Activity Low Activity

ACTIVITY OVERFLOW

1. Existing activities spill onto site

2. Massing wraps around public courtyard

3. Public space spills over creating private spaces

4. Create private courtyards by wrapping massing around public spaces

5. Points in massing lifted up for public access

6. Public circulation carved across massing

PUBLIC CIRCULATION

VERTICAL CIRCULATION

HORIZONTAL CIRCULATION

UNIT AGGLOMERATION

STRUCTURES

PROGRAM DISTRIBUTION

LEVEL 3 PLAN

N

GROUND PLAN

5

4

3

2

1

6 1 2 3 4 5 6

Studio apartment 2 Bedroom (small) 2 Bedroom (large) 3 Bedroom (small) 3 Bedroom (large) Community space

ZOOMED LEVEL 3 PLAN

STUDIO APARTMENT

W/out extension ~ 41sqm With extension ~ 57sqm

2 BEDROOM (SMALL)

W/out extension ~ 64sqm With extension ~ 73sqm

2 BEDROO

W/out extension ~ 85sqm With extension ~ 92sqm

OM (LARGE)

3 BEDROOM (SMALL)

W/out extension ~ 95sqm With extension ~ 100sqm

3 BEDROOM (LARGE)

W/out extension ~ 112sqm With extension ~ 117sqm

Private Public

03 UNIVERSITY WORKS

CORE STUDIO 3 - URBAN HABITATION

HOME OF PLANES BRIEF: The focus of this project was to work within the scale of the apartment unit and to understand its essential place within urban habitation. The brief calls for students to translate innovative concepts for high-density living into a comprehensive architectural space, whilst maintaining the current load bearing systems present within the frame of the Bras Basah apartment units provided. We are to envision alternative dwelling models that can respond to changing soceities as well as to think of new concepts for urban habitation and how it affects a residential community within a particular idea of sharing their private realm.

TUTOR OLIVER HECKMANN // DURATION 2 WEEKS // SITE BRAS BASAH // INDIVIDUAL HOME OF PLANES was conceived in order to challenge the preconceived notion of how we perceive spaces and furniture. By creating a cluster of planes at an intimate scale, what is used as a tiny floor slab can now be reimagined as a step in a series of stairs, a kitchen table, a bench etc. A combination of these planes hence forth creates a space which is meant to be uniquely defined by its users and to break the barriers between typical programs within a residential unit.

CC’

AA’ BB’

GROUND PLAN

SECTION AA’

SECTION BB’

CC’

AA’ BB’

LEVEL 1 PLAN

Kitchen Public Spaces Dining Bedroom

SECTION CC’

Circulation

04 UNIVERSITY WORKS

CORE STUDIO 2 - AMALGAMATED WHOLE

ALLURINGS BRIEF: Students are to design a SUTD satellite campus housed in Singapore’s city center. Programmatically, the exercise aims to design a structure with a flexible space that is able to host public events of the university in a central urban location while accomodating a series of related programs (classrooms, performance centre etc) and administrative functions. This project mainly introduces us to designing within a complex urban fabric while exploring spatial relationships and sequences in an integrated urban and architectural design.

TUTOR CHRISTINE YOGIAMAN // 6 WEEKS // SITE DHOBY GHAUT // INDIVIDUAL ALLURINGS consist of 3 rings which morphs into one another, merging each threshold with one another. It’s objective is to draw visitors into the exhibition hall and to continually be attracted to explore the entirety of the building. It does this by using the second ring to serve as a boundary for preventing people from fully seeing what is happening at the epicenter of the building, which houses the performance center. This is deliberately done to entice visitors to circumambulate the periphery ring (exhibition hall) and move towards the performance center.

ACTIVITY LEVEL

URBAN FLOW

POINT OF VIEW TRANSFORMATION

1. Viewpoints from public circulation around site

4. Outer and secondary band are lifted up

2. Perpendicular planes from viewpoints generate massing form

3. 3 bands/ layers house different programs

5. Outer bands extended outward for lecture theatres

6. Resultant final massing

SITE PLAN

1 2

BB’

4

3

5 6

AA’ N

1 2 3 4 5 6

Admin office Office balcony Lecture theatre 1 Lecture theatre 2 Outdoor balcony Exhibition gallery

1ST FLOOR PLAN

1 2 3

BB’

4

5

AA’ N

1 2 3 4 5

Exhibition gallery Classroom Performance stage Cafe Outdoor gallery

GROUND PLAN

SECTION AA’

SECTION BB’

05 UNIVERSITY WORKS

MATERIAL COMPUTATION

BUTTERFLY BRIDGE BRIEF: The aim of this project is to conceptualise architecture as material distribution in space and explore computational analysis and form finding methods which enable a high� level of control over material/structural behaviour. Hence, instead of the typical practice of designing the form and aesthetic first followed by the structures to supplement it, this project reverses the process, using structural analysis and computation to determine the entirety of its design.

TUTOR SAWAKO KAIJIMA // DURATION 7 WEEKS // SITE ORCHARD // GROUP The BUTTERFLY BRIDGE is designed to alleviate the pedestrian/ vehicular congestion which occurs at the intersection of Orchard Rd and Cairnhill Rd by bringing the pedestrian circulation skyward. Using computational form finding methods, we are able to determine the design and form of the bridge through its structural analysis by applying loads and support points. As such, the design of the bridge is inspired by its structural behaviour.

TOPOLOGY OPTIMISATION

Trim and cleaning of mesh. Adding stairs and programs on bridge

SHELL ANALYSIS

Extracting mesh stiffness factor and associating it to frame thickness

FRAME ANALYSIS

TOPOLOGY OPTIMISATION

SHELL ANALYSIS

By inputting the load, support and void regions, we are able to generate a form which adapts to the constraints created. Void Region // Load Region // Support Region

From the mesh generated, we applied loads and supports to test its structural strength, identifying its stiffness factor and where it deflects most. Load Region // Support Region

FRAME MANIPULATION

CONSTRUCTION

We extracted the information from the structural analysis and associated it with the thickness of the frames. Highest deflection equals thickest triangular frames.

From there. we then cut the components of the bridge by waterjetting concentric rings, and attaching them to each other sectionally.

Cairnhill Rd

Or ch

ard

Rd

N Grange Rd

PLAN

AXO

06 UNIVERSITY WORKS

DIGITAL DESIGN AND FABRICATION

KINETIC WEAVE https://www.youtube.com/watch?v=VrKl-C8-SpE BRIEF: The objective of this project is to design and fabricate an installation which will be placed at any location within SUTD’s premises. The focus is to craft the joinery elements and its mechanics using 3D printers, which will then hold the installation together. One of the main restrictions was such that we had to use wooden dowels as the main ingredient in fabrication the installation.

TUTOR STYLIANOS DRITSAS // DURATION 5 WEEKS // SITE SUTD // GROUP The aim of the KINETIC WEAVE is to create an installation which is constantly changing, resulting in an ever changing form depending on the motors movements which are responsible for holding the structure in place. We designed a simple grid that can be expanded and connected the servos to 4 intersections, which controls the entire movement of the installation.

The structure of the KINETIC WEAVE follows a simple grid system, which is able to expand and contract as it transforms over time.

ELECTRONICS AND MOTOR MECHANISM The nodes were designed as 3D printed ball joints which are free to orbit around its pivot, this allows for added flexibility and adaptability as the Kinetic Weave moves. A slit is created between the wooden dowels with a screw and nut so as to enable the structure o extend. Additionally, we used 4 servo motors attached to 4 junctions of the structure, which pull and release according to the code we placed into the system.

07 COMPETITION (IN COLLABORATION WITH CZARL ARCHITECTS)

ARCH OUT LOUD TOKYO VERTICAL CEMETERY

ENSO CEMETERIAL MONUMENT BRIEF: In the Shinjuku district of Tokyo, Arch Out Loud challenges designers to develop proposals for a vertical cemetery that explores the relationship between life and death within the city. Designers are to 1 Explore the relationship between death and the current state of the dicipline of architecture 2 Look for innovative ways a cemetery can be experienced 3 Create a solution that efficiently addresses Tokyo’s issue with space 4 Define a relationship between the cemetery and city and 5 Examine the connection between a cemetery and the commercial/ pop culture identities of Tokyo.

DURATION 4 WEEKS // SITE SHINJUKU, TOKYO // GROUP In this project, we attempt to negotiate the liminality of cemeterial spaces and the transcendence of monumentality in architecture. Cemeterial spaces are not just for the dead. These liminal spaces do more for the living by offering the living respite, healing, histories and memories and personal reflections. We often see Death as a perfect universal closure of the imperfection of mortality. Yet, it is often also perceived as a beginning that opens indefinitely to endless possibilities of what might be a perfect metaphysical existence across all cultural belief system.

THE INCOMPLETE ENSO Within the circle of life and death, there are points of liminal experiences which could potentially see the completion of existing imperfection. The Japanese Zen Buddhist have ascribed the Incomplete Enso to the these liminal visceral moments of perfection of the imperfection. The incomplete Enso, while intrinsically Japanese can be also universally applied to all realities of existence.

PERMUTATIONS OF INCOMPLETE ENSO MODULAR VOLUMES

The spatial planning and programmatic arrangements comprises a series of circular volumes of various diameter distributed evenly. The basic circular volumes are distributed to form 3 different zones which are connected to a central lift core foyer which stops at 3 floor intervals.The Enso volumes may house columbarium of various sizes, crying rooms, memorial room, administrative functions while the absence of a circular volume gives rise to a quiet garden space for contemplation. The primary composition of the Enso volumes are kept intentionally identical for every floor except for the incidental omissions or redistribution of volumes that allows for potentially infinite variations and permutations of spaces between from floor to floor.

Legend

Columbarium Garden Deck Miscellaneous

STANDARD COLUMBARIUM PLAN

TRANSITIONAL FLOOR (LEVEL 30)

The meandering nature of navigating through the cemetery park offers the patron possibilities of a serendipitous encounter of cemeterial space while a mandatory descent between the 2 terraced parks via steel mesh staircases & glass landings may present opportunities for the patrons to the contemplate that moment of liminal experience.

TRANSITIONAL FLOOR (LEVEL 28 & 29)

ROOF TOP GARDEN PLAN

The allure of roof top commercial attractions is intended to siphon off patrons (non columbarium visitors ) from the ground level and allow them to transit at the mid level transitional sky gardens which is essentially a elevated public cemetery park split into 2 terraces. Way finding to the lower park terrace transfer lift (to the roof ) is deliberately inconvenienced and slowed down.

LEVEL 30

LEVEL 29

LEVEL 28

STANDARD COLUMBARIUM PLAN

TRANSITIONAL FLOOR SECTION

ROOF TOP GARDEN

TRANSITIONAL PLAN

GLASS PODS

08 COMPETITION (WHILE UNDER CZARL ARCHITECTS)

ONG FOUNDATION - GO BEYOND

CONHUB HONOURABLE MENTION

BRIEF: Every year, about 2 million shipping containers are no longer used. What if these could be upcycled into sustainable architecture to reduce the total carbon footprint of global development? Go Beyond: Shipping Containers aims to convert these unused containers into modular habitats which can serve as temporary housing solutions to cater for urgent housing needs.

DURATION 4 WEEKS // SITE UNDEFINED // GROUP In any event of disaster, whether man made or natural, there is always an urgency to find solutions to provide temporary housing for refugees or disaster victims. Often times we focus on the impending physical needs by restoring the homes which they have lost, but our challenge was to rekindle the communal spirit, allowing them to heal as the victims confide and support one another. We do not merely want to tackle their physical needs, but to also assist in their psychological recovery.

PROJECT SCHEME

!! !!

!! !!

Disrupt external views by joining containers

Create community space through container arrangement

Occupants can transit between community spaces freely

ConHub’s goals: 1 Carve out community spaces between shipping containers 2 Develop transitional mid term modular container prototypes that could house disaster persons for 7-10 years 3 Cloistering the inside, providing limited views of the external destruction 4 Create small hubs which are interconnected with one another 5 Cultivate a sense of belonging within each community.

BASIC BUILDING BLOCK

COMBINED BUILDING BLOCK

STACKED BLOCK

HALF WING OF A BASIC COMMUNITY BLOCK

COMMUNITY BLOCK

COMBINED SOCIAL HUB

‘T’ TYPE

Single 20 footer unit

20 footer placed at the end of a 40 footer container

‘T’ shaped units are stacked on top of one another with the center unit offset to the 1st and 3rd unit

The stacked block is repeated and placed side by side with each other and the half wing is completed by placing a single 20 and 40 footer unit at the beginning followed by the M&E container at the end

The basic half wing is mirrorred to create a ‘C’ shape. The resulting space carved creates a shared outdoor space private to each community block

Each stacked block consists of a combination of 2 ‘L’ units, one 20 footer and 40 footer single unit

Similar to the ‘T’ type, the stacked block is repeated and placed side by side, capping it with a M&E container and 2 single units

This configuration of ‘L’ stacked blocks creates a significantly more diversed community of inhabitants

The ‘P’ shape has the 2nd level mirrored thus allowing the 20 footers to stack atop the 20 footers and the 40 footers on 40 footers

The ‘P’ shape is replicated and joined to each other in a similar fashion as the other configurations. It’s again capped off by introducing an M&E unit and single units at the beginning and end of each half wing

This combination of ‘P’ types is specifically designed with larger combined units stacked atop of one another

‘L’ TYPE 20 footer stacked on top of a 40 footer container Single 40 footer unit

‘P’ TYPE 20 footers combined side by side to a 40 footer container

Basic building block for the next phase M and E Container Single unit containers (20 and 40ft) Formal operations of new phase Spiral Stairs

SINGLE 20 FOOTER

SINGLE 40 FOOTER

P TYPE CONFIGURATION

L TYPE CONFIGURATION

T TYPE CONFIGURATION

MECHANICAL AND ELECTRICAL SYSTEMS

For each unit in a stacked block, a 3kW solar panel is connected to an energy module thus generating enough power to accomodate a unit of 4 to 6 people. Additional energy can be received from the generator from the M&E unit

For each type of stacked block there consists of 2 plan configurations which has the toilet mirrored and placed in vertical alignment with each other. This allows for the sewage piping to be disposed directly to the septic tank. Furthermore, connections to the M&E unit can be direct despite its unique configuration. The M&E unit thereby supplies water and electrical energy to roughly 8 to 12 units. The M&E unit will have a washing area which is shared between each community wing

Septic Tank

TRANSPORTATION AND CONSTRUCTION

The shipping containers are pre-fabricated before shipping onto site. This is markedly easier as windows and wall placements are extremely similar across unit types

Since the containers are not joined together yet, this allows for easier transportation as the 40 footers and 20 footers can be stacked directly on top of one another, maximising efficiency in transportation

When the container are moved on site, the combined units are assembled together by welding the 20 footers with the 40 footers

150

CONSTRUCTION DRAWINGS

Base of shipping container Spray foam insulation

Window framing

98

68

10

366

Container deck

85

50

70cm metal support framing

150

530 370 160

1706 Slab foundation

70cm metal support framing

Dry wall

53

Precast foundation wall

366

60

Gravel infill between foundation walls

Load bearing elements of both containers are welded together where it joins

202

Base plate on foundation wall

Finally, a mobile crane will place all the modules together to form its cohesive structure

150

202

60

28

BRYAN LIM WEI GUO CONTACT: 8656 6937 EMAIL: BRYAN.LIM.WG01@GMAIL.COM