Gil Kilmo Kang - Professional Work | 2016 - 2023

GIL KILMO KANG Columbia University, GSAPP M.ARCH | 2019 Hanyang University, South Korea B.ARCH | 2016

Architectural Work Sample 2016 - 2023

Gil Kilmo Kang kk3142@columbia.edu +1 646.444.0205 www.linkedin.com/in/kilmo-kang

PROFESSIONAL EXPERIENCE

EDUCATION

Bjarke Ingels Group A/S | Copenhagen, Denmark 2022 - 2023 Architect • Contributed as one of the lead architects in a prestigious automobile flagship store project in South Korea, responsible for generating key plans, diagrams, and producing high-quality render images. • Played a pivotal role as one of the main architects in the Concept Design (CD) phase of a cutting-edge high-tech center project in South Korea, overseeing three distinct sites. Produced detailed drawings and diagrams to support the project’s development.

Columbia University | New York, United States 2016 - 2019 Master of Architecture (M.Arch)

B.I.G. Architecture D.P.C. | New York, USA Design Assistant •

Played a key role in the design proposal for Google Campus in California, contributing to the project through the creation of diagrams, conceptual study models, and V-ray renderings.

Junior Designer •

JUN 2018 - AUG 2018

2019 - 2022

Served as a core designer in the development of the residential tower design for Project NABR (Sustainable Housing) in San Jose, California. Primarily responsible for digital modeling, producing marketing renders, and preparing drawing plans for the Schematic Design (SD) and Design Development (DD) stages.

Studio Goetz | New York, USA JUN 2017 - AUG 2017 Intern

PORTFOLIO

• • •

REFERENCE Martin Voelkle | Partner Bjarke Ingels Group (NYC) mv@big.dk Tom Lasbrey | Senior Designer Bjarke Ingels Group (NYC) toml@big.dk

Utilized CAD software to produce precise project drawings and physical models for a townhouse renovation project in Brooklyn, New York. Contributed to the renovation of a penthouse at 432 Park Avenue in Manhattan, New York by producing highly detailed physical models and construction drawings. Conducted thorough site surveys and created accurate physical models for a prestigious penthouse renovation project in Manhattan, New York.

Aedas | Singapore 2012 - 2013 Intern • Played a role in the design proposal for Gardens by the Bay MRT Station in Singapore by creating a detailed physical model. Assisted in the development of design options using digital programs such as SketchUp and Rhinoceros. • Contributed to the design proposals for the redevelopment of the Yangon railway office in Yangon, Republic of the Union of Myanmar, by producing accurate physical models.

Hanyang University ERICA | Ansan, South Korea 2008 - 2016 Bachelor of Architecture (B.Arch) National University of Singapore | Singapore Student Exchange Program

2012 - 2013

PUBLICATION | EXHIBITION Columbia University GSAPP ABSTRACT | New York, USA Yearly publication of selected student works at GSAPP • Final physical model of INTERPLAY

2017

Columbia University GSAPP Homepage | New York, USA Selected as main image for Architecture Program Introduction on GSAPP Website • Rendered image of LIVE, PLAY

2017 - 2018

Selected student works on GSAPP Website • Plan detail drawing of DOUBLE X DOUBLE • Physical model of Tensile/Compression surfaces • Elevation drawing & Physical model of Fall 2018 Studio work • Final physical model of INTERPLAY

LEADERSHIP Team leader of Student Exchange Program | Singapore 2012 - 2013 Orchestrated seamless communication and schedule coordination between the National University of Singapore and Hanyang University as part of a program management role. Demonstrated adept management of contacts while assuming responsibility for overseeing team events and facilitating internal communication channels. Vice President of Bouldering Community (City Rock Gang) | New York, USA 2021-2022 Facilitated a weekly instructional session, assuming a leadership role in the management of the group. Provided comprehensive guidance to novice climbers by imparting fundamental workouts and techniques with a focus on skill development and safety protocols.

AWARDS SKILLS

Jinho Lee | Associate Bjarke Ingels Group (CPH) jile@big.dk

Software Revit, Rhinoceros, AutoCAD, Google SketchUp, Microsoft Office Suite, Photoshop, Illustrator, InDesign, Enscape

Erica Goetz | Professor Studio Goetz (NYC) studio@studiogoetz.com

Manual Proficient in a diverse range of artistic mediums, including paper, glass, wood, boards, and metal, with expertise in physical modeling.

Excellent Scholarship, Hanyang University | Ansan, Korea 2009 - 2014 Earned Merit Scholarships from the Department of Architecture consecutively from 2009 to 2014, underscoring consistent academic excellence and recognition within the field.

LANGUAGE Korean: Native | English: Proficient | Spanish: Basic

CONTENTS

01 02 03 04

Hightech Center - Busan

1

Professional Work at BIG | Service Center | 2022 - 2023

Hightech Center - Seoul, Daegu, Ulsan

11

Professional Work at BIG | Service Center | 2022 - 2023

NABR Housing

31

Professional Work at BIG | Residential | 2020 - 2022

Bloomhouse

41

Professional Work at BIG | Masterplan | 2019 - 2020

05

Live, Play

06

Double x Double

07

Interplay

47

Academic Work at Columbia University | Residential | 2017

55

Academic Work at Columbia University | Education + Residential | 2019

Academic Work at Columbia University | Library | 2017

61

kk3142@columbia.edu

01 HIGHTECH CENTER - BUSAN PROGRAM LOCATION PROJECT LEADER COMPANY YEAR

Hyundai Automobile Service Center Busan | South Korea Jinho Lee, Seongil Choo Bjarke Ingels Group 2022 - 2023

Traditionally, the mobility maintenance chain has consisted of separate and distinct elements, encompassing various customer experiences, servicing procedures for technicians, and administrative tasks for staff members. However, the Hyundai Hightech Center in Busan presents a transformative approach by gathering these components and re-imagining them as an interconnected whole, poised for the future. This cutting-edge facility serves as a nexus that seamlessly integrates terrestrial and aerial mobility, while fostering collaboration among customers, technicians, engineers, and staff within a harmonious environment that seamlessly blends indoor and outdoor spaces, as well as technology and nature. The vision of our Hyundai Hightech Center extends beyond mere connectivity; it strives to create a future where mobility intertwines with sustainable and equitable human existence, in alignment with societal and global dynamics. Recognizing the importance of holistic well-being, the center not only embraces technological advancements but also aims to facilitate a harmonious coexistence between individuals, society, and the natural world. By nurturing a collaborative ecosystem, this remarkable facility anticipates and shapes the future of mobility, paving the way for a more inclusive and environmentally conscious approach to enhance the quality of life for all users.

1

2

Hightech Center | Busan, South Korea

LAYOUT EFFICIENCY

ORTHOGONAL RELATION

The bar dimension is based on the most efficient layout to accommodate one group. The linear layout allows efficient AGV circulation from the core to each workstation.

Cores are connecting each workstation level, 90 degree relation between the different floors guarantees efficient AGV circulation between each level.

SEPARATE ENTRANCES

BRAND SPECIFIC AND BIOPHILIC OUTDOOR

Customers will have a separate access according to the brand. The separate entrance will result in efficient vertical circulation of the cars through the different floors and movement of the customers from each entrance to the designated customer lounge.

Each bar will be dedicated to one brand to guarantee the operational requirements and respect the brand identity. The space in between each bar will create a biophilic indoor/outdoor terrace with visual connection to the atrium.

ADDITIONAL PROGRAM

STACKED BARS

Special programs related with customer experience, such as lounges and office spaces, will be placed above the workstation bars. This location gives to the costumer premium points of views and a new way to explore the city surroundings.

3

kk3142@columbia.edu

Following the design strategies we develop the perfect Jenga building for the High-Tech center. Each building will be adapted to the restriction and potential of the site. In Busan the building narrower the ground floor to allow circulation and it grows towards the top to allocate all the required program.

4

FACADE

FACADE DETAIL

kk3142@columbia.edu

A

B 200

1500

C

1500

1500

1500

1500

1500

A-6403 / 2

Hightech Center | Busan, South Korea

D

1

2

TYPICAL MAINTENANCE FLOOR

TYPICAL MAINTENANCE FLOOR

DRAIN GUTTER ALONG FACADE

CLIENT 1500

STEEL PANEL (OPEN FOR RAIN WATER)

PROJECT ARCHIT

DESIGN ARCHITE

1870

50

720

200

580

650

180 400

ROOF INSULATION (SLOPING TOWARDS ROOF GUTTER)

VAR.

1500

F.F.L. +32.7 m

380

F.F.L. +32.7 m

1500

H C

L E V EL 5

L E V EL 5

7800

7800

7800

2.0

5000

7800

5200

50

FACADE DESIGNE

STEEL PANEL

6300

SOLID STEEL PANEL UNDER DEVELOPMENT

DESIGN STRUCTU

VENTILATION DUCTS OMITTED OR REDUCED AT CANTILEVERING VOLUMES.

LIGHT & SPRINKLER PROVISION 50-100mm

3800

INSULATED FACADE PANEL THICKNESS ETC. TO BE CONCLUDED

GE NE R AL NOTE L E VE L 4

F.F.L. +24.9 m

STRUCTURE AT CANTILEVER

SOFFIT INSULATION

2800

200

STEEL FRAME

AHU INTAKE/EXHAUST DUCT TO BE DEVELOPED

STEEL SOFFIT. AS SOLID FACADE (GRID AND MATERIAL) TO BE DEVELOPED

VISION GLASS W. INTEGRATED STEEL MESH TO BE DEVELOPED

SOFFIT VOID AS PLENUM SPACE FOR AHU INTAKE/EXHAUST LIGHT & SPRINKLER PROVISION 50-100mm

PEFORRATED SOFFIT PANEL FOR AHU INTAKE/EXHAUST TO BE DEVELOPED

STRUCTURE BEHIND FACADE

FACADE MULLION MATERIAL & GEOMETRY UNDER DEVELOPMENT

LOCAL WEATHER PERFORMANCE LOUVRES AT DUCT CONNECTION FOR AHU INTAKE/EXHAUST

STRUCTURE ALONG FACADE VISION GLASS WITH INTEGRATED STEEL MESH TO BE DEVELOPED

OPTION. VENTILATED MULLION FOR NATURAL VENTILATION DESIGN AND EXTENT TO BE DEVELOPED 7400

1. DRAWING COO 2. OUTSTANDING COORDINATIO AND LANDSC 3. DRAWINGS IS CLARIFY DES CONSTRUCTIO

200

180

F.F.L. +24.9 m

70 50

800

1700

TYPICAL MAINTENANCE FLOOR

920

1500

200 180 200

L E VE L 4

TYPICAL MAINTENANCE FLOOR

1.0

1000

FLOOR DROP @ FACADE MATERIAL & TERMINATION DETAIL TO BE DEVELOPED

DRAIN GUTTER ALONG FACADE VENTILATION INTAKE/EXHAUST THROUGH FLOOR L E V EL 3

L E V EL 3

300 tbc

TYPICAL MAINTENANCE FLOOR F.F.L. +17.1 m

200

F.F.L. +17.1 m

200

TYPICAL MAINTENANCE FLOOR

1 B

1000

3500

C

4500

ELEVATION TYPICAL FACADE L6 - ROOF 1 : 50

2

SECTION TYPICAL FACADE L6 - ROOF 1 : 50

D

300 200

Typical Facade Section

TYPICAL FACADE SECTION

FLOOR EDGE/DROP SILICONE JOINT CONNECTION

2550

7

1500

1

8

kk3142@columbia.edu

02 HIGHTECH CENTER - 3 SITES PROGRAM LOCATION PROJECT LEADER COMPANY YEAR

Hyundai Automobile Service Center Seoul, Ulsan, Daegu | South Korea Jinho Lee, Alessio Palmieri Bjarke Ingels Group 2022 - 2023

SEOUL HIGHTECH CENTER

The new innovative High-Tech Centers revolutionize the mobility maintenance chain by re-imagining its core elements. By prioritizing efficient workstation layouts, these centers leverage a series of stackable bars, enabling versatile configurations that cater to specific program requirements and site constraints. Our architectural system revolves around the individual automobile module, ensuring optimal functionality while providing ample access to natural light and the outdoors. These centers embody technological advancement, seamlessly integrating cutting-edge operations within their daily functioning, which is prominently showcased through visually captivating facades visible even from a distance.

DAEGU HIGHTECH CENTER

The stacking arrangement of the bars not only fosters a sense of community through central communal atria but also offers users individual terraces. Additionally, customers can indulge in brand-specific experiences within designated spaces, such as drop-off and pick-up areas, lounges, and other bespoke facilities.

11

ULSAN HIGHTECH CENTER

12

Hightech Center | Seoul, South Korea

kk3142@columbia.edu

1. SEOUL HIGHTECH CENTER

13

1. LOUNGE AND RETAIL On the first level, in relationship with the arrival lounge spaces, we find the retail and lounge bar. The retail bar exposes the main facade towards Songsan-ro (30m), where the main circulation flow takes place thus giving great visibility to the retail space. The bar for the lounge space is facing the water stream with a terrace and views towards the nature.

2. WORKSHOP BARS From Level 3 starts the first level of workshop bars, following the same orientation of the entrance bars. The design strategy of adding modular bars to each level gives the possibility to have the same conditions for each workshop, maintaining an efficient and repeatable layout at each level.

3. NUDGE + TERRACCE With a nudge from the east the jenga building relates to the context and the site constrains. A series of green terraces creates an outdoor experiences and points of view at every level.

4. THE STEPS (SEOUL) The Steps is a perfect combination between layout efficiency and relation with the context. ENTRANCE VIEW

14

Hightech Center | Seoul, South Korea

15

kk3142@columbia.edu

SEOUL SITE PLAN

RETAIL & LOUNGE

GROUND FLOOR

WORKSHOP

AXONOMETRIC

16

Hightech Center | Daegu, South Korea

kk3142@columbia.edu

2. DAEGU HIGHTECH CENTER

19

1. 45° ROTATION

2. WORKSHOP BARS

Orienting the ground floor along the longest side of the site does not an efficient ground floor circulation due to the narrow dimension available. Rotating the ground floor bars of 45 degree is possible to allow the most efficient ground floor circulation in and out of the site.

From L2 starts the first level of workshop bars, alternating the bar orientation of 45 degree, opening up views across the surrounding. Each level of workshop bars has an orthogonal relation with the level below. The orthogonal alternation of levels allows an efficient AGV internal circulation from one level to an other.

3. OFFICE, LOUNGE AND RETAIL

4. THE SLIDE (DAEGU)

The office is and the education space are locate at L5 to provide employees with the best views on the surroundings. The lounge spaces and the RTC area are located on the last level to provide the costumer with a premium experience.

The Slide is a perfect combination between layout efficiency and relation with the context. ENTRANCE VIEW

20

Hightech Center | Ulsan, South Korea

kk3142@columbia.edu

3. ULSAN HIGHTECH CENTER

1. TWO ENTRY SCENARIOS (CURRENT / FUTURE)

2. WORKSHOP BARS

During the present scenario the access will be from Sanup-ro (40m). With the future scenario the main entrance will be from a new road along the West side of the site. The Customer Experience Space will have an independent access and separate customer circulation.

From L3 starts the first level of workshop bars, with and orthogonal orientation to the entrance bars. Each level of workshop bars has an orthogonal relation with the level below. The orthogonal alternation of levels allows an efficient AGV internal circulation from one level to an other.

3. TERRACES AND VIEWS

4. THE SHUFFLE (ULSAN)

Sliding out each volume creates a series of terraces that increase the available outdoor space. The lounge and office spaces are located on the last level to provide the costumer and the employees with a premium experience.

The Shuffle is a perfect combination between layout efficiency and relation with the context.

AERIAL VIEW

RAMP TO BASEMENT

25

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kk3142@columbia.edu

03 NABR HOUSING PROGRAM LOCATION PROJECT LEADER COMPANY YEAR

Residential San Jose, California | USA Martin Voelkle, Tom Lasbrey, DJ Kim, Kayeon Lee Bjarke Ingels Group 2020 - 2022

Nabr is an innovative project dedicated to the development of peoplecentric housing, with the primary objective of enabling a greater number of individuals to achieve homeownership while enjoying highquality, environmentally conscious dwellings within urban areas. Nabr’s overarching vision encompasses fostering a transformative societal transition towards sustainable urban living. To achieve this, Nabr is spearheading the creation of a digital design and delivery system that empowers prospective residents to make personalized housing choices that align with their unique needs and preferences. By prioritizing the needs of individuals, Nabr aims to redefine the housing landscape by offering accessible pathways to homeownership, ensuring that more people can benefit from well-crafted homes that are environmentally friendly. Furthermore, Nabr’s long-term goal extends beyond the provision of housing, aiming to inspire a broader shift in societal attitudes and behaviors towards sustainable urban living. Through their digital platform, Nabr equips future residents with the tools and flexibility to actively participate in the design and decision-making process, enabling them to shape their ideal living spaces and contribute to a more sustainable future.

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kk3142@columbia.edu

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kk3142@columbia.edu

04 BLOOMHOUSE PROGRAM LOCATION PROJECT LEADER COMPANY YEAR

Masterplan Vision East Palo Alto, California | USA Giulia Frittoli, Lawrence-Oliver Bjarke Ingels Group 2019 - 2020

Bloomhouse represents a forward-looking vision for the waterfront area of East Palo Alto. This innovative project embodies a co-creative masterplan, developed in close collaboration with the local community, with the aim of fostering a more equitable and sustainable future. Rooted in the appreciation and celebration of the city’s vibrant and diverse cultures, Bloomhouse serves as a transformative platform for their continued flourishing. Through this project, a novel urban model is explored, one that prioritizes the desires and requirements of the local community, while simultaneously maximizing the productivity of the land by integrating verdant, fertile landscapes and revitalized ecological systems. By embracing a holistic approach, Bloomhouse seeks to create a harmonious and thriving environment. The development fosters a deep sense of community engagement, ensuring that the aspirations and needs of the residents are at the forefront of its design and implementation. This commitment to inclusivity is complemented by a sustainable development ethos, which guides the project towards environmentally responsible practices and encourages the regeneration of the natural ecosystem. Through its innovative approach and thoughtful integration of nature and culture, Bloomhouse represents a promising step towards a more resilient, prosperous, and inclusive future for East Palo Alto’s waterfront and its inhabitants.

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Bloom house I East Palo Alto, USA

kk3142@columbia.edu

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1. ENVELOPE

2. SUNLIGHT EXPOSURE

3. DIAGONAL ORIENTATION

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4. SOLAR PV

5. GREEN TERRACES

Solar panels oriented Outdoor space looking south-west and south-east towards the bay

1. MAIN SITE ACCESS

The main connections are extended into the site, strengthening the link between the city of East Palo Alto and the waterfront

The existing urban grids are consequently extended the new center of gravity. The converging grid warps the existing streets towards the bay and with each others.

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Diagonally oriented pitch roofs become ideal for solar panels facing south-west and south-east.

SITE PLAN

44

kk3142@columbia.edu

05 LIVE, PLAY PROGRAM LOCATION PROJECT LEADER COLLABORATOR YEAR

Collective Housing Bronx, New York | USA Eric Bunge Wo Wu Fall 2017

Located in the vibrant Bronx neighborhood, our project recognizes the importance of a diverse community that spans across various age groups. We firmly believe that a thriving social environment and a lively neighborhood are fostered through a rich blend of residents. With this in mind, our project offers an array of housing options and collective spaces, ensuring a diverse and inclusive community. To promote interaction and foster connections, we have carefully integrated two distinct housing typologies throughout the site, each with unique unit layouts, core configurations, and roof profiles. These intentional interventions create opportunities for meaningful encounters and shared experiences. Furthermore, the seamless integration of veillike envelopes enveloping the residential spaces results in dynamic facades that dissolve the boundaries between indoor and outdoor realms. By prioritizing diversity and designing spaces that encourage social engagement, our project aims to establish a vibrant neighborhood that fosters a sense of belonging and connectivity among its residents.

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kk3142@columbia.edu

06 DOUBLE X DOUBLE PROGRAM LOCATION PROJECT LEADER COLLABORATOR YEAR

Learning Center + Housing Brasilia | Brazil David Benjamin & Lindsey Wikstrom Yvette Xiner Liu Spring 2019

The housing shortage in Brasilia is being addressed through a visionary project that introduces a series of carbon sink sites, combining institutional and housing programs. This solution takes into consideration environmental sustainability by utilizing ecofriendly materials and employing a thoughtful arrangement of spaces. By strategically alternating layers of different permeability levels and integrating natural elements, such as greenery, the design aims to maximize the evaporative cooling effect, creating a comfortable and energy-efficient living environment. Furthermore, the project incorporates cutting-edge concepts such as kinetic architecture and transformable furniture to optimize spatial efficiency. These dynamic elements allow the spaces to adapt and transform based on the specific needs and functions during different times of the day. By expanding and contracting, the spaces accommodate both daytime and nighttime programs, providing residents with flexible and adaptable living spaces. The innovative design approach not only addresses the housing shortage but also promotes sustainable practices, ultimately contributing to the overall well-being and livability of the community in Brasilia.

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kk3142@columbia.edu

07 INTERPLAY PROGRAM LOCATION PROJECT LEADER YEAR

Library Brooklyn, New York Erica Goetz Spring 2017

The community library seamlessly integrates with the surrounding street environment, offering a unique architectural design. The library space is intelligently organized by a meandering path that winds through the site, enveloping the primary functions of the library. Serving as a Vierendeel truss structure, the circulation space accommodates both human movement and the flow of books. In contrast, the reading rooms and classrooms are contained within distinct, multi-faceted volumes, supported by the truss system. Elevated above the ground, these spaces establish dynamic connections with the neighboring surroundings, fostering engaging interactions. The building’s design gracefully separates from the ground, creating an inviting space where the sidewalk extends beneath the structure. This feature encourages public access and interaction, leading visitors into a series of terraces positioned at the intersection of the circulation truss and the captivating urban rooms. This architectural composition facilitates a harmonious blend between the library and its urban context, fostering a sense of openness and connectivity between the institution and the community it serves.

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