Architectural Work Samples 2019 by SYHJ

SANDY JAN Work Samples 2010 - 2019

SANDY JAN EDUCATION

+1 267 2071847

sandyjanyh@gmail.com

MASTER OF ARCHITECTURE

EMPLOYMENT

UNIVERSITY OF PENNSYLVANIA | PHILADELPHIA | PENNSYLVANIA 2011 - 2014

BACHELOR OF CITY AND REGIONAL PLANNING

RYERSON UNIVERSITY | TORONTO | ONTARIO

2004 - 2006

BACHELOR OF SCIENCE [HONORS], LIFE SCIENCE

QUEEN’S UNIVERSITY | KINGSTON | ONTARIO 1999 - 2003

XTEN ARCHITECTURE LOS ANGELES, CALIFORNIA Junior Architect | 2016. 10 - 2017.02

Project Types : Residential Project Design

Computer-aided Design & Drafting

Revit, AutoCAD, Adobe Photoshop, Adobe Illustrator, Adobe InDesign, Adobe After Effects

Architectural Assistant | 2014.10 - 2016. 09

Mixed-use development Retail podium facade design

3D Modeling & Rendering

Rhino, Maya, 3D Studio Max, Sketch Up, VRay, Grasshopper

General computing skills with both Microsoft and Macintosh operating systems

LANGUAGE

Retail podium facade design and development Digital 3D model building Preparation of detail development package and visual mock-ups tender package Assistant to project coordination Facade visual mock-ups detail design and construction coordination Facade material sourcing and selection

SILVERSTEIN PROPERTIES NEW YORK CITY, NEW YORK Project Types :

HONORS / PUBLICATION

Responsibilities :

Summer Design Associate | 2013. 05 - 2013. 08

English, Mandarin Chinese 2011 - 2014 2014 2013 2005

Assisted in the construction plans development Preparation of bid set documents by using Revit Coordinated finish materials, lighting and plumbing fixtures Assisting project construction administration

AEDAS HONG KONG SAR Project Types :

SOFTWARE

Responsibilities :

PennDesign Chair’s Merit Scholarship, University of Pennsylvania Roosevelt Island Cornell Tech Campus Research and Design, Publication for Marion Weiss Studio, PennDesign Works Selected for Departmental Publication Pressing Matters 2 Michael E. Kusner Award Exceptional Work in Land Use Planning and Design

World Trade Center Tower 3 World Trade Center Tower 4 CBD development proposal Land development research

Responsibilities : Material preparation for bi-weekly World Trade Center design meetings Preparation of design proposals Formulation of design options according to applicable building codes Research on relevant information for assigned land parcels Preparation of site review report

1/10 CONCEPT PROGRAMMING INTERIOR TAIPEI, TAIWAN Associate Interior Designer | 2010. 01 - 2011. 03

EMPLOYMENT

JERDE LOS ANGELES, CALIFORNIA

Project Types :

Designer | 2017. 02 - 2019.07

Project Types : Mixed-use development Retail podium design Master planning

Responsibilities : Participated in the design and devlopment of project concepts Production of conceptual and schematic design packages Cooperated with consultants for detail developments Design of plans and elevations of retail podiums and towers Design and production of urban scale master planning projects

Retail storefront renovation Building Facade Design Studio unit renovation Interior renovation design proposal

Responsibilities : Formulation of interior design proposal Preparation of working drawings and 3D renderings Coordinated the contractors and oversaw the projects Formulation of construction schedule Supervision of construction sites Estimation of material required and associated costs Coordination with suppliers and contractors to meet the budget requirements

23013

11160

13600

161

DESIGN ARCHITECT

913 Ocean Front Walk Venice, California 90291 (310) 399-1987

HENGQIN SHUNTAK GATEWAY VILLAGE

24509

13700

MIXED-USE PROJECT DESIGN AND DEVELOPMENT

+23.7 L05

+21.3 L05

HENGQIN ISLAND, CHINA

Mixed-Use Development Hengqin, Macau

7500

+21.3 L05

ARCHITECTURAL MATERIALS CONCEPT - CANOPY

COPYRIGHT © 2017 THE JERDE PARTNERSHIP, INC. ALL DRAWINGS SUBMITTED BY THE JERDE PARTNERSHIP, INC. ARE SUBJECT TO COPYRIGHT PROTECTION AND MAY NOT BE REPRODUCED WITHOUT PERMISSION. DOCUMENTS PROVIDED ARE FOR DESIGN INTENT ONLY. LOCAL DESIGN ARCHITECT IS RESPONSIBLE FOR ALL CONSTRUCTION DOCUMENTATION.

35202

+ CANOPY STUDY OPTION: MESH

HOUSE ROOF VIEW 1 - OPT B 4

SCALE (A1): SCALE (A3): 1 : N/A

PROJECT DATA

HOUSE ROOF PLAN 2

SCALE (A1): 1 : 200 SCALE (A3): 1 : 400

HENG QIN SHUN TAK GATEWAY VILLAGE 10

OWNER:

REV.

8400

165

8400

12440

CEREMIC TILE

3790

300 mm.

166

162

BRIDGE CONNECTION BELOW

167

.700.

11160

DESIGN ARCHITECT

CEREMIC TILE TYPE 1

ROOFTOP CAFE BELOW

SCHEMATIC DESIGN

OPENING TO CENTRAL WALK CEMENTITIOUS BOND COAT

13600

161

913 Ocean Front Walk Venice, California 90291 (310) 399-1987

ROOFTOP F&B BELOW OPENING TO VILLAGE ATRIUM

REFLECTIVE CEREMIC TILE TYPE 1 E

13700

+23.7 L05

+21.3 L05

KEYPLAN:

EXTERIOR

INTERIOR

DATE: 12/20/2017 SCHEMATIC DESIGN:

COPYRIGHT © 2017 THE JERDE PARTNERSHIP, INC. ALL DRAWINGS SUBMITTED BY THE JERDE PARTNERSHIP, INC. ARE SUBJECT TO COPYRIGHT PROTECTION AND MAY NOT BE REPRODUCED WITHOUT PERMISSION. DOCUMENTS PROVIDED ARE CEREMICFOR TILEDESIGN TYPE 2 INTENT ONLY. LOCAL DESIGN ARCHITECT IS RESPONSIBLE FOR ALL CONSTRUCTION DOCUMENTATION.

7500

+21.3 L05

35202

C' C

HOUSE ROOF VIEW 1 - OPT B 4

SCALE (A1): SCALE (A3): 1 : N/A

TITLE:

HOUSE ROOF OPTION B

PROJECT NO.: 4923

DRAWING NO.:

HOUSE ROOF PLAN 2

SCALE (A1): 1 : 200 SCALE (A3): 1 : 400

HOUSE ROOF VIEW 2 - OPT B 3

SCALE (A1): SCALE (A3): 1 : N/A

HOSUE ROOF SECTION A-A - OPT B 1

SCALE (A1): 1 : 20 SCALE (A3): 1 : 40 REV.

DESCRIPTION

DATE

GROUT

300 mm.

200

.700.

DRAINAGE GUTTER

CEREMIC TILE TYPE 1

SCHEMATIC DESIGN

CEMENTITIOUS BOND COAT

Right Bottom | Inner Court Green Wall Elevation and Section

CONCEPT FINAL TOP VIEW

CONCRETE BACKER BOARD

.1250.

500

19MM PLYWOOD SUBSTRATE

REFLECTIVE CEREMIC TILE TYPE 1

Left Top | Featured Roof Pattern Plan View + Section Detail

.500.

Right Top | Trellis Design Axon View

KEYPLAN:

WATER RESISTIVE BARRIER

CANOPY SECTION DIAGRAMRIGID INSULATION NORTH-SOUTH CUT

HENGQIN SHUNTAK CONCEPT - FINAL - 29TH AUGUST 2017

OWNER:

C A4-408

HENGQIN SHUNTAK CONCEPT - FINAL - 29TH AUGUST 2017

REFLECTIVE CEREMIC TILE TYPE 2

EXTERIOR

INTERIOR

DATE: 12/20/2017 SCHEMATIC DESIGN:

TITLE:

HOUSE ROOF OPTION B

CEREMIC TILE TYPE 2

HOUSE ROOF VIEW 2 - OPT B 3

SCALE (A1): SCALE (A3): 1 : N/A

SCALE (A1): SCALE (A3): 1 : NS

INNER COURT N GREEN WALL 1 5

DESIGN ARCHITECT

23.70 H.P. ROOF

HOSUE

SCALE (A1): 1 : 20 SCALE (A3): 1 : 40

913 Ocean Front Walk Venice, California 90291A-A ROOF SECTION (310) 399-1987

STEEL FRAME

6900

HENGQIN SHUNTAK GATEWAY VILLAGE

FIBER CEMENT PANEL PLANTER

HENGQIN ISLAND, CHINA

16.80 L04

3200

500

1100

.3800.

.3300.

2200

WOOD TRELLIS

400

2000

METAL CLADDING FASCIA

3400

5400

2300

ALUMINUM PANEL SOFFIT STOREFRONT GLASS

INNER COURT N GREEN WALL 2

23700

2500

1100

PLANTER

11.40 L03

METAL CLADDING FASCIA

2000

SCALE (A1): SCALE (A3): 1 : NS

5400

ALUMINUM PANEL SOFFIT FINISHED CEILING BY OTHERS

.3400.

Feature roof pattern was inspired by the interplay of light and shadow when looking through the canopy of cherry blossom trees. The design intention of this project was to create a living environment - not just a retail space - that resonates with the land it sits on.

GREEN WALL

REV.

DESCRIPTION

DATE

6500

A4-408

2000

6.00 L02

SCHEMATIC DESIGN 6000

GUTTER

3500

4000

ALUMINUM PANEL SOFFIT

STOREFRONT GLASS

KEYPLAN:

FINISHED EXTERIOR PAVING

SCALE (A1): SCALE (A3): 1 : NS

INNER COURT N GREEN WALL 3

0.00 L01

CONCEPT FINAL SOUTH ELEVATION B C

INNER COURT GREEN WALL SECTION 1 : 75

INNER COURT GREEN WALL ELEVATION 1 : 75

DATE: 12/20/2017 SCHEMATIC DESIGN:

TITLE:

COURT YARD GREEN WALL WALL SECTION 300

SANDY JAN

500

HENGQIN ISLAND, CHINA REFLECTIVE CEREMIC TILE TYPE 2

DRAWING NO.:

.1250.

19MM PLYWOOD SUBSTRATE

RIGID INSULATION

PROJECT NO.: 4923

The design of trellis was proposed to insert a dynamic fluid shadow pattern onto the more rigidly-shaped village-style retail podium. The canvas of the trellis surface was carefully manipulated to create fluidity and, at the same time, calibrated different heights of rooftops and tower levels. The south elevation was designed to celebrate proposed functions, including an F/B hub behind the jewel-box-inspired glass facade and a semi-open-air event space surrounded by green walls and wood trellis.

CONCRETE BACKER BOARD

WATER RESISTIVE BARRIER

HENGQIN SHUNTAK GATEWAY VILLAGE

24509 A

CANOPY PLAN VIEW

CEREMIC TILE

I was involved in this project from inception to the phase of 50% Detail Design. My responsibilities included the proposal of a concept design option, production of presentation packages, trellis design and development, facade design and development, feature roof design, 3d model building, detail development, and production of DD package by Revit.

DATE

200

DRAINAGE GUTTER

34173 23013

The project spans from concept design to construction administration and is set to open in the year 2020. It is a mixed-use development that includes a 45,000 square-meter retail podium, an office tower, and a hotel tower. The project features a multi-level of outdoor program spaces connected vertically to activate public areas from ground level to the rooftop.

DESCRIPTION

GROUT

STEEL FRAME

.500.

Professional Project Conceptual, Schematic and Detail Design 2017

GLASS

.1500.

1000

.1500.

.1000.

1500

.9290.

1500

1000

1500

M. Arch I | sandyjanyh@gmail.com

PROJECT NO.: 4923

SCALE (A1): SCALE (A3): 1 : NS

INNER COURT N GREEN WALL 4

SCALE (A1): 1 : 75 SCALE (A3): 1 : 150

L02 PARTIAL PLAN 1 : 75

GREEN WALL

IRRIGATION SYSTEM

POLYURETHANE FOAM

GLAZING

INNER COURT WALL FACADE DETAIL

DRAWING NO.:

A4-408

- OPT B 1

A4-416-02

Left Bottom | Trellis Under Construction

A4-416-02

CORNELL TECH CAMPUS MASTERPLAN

UTOPIAN VISIONS OF ROOSEVLET ISLAND

GRACE CHO SANDY JAN

CONCEPT VISION AND STRATEGIC PLANNING

NEW WELFARE ISLAND Rem Koolhaas,1975-76

CONVENTION SPORTS & ENTERTAINMENT CENTER

-suspended glass above the bridge -auditorium/offices under the bridge

Vision and Master Plan Development Jakarta, Indonesia

BUILDING WITH NO PROGRAM AND PURPOSE

HARBOR

I SLAND I

ISLAND J

G reen Bl ue P ubl i c Space Net work MAY 3rd 2018

I SL AND I

MAY 3rd 2018

ISLAND L

Green Blue Public Space Net work

CHINESE SWIMMINGPOOL

Gr een Blu e Pu blic Space Networ k

Re s i d en t i a l D i s t r i ct

MAY 3rd 2018

WELFARE PALACE HOTEL & SEMICIRCULAR PLAZA

-accomodates 10,000 guests -7 towers and 2 slabs -towers arranged in v formation -4 facades individually respond to the different formal and symbolic demands -circular plaza turn into ice -differnet club at the top of each skyscrapper

MAIN CBD HUB CILIWUNG CHANNEL

CONCEPTS 1. ROOSEVELT ISLAND AS A TESTING GROUND

2. FUSE OF PROGRAMS

3. EXTENSION OF THE GRID SYSTEM

4. STRUCTURES REINFORCING THE GRID

Professional Project Master Planning 2018

RECREATIONAL CENTER FOR UN EMPLOYEES

MANGROVE PARK

URBAN GREEN WALK

URBAN PARKS

GREEN WALK

ISLAND ‘J’

CHANNEL-SIDE PROMENADE

VERTICAL LIVING

LUX URY VILLA S

CHANNEL RESIDENTIAL

URBAN PARKS

GREEN SPINE

ROOSEVELT ISLAND REDEVELOPMENT PROJECT

WATERFRONT NATURE PARK

Robert Zion and Harold Breen

COMMUNITY ROOM

SPECIAL AMENITIES

LAKESIDE HILL

GREEN SPINE

RIVER WALK

ROW OF SYNETHETIC BROWNSTONES

SLAB

EXTENSION OF MANHATTAN GRID

GREEN CORRIDOR P RIVA T E VILLA S

EGYPTIAN MUSEUM

Rem Koolhaas & Eliza Zenghelis, 1975

CBD COURTYARDS

VERTICAL LIVING

The project proposes concept vision and planning strategies for three artificial islands situated off the coastline of Jakarta - the fastest-sinking city severely exposed to the adverse effects of climate change as well as excessive extraction of groundwater. Our design strategy addresses the issues through the following: green initiatives which aim to enhance biodiversity, increase permeable ground, and provide recreation benefits; blue initiatives which plan for flood events, rainwater harvesting, reservoirs, and clean drinking water; and energy initiatives which deploy clean, diversified, and affordable energy generation.

75th

LAKESIDE WALK

WATERFRONT BEACH LUXURY VILLAS AQUATIC NATURE RESERVE

CBD GREEN CORRIDOR

GREEN CORRIDOR WATERFRONT NATURE PARK

GREEN WALK VERT ICA L LIVIN G

GREEN CORRIDOR

71st

URBAN PARKS

GREEN SPINE

WA T ERF RONT D ENSITY

URBAN PARKS

GREEN WALK AQUATIC RESERVE PIER The iconic, but temporary changes in Times Square will be soon be upgraded and made permanent. Credit: New York City Department of Transportation

Tactical 18

MAY 34 ANCOL MASTERPLAN: I, J, L VISION; ECOPARK, CARNAVAL > 3rd 2018

I SL AND J

E nt er t a i n men t D i s t r i ct

URBAN PARKS

GREEN WALK

URBANISM

GREEN WALK

ISLAND ‘I’

COMMUNITY GARDEN

‘TOWER’

RIVER BLOCKS

CONCEPTS 1. SAME PROTOTYPES AS MANHATTAN CILIWUNG CHANNEL RESORT ROW

MR T HU B

T HEME PAR KS

MAIN CBD HUB

Re s ilien t Ur ban Pl an n i n g Str ategi e s

1ISLAND I PUBLIC SPACE NETWORK

MICE FACILITIES

THEMED RESORTS

T HEMED R ESOR T S

THEMED RESORTS

CHAPTER 1 - PREFACE AND INTRODUCTION

33 33

TYPE B

TYPE C

MANHATTAN

ANCOL MASTERPLAN: I, J, L VISION

I. LARGER CONTEXT

ANCOL MASTERPLAN: I, J, L VISION

ISLAND J PUBLIC SPACE NETWORK

ECOLOGY OF ROOSEVLET ISLAND

Elevated Topography ELEVATED TOPOGRAPHY

THEME PARKS

4. UNOBSTRUCTED VIEW TOWARDS MANHATTAN

TYPE A

MAY 3rd 2018

O VERA L L MA ST ER P L A N V IS ION THEMED RESORTS

3. EXTENSION OF THE GRID SYSTEM

2. STREET LIFE & COMMUNAL SPACE

ROOSEVELT ISLAND

ANCOL MASTERPLAN: I, J, L VISION

ISLAND L PUBLIC SPACE NETWORK

MAY 3rd 2018

ISLA N D I, J & L

Pu blic Tran sportation N etwork

II. FOOD CHAIN

III. NATIVE PLANTS

MRT LINE LIGHT RAIL LINE

FERRY LINE

MONORAIL LINE

THEME PARK JETTY

BLUE

: Provides open space for urban leisure :: Functions as water detention and retention basin in time of flood ::: Water absorbing landscape to facilitate rainwater harvesting [collection and reuse]

COASTAL Coastal Forest FOREST : Provides shade and oxygen :: Nest for colonial water birds ::: Mediates local climate

COASTAL GRASSLAND

ROCkY INTERTIDAL Rocky Intertidal Zone ZONE

TIDALTidal wETLAND Wetland

Coastal Grassland

: Home to diverse wildflower communities :: Important habitat for birds of prey

LI GH T

MAY 36 ANCOL MASTERPLAN: I, J, L VISION; ECOPARK, CARNAVAL > 3rd 2018

: Traps sediments :: Stores flood water ::: Reduces wave energy during storms

RA IL

O P

LINE : Filters nutrients fromFERRY water :: Food source for marine organisms

MRT LINE MRT LINE

MRT LINE

Oxygen

MR T HU B

MAIN CBD HUB

Mid salinity planktonic systems

Bioswale / Lake

Barrier Island

OPEN SPACE

Delta

Rangia and Oyster reefs

Oxygen

Rainwater Reuse/Recycle

PEDESTRIAN FRIENDLY ZONE

ORIGINAL LAND RECLAMATION PROFILE Barrier Island

Marsh grasses

Net outflow of fresh water Net inflow of salt water

Sea grasses Macro algae

WAT ER FR ONT CU LT U R AL Draft 1 April 2014 | Master Plan | National Capital Integrated Coastal Development Project

PEOPLE’S BRIDGE

Producers

ANCOL MASTERPLAN: I, J, L VISION; ECOPARK, CARNAVAL >

Northern Red Oak

Coastal Grassland Rocky Intertidal Zone

MUSEUM

WATERFRONT MIXED USE

White-tailed Deer

Coastal Forest

PEDESTRIAN FRIENDLY ZONE

Detritus production

Rainwater Reuse/Recycle Atlantic Ocean

FEST V ALS

Flameleaf Sumac

PEDESTRIAN FRIENDLY ZONE

CILIWUNG CHANNEL

RIVERWALK

American Black Bear

PIER PEDESTRIAN CIRCULATION

Solar energy Carbon dioxide

CULTURAL BUILDING

Gray Fox

PUBLIC BEACH

Nutrients

Img.25

R IV ER WALK

PARK

The cross section through the land reclamation

CBD CHANNEL

MAY 3rd 2018

ANCOL MASTERPLAN: I, J, L VISION

Red-tailed Hawk

ence can be slowed down in the coming years.

FERRY LINE

Roundleaf Greenbrier

Given this uncertainty, a closing data of 2022 was chosen. Around 2022 sea water CHANNEL B U SINESS D IST R ICT

Pedestrian Con n ectivity N etwork

American Chestnut

of Jakarta. As subsidence is higher in the western part, measures are more urgent there. The western part of the bay needs to be closed between 2022 and 2028. For the eastern part, closure can be postponed until 2040, or even further if subsid-

FERRY LINE

Tidal Wetlands

White-footed Mouse

ers will stop flowing and when flood risks become unacceptable. For most rivers and canals this will be sometime between 2015 and 2030, depending on the local subsidence rate, the river profile and river level in respect to the sea level.

Wetland Marsh

From this perspective, there is a difference between the eastern and western part

Oyster

Lack of data has made it difficult to statistically determine the moment when riv-

FERRY LINE

ISLA NPUBLIC D I, J &TRANSPORTATION L

Red Hake

thus requiring pumps and pumping lakes either onshore or offshore.

PEOPLE’S BRIDGE

Crevalle Jack

to the sea would provide a safety risk, requiring a more robust and shorter Outer Sea Wall. By 2022 also many rivers and canals will not be flowing freely to the sea,

storage capacity for bulk water supply.

Atlantic Tomcod

levels will be around 3-4 meters above street level, which is a critical level as many houses in poor areas are below this height and ‘vertical’ evacuation will not provide safety against floods anymore. The current sea wall and the many rivers open

required storage capacity of the giant waduk between current coastline and sea wall. It provides sufficient room for future expansion of the land reclamation and

Winter Flounder

The need for large storage lakes (waduks) is one of the main reasons for creating the offshore waduk, rather than seeking room for such storage lakes in the city of Jakarta. The location of the outer sea (phase B) wall is mainly determined by the

White Wood Aster

Meadow Vole

Red Maple

Semipalmated Plover

Oxygen

Virginia Threeseed Mercury

MRT LINE

Tidal Wetlands ISLAND ‘L’

Atlantic Silverside

La k es i d e D i s t r i ct

Transformative Reservoir TRANSFORMATIVE RESERVOIR

: Bioswales to preserve bio-diversity :: Flood prevention and fresh water storage ::: Provides recreational destination

FERRY LINE

IL LO RA

WATERFRONT MIXED USE

I SL AND L

BOATING ROUTES LOOP

PERMANENT Permanent Reservoir RESERVOIR

R ESOR T FACILIT IES

CULTURAL BUILDING

LIGHT RAIL

LIG

: Elevated land and building typology in response to sea level rising :: Accounts for possible future land subsidence

AIL

EXPER IENCE CENT ER S

OR MON

PEOPLE’S BRIDGE

My responsibilities in this project included extensive research on the environmental, social, and cultural context of the megacity, and proposal of feasible design strategies in response to the issues. In the process, I worked closely with the planning consultant for traffic planning, density implications, and zoning considerations. The master plan was an orchestrated overlay of various carefully designed armatures, including armature of interwoven natural elements, the framework of intermingled districts, zones of sensible density distribution, hierarchy of traffic networks, and armature of the urban fabric. I was involved in the integration and formulation of the master plan, 3D model building for final rendering, as well as final concept package production.

Phytoplankton

Mollusks, shellfish, clams, zooplankton Plant Eaters

SOFT EDGE DESIGN STRATEGIES

Tidal Wetland

PEDESTRIAN FRIENDLY ZONE

Fish, crabs, birds Animal Eaters

PEDESTRIAN CONNECTIVITY ANCOL MASTERPLAN: I, J, L VISION

SANDY JAN

M. Arch I | sandyjanyh@gmail.com

CONCEPT VISION AND STRATEGIC PLANNING Vision and Master Plan Development Dara Sakor, Cambodia

MIXED-USE CONCEPT DESIGN Mixed-Use Development Changzhou, China

Professional Project Master Planning 2018

The Dara Sakor Resort project incorporates in total 5.5 million square meters GFA of offerings - luxury resorts, mid to high-rise residential towers, villas, and a myriad of retail and entertainment options- in a way that celebrates the rich culture of Cambodia while being respectful of the natural environment. The project components are connected via thoughtfully planned pedestrian pathways with emphasis on the user experience at ground-level. The project situates along the pristine coastlines of southern Cambodia, rewarding those few fortunate to visit with a lush, tropical setting. The project goal was to create a thriving new community and to share beauty of the land with the world. The site was carefully studied, including strategic understandings of forest distribution, existing settlements, mangrove coverage, type of beaches, water quality, coastal ecosystem, and circulation networks. The comprehensive research led us to propose program types and vision plan that is mindful of the context and the identity of the region while offering a dynamic series of unique experiences. The vision plan proposed preservation of white sand beaches and existing mangrove wetlands, access to ocean activities, cultural center, retail and entertainment offerings in both international and traditional village settings, access to outdoor activities, and incorporation of an existing Cambodian temple.

Professional Project Concept Design 2018

The project is a mixed-use design and development project that consists of three program types - retail podium, street retail, and hotel tower. Three design options were proposed, all with design intentions to facilitate connectivity between the adjacent urban park and the proposed green belt, as well as to create a retail hub to vitalize the local economy. My responsibilities in this project mainly focused on the design development of street retail. The street retail was designed to bridge the architectural characteristics of the existing neighborhood and the proposed retail hub. The elevation design features traditional Chinese roof curvature with a modern interpretation. The connected outdoor walkways and bridges create elevational variations which offer dynamic spatial qualities for various public uses. The street retail also features a public entry square which bridges the prominent urban park to the proposed retail environment. The square presents flows of landscape features leading into the central corridor of the retail podium. I was also responsible for the production of final concept package, including producing design concept diagrams, site and SWOT analysis, area calculation, and elevation and section representations.

My responsibilities in this project included site analysis, SWOT analysis, development of master site plan, the proposal of design characters, presentation package preparation, and 3d model building.

SANDY JAN

M. Arch I | sandyjanyh@gmail.com

SANDY JAN

M. Arch I | sandyjanyh@gmail.com

RETAIL PODIUM DESIGN Mixed-Use Development Wuhan, China

Professional Project Facade Design 2014-2016

The project is the design and development of a retail podium facade consisting of six different wall types. The retail podium is part of a LEED Gold certified mixed-use development situated in downtown Wuhan City, Hubei Province in central China. The development spans a gross floor area of 433,000 square meters above ground comprising of a 50m high 6-storey retail podium, a 325m high office tower, and three service apartment towers with the height of 150m, 175m and 200m respectively. My responsibilities in this project mainly focused on the design development of retail podium roof and facade. The facade consists of 6 wall types, including diamond glass wall, diamond stone wall, shop front glass wall, aluminum wall, signage wall, and feature stone wall (interlayer of stone strips and lightboxes). During the design development phase I studied the modulation of diamond glass panels and diamond stone panels, the interface detail between different materials, the visual effect of stone paneling, lightbox installation detail, louver arrangement and design, the placement of entrance and exit doors in consideration of fire regulations, the material selection according to LEED requirements, and the fine-tuning of design based on material manufacturing constraints.

FRITTED GLASS IN DIAMOND GRID

FRIT PATTERN RESPONSIVE TO INTERIOR FUNCTION

SPANDREL PATTERN RESPONSIVE TO INTERIOR FUNCTION

SANDY JAN

M. Arch I | sandyjanyh@gmail.com

FEATURE ROOF DESIGN

MAIN FACADE DESIGN

The dynamic infinity loop roof evolved as a response to the siteâ&#x20AC;&#x2122;s circulation pattern. The roof form was articulated by looping pattern of skylight, louver, aluminum panels, gutters, and artificial turf. During the design phase I was involved in formulation and fine-tuning of roof pattern based on coordination with E&M requirements, water drainage, interior natural light arrangement, and demand for aesthetic qualities.

VISUAL MOCK-UPS OF RETAIL PODIUM FACADE Mixed-Use Development Wuhan, China Professional Project Facade Design 2015-2016

001

006

001

006

001

The project includes detail design and construction of three 1:1 scale visual mock-ups (VMUs) of a retail podium facade, which was commissioned by the client to read the effect of design intent and to resolve possible construction issues prior to the actual construction of the entire building.

002

003

006

002

006 002

002 001

In total 3 VMUs were detailed and constructed to understand all the wall types, roof types, and the interface design between different materials. I was involved since the inception of the VMU tender process to the later construction phase. My duties included preparation of VMU facade design and development package, review of tenderer documents, coordination with contractors and consultants for completion of construction document, material selection and sourcing, and site visit. The VMUs studied and detailed out the following facade wall types: diamond glass facade, diamond stone facade, stone strips facade with light boxes, shop front glass facade, aluminum wall facade, glass box facade, and signage wall facade. The VMUs also studied feature roof of the project, including the detail of and the interfaces between skylights, louvers, aluminum panels, artificial turf roof, gutters, and parapet.

002 --

10/06/2015 AEDAS RT GL CL/DAC 10/06/2015

004 --

ELEVATION ተ䜘・䶒മ

001

AEDAS

003 --

1:150

002

SECTION ተ䜘ࢆ

CL/DAC

005

003

007

006

6000

006

俉⑟勇劬⎼

⌵⅗巖18⏞ 㸖ⲂḃḔ⾪31㥣

T +852 2861 1728 F +852 2529 6419

h ongkong@aedas.com a edas.com

002

001

006

5500

001

俉⑟勇劬⎼

Top | VMU 1 - Retail Podium Diamond Glass Wall, Feature Glass Wall, Feature Stone Wall, Walk of Death

Left Top | VMU 2 - Retail Podium Shopfront Glass Wall, Feature Stone Wall, Signage Box, Exit Doors Left Bottom | VMU 3 - Retail Podium Diamond Stone Wall, Alluminium Wall, Glass Box, Terrace, Feature Roof

002 --

003 --

SANDY JAN 001

10/06/2015

PARTIAL ELEVATION

M. Arch I | sandyjanyh@gmail.com 1:50

002

SECTION PESPECTIVE DESALINATION PLANT

RETENTION BASIN

EXPERIMENTAL POND

REFLECTION POND

CONSTRUCTED WETLAND

ISLAND IN-FORMATION

CANAL

Cornell Tech Campus Master Plan Roosevelt Island, New York OUTLOOK DECK

VERTICAL ACTIVITY CORE

CAMPUS PARK

_SITE PLAN

Academic Project Architecture Spring, 2014

The project looks into alternative campus design strategies in response to the shifted education paradigm, technological advancement, and environmental awareness. EXPERIMENTAL POND

CANAL

RETENTION BASIN

CONSTRUCTED WETLAND

DESALINATION PLANT

REFLECTION POND

BUILDING SECTION

TRANSVERSE CORRIDOR

LANDSCAPE SECTION

GROUND FLOOR

1ST FLOOR

ROOSEVELT ISLAND CORNELL TECH CAMPUS MASTERPLAN GRACE CHO SANDY JAN

2ND FLOOR

4TH FLOOR

CORNELL- TECHNION MASTERPLAN

5TH-6TH FLOOR

SANDY JAN

M. Arch I | sandyjanyh@gmail.com

Traditional typological approach that explicitly delineates spaces based on the assigned programmatic uses was considered designer-centric in this project, which turned a blind eye on users, context, and environment as whole. The project proposed that a successful campus plan should map out resiliency to changes and encourage communication and collaboration. The spatial arrangement should be open-ended for which the users can modify according to their needs, now and in the future. The campus plan in this project was designed to be responsive, and be capable of adapting into the advancing technology, changing programming demands, and unpredictable events. The unique location of Cornell Tech campus also addresses the issue of designing in response to environmental changes and reconnection to the natural habitat. The design recognizes the fact of sea level rising and maximizes the islandâ&#x20AC;&#x2122;s capacity to absorb and adapt into the changes. The elevated and permeable building design allows for the restoration of natural habitat and intends to integrate the built environment with natural surroundings. The campus was also designed to calibrate and to retain the continuity among the surrounding communities: the established residential community to the north of the island, the Four Freedoms Park to the south of the island, Manhattan to the west of the East River, and Queens borough to the east of the river. The continuum allows the flow of knowledge and the freely adaptive spaces allow the campus to serve as an incubator welcoming all types of possibilities.

7TH FLOOR

STITCHING THE VOID

INFORMAL FOOD DISTRIBUTION WEB

Rethinking the Food Supply System Medellin, Colombia

RETHINKING FORMAL / INFORMAL FOOD SUPPLY SYSTEMS

DESIGN FRAMWORK

Academic Project Landscape Architecture Fall, 2013

INFORMAL SETTLEMENT FORMAL SETTLEMENT

FARMER’S MARKET

INSTITUTIONAL USE COMMERCIAL/INDUSTRIAL USE

The project, by investigating the distinctive food supply systems servicing the two different settlement patterns – the wealthy urban residents and the resources-deprived informal settlers, proposed strategies to integrate the two food supply chains as a mean to integrate the segragated communities.

LAND USE ARMATURE

COMMUNITY MARKET

SMALLHOLDER FARMS

A’ LOCAL MARKET

COMMUNITY CENTER / SCHOOL

LOCAL MARKET

FLEA MARKET

LOCAL MARKET CENTRAL PLAZA OUTDOOR THEATER / PLAZA

MAJOR CORRIDORS SECONDARY/TERTIARY STREETS

Medellin has a segregated settlement pattern with which the communities are both physically excluded from each another as well as culturally, mainly due to income disparity. The urbanized areas are occupied by wealthy residents who are readily accessible to ample economic privileges and resources, while the low-income population fueled by waves of rural migration to the city inevitably have to settle informally in the areas that are generally inhabitable. Despite in close proximity, the two types of settlement patterns do not share resources with each other. The lack of a more integrative urban fabric further prevents the communication between two settlement systems. The integration allows a more efficient and mutually beneficial food distribution system. More importantly, by altering the food supply chains and distribution routes, the city can automatically weave together the two segregated community fabric and provide venues for cultural exchange. New opportunities also arise so both formal and informal settlement communities can be benefited from sharing economic resources, workforces and public facilities. The project proposed an urban development strategy which pointed out the cultural importance of industrial planning.

CONNECTIVE ARMATURE

URBAN FARMS

URBAN OUTDOOR MARKET

FORMAL SETTLEMENT FOOD SUPPLY NETWORK

INFORMAL SETTLEMENT FOOD SUPPLY NETWORK

A’

A COMMUNITY CENTER

STREET SETTLEMENT

URBAN FARMS

SETTLEMENT

STREET

SETTLEMENT

URBAN FARMS

SETTLEMENT

COMMUNITY PARK

SETTLEMENT

SMALLHOLDER FARMING INDUSTRIAL FARMING

PRODUCTIVE ARMATURE

PUBLIC SPACE/PLAZAS

COMMUNAL ARMATURE

GREEN ZONES/PARKS

ECOLOGICAL ARMATURE

SANDY JAN

M. Arch I | sandyjanyh@gmail.com

VERTICAL TERROIR Enology Center Building Design New York, NY

Academic Project Architecture Spring, 2013

+245.0’

Level Roof

Level 15

+224.5’

+209.5’

Level 14

+197.0’

Level 13

+245.0’

Level Roof

+224.5’

+245.0’

Level Roof

Level 15

+224.5’

Level 15

+209.5’

Level 14

+209.5’

Level 14

+197.0’

Level 13

+197.0’

Level 13

+182.0’

Level 12

+182.0’

Level 12

+182.0’

Level 12

+149.0’

Level 11

+149.0’

Level 11

+149.0’

Level 11

+134.0’

Level 10

+134.0’

Level 10

+134.0’

Level 10

Offices / Laboratories

+121.5’

Level 09

+121.5’

Level 09

Offices / Laboratories

Auditorium

The ambiguous nature of viscosity which is neither solid nor liquid allows for a different angle of reading the connectivity and fluidity among different program spaces in a compact building. The viscous spatial arrangement also benefits the mediation of humidity and circulation of air in this building combining both living space and nature environment. The undulating floor plates facilitate the achievement of viscous flow of space.

Restaurants

The project explores the strategy of creating an energy efficient high-rise building in the center of Manhattan to house an enology institute, which combines vertically office space, public plaza, and experimental vineyard and gardens. The concept of viscosity is studied to apply new understanding on spatial connectivity.

Garden

Stage

Space

Stage

Truss

90.00 7.00

+121.5’

Level 09

Demonstrative Wine Factory

17.00

12.00

13.00

34.00

7.00

Demonstrative Wine Factory

7.50

Y5 UP

BARREL STORAGE

Y4 9.00

Mezzanine

ELEVATOR LOBBY

+96.5’

Level 08

60.00

DEMONSTRATIVE WINE FACTORY

Demonstrative Wine Factory

34.50

Demonstrative Wine Factory

Demonstrative Wine Factory +96.5’

Glass and Concrete Joint

+96.5’

Level 08

GRAPES PROCESSING AREA

9.00

Y2 UP

Auditorium

+81.0’

Wine Barreling Area

Level 07

+81.0’

Wine Barreling Area

Level 07

+81.0’

Wine Barreling Area

Level 07 PLAN LEVEL 08

LEVEL 8TH

The concrete facade of the building functions as structural support for the building. The porous facade is based on the concept of flowing liquid. The porousness responds to the spatial solidity and liquidity of interior. The degree of viscosity provides facade the capacity to sustain structural support.

+68.5’

Seed Bank/Vine Garden

+68.5’

Level 06

+68.5’

Atrium Experiment Garden

Level 06 X1

90.00

+53.0’

Level 05

+53.0’Y5

17.00

12.00

13.00

34.00

7.00

Wine Museum Experiment Garden

Level 05 STUDY CHAMBERS

7.50

+53.0’

7.00

Wine Museum

CORE AREA

9.00

Y4 FACILITIES

Visitor Center

AUDITORIUM

+37.5’

60.00

Level 04

34.50

+37.5’

Level 04

Elevator Lobby

Visitor Center

Visitor Center +37.5’

DOWN

Level 04

VIEWING DECK

AUDITORIUM

MAIN AREA Garden

Wine Making Area

Wine Stores

Level 03

+25.0’

Wine Stores

Level 03

Wine Stores

Restaurants

+25.0’

9.00

+25.0’

Level 03

GARDENS

GARDEN

Wine Making Area

The concept of viscosity is also applied to create a thickness for the facade. The facade is thickened in lower floors, and the application of viscous nature to the generation of facade gives rise to porous spaces in the thickened part of facade. Facade itself therefore is not just a wall, but it also defines space.

Offices / Laboratories

Market

Market +12.5’

+12.5’

Level 02

+12.5’

PLAN LEVEL 11

Level 02

LEVEL 11TH Auditorium

+/- 0’

Level Ground

Food Court

+/- 0’

Level Ground

Food Court

Auditorium

+/- 0’

Level Ground X1 X2

Food Court

Stage

Wine Storage

Demonstrative Wine Factory

90.00 7.00

Level Basement 01

Food Court

-12.5’

Level Basement 01

Food Court

12.00

13.00

Wine Barreling Area

VENDERS

Level Basement 02

Wine Cellar

-25.0’

-37.5’

Level Basement 03

-37.5’

Level Basement 03

Wine Cellar

SHOWCASE

Visitor Center

FOOD COURT

MAIN AREA

VENDERS

Wine Stores

Level Basement 03 UP

Y2 SHOWCASE

9.00

Building Section North-South

Section North-South Building Building Section North-South

6’

12’

36’

6’

12’

6’

36’12’

36’

CAFE

Wine Cellar

Market Maintenance Aisle Food Court

GARDENS Seed Bank

BuildingSection SectionNorth-South North-South Building 0 06’ 6’ 12’ 12’

Wine Cellar

Wine Museum

VENDERS

-37.5’

Slab Detail

Visitor Center

FACILITIES

Level Basement 02 60.00

-25.0’

Wine Cellar

Balcony Seed Bank/Vine Garden

9.00

Wine Cellar

Food Court CORE AREA

VENDERS

Elevator Lobby

34.50

Level Basement 02

7.00

Level Basement 01

-25.0’

34.00

Demonstrative Wine Factory

-12.5’Y5

7.50

-12.5’

17.00

36’ 36’

Food Court

Wine Cellar

PLAN LEVEL 01

GROUND LEVEL

DETAILED SECTION

SANDY JAN

STRUCTURAL ANALYSIS

M. Arch I | sandyjanyh@gmail.com

FRONT + RIGHT

FRONT

RIGHT

PLAN VIEW

Past Events

FLEX HOUSE

CHAPELS

CondoMaximum Residential Building Design Miami, FL

Experiencing the Flow of Time Concept Design

Gallery Funeral Chapel Funeral reception area Entrance to baptism/wedding chapels Baptism Chapel Wedding Chapel Ceremony preparation chambers Entrance to funeral chapel

GROUND LEVEL

Academic Project Architecture Fall, 2011

PRIVATE PrivateACCESS Access

7 7

SUPER MostFLEXIBLE flexibleCORE PROGRAM FlexibleCONTAINER CIRCULATION LAYER Service core SKINScreen LAYER panel

Academic Project Architecture Fall, 2012

1 2 3 4 5 6 7 8

1 2. 3 4 5 6 7 8

MOVIE ANALYSIS

FlexHouse is a project looking into possible architectural response to economic influences on housing stocks.

PUBLICEntrance ENTRANCE Public

Florida is one of the states suffering the worst impact from economic downturn since 2008. Miami particularly is still dealing with high foreclosure rate. One of the architectural conditions that exacerbate the problem is the lack of adaptability in housing design. Economic cycle fluctuates in an unpredictable manner, while the design of housing is rigid, making it incapable of adapting changes in a short span of time. FlexHouse proposes a condominium that is able to accommodate needs in different economic periods. The whole building can be a luxury condominium during good economic time. As economy turns unfavorable and more occupants become incapable of affording mortgage payments, the units can be rearranged to accommodate other programmatic needs, which in term facilitate a positive impact on economic stimulation. By designing flexibility into the dimensions of space, time and programmatic usage, FlexHouse becomes an active member that feeds back to the local neighborhood and the economy.

The chapels contain spaces for functions of baptism, wedding and funeral service - major events people go through in the course of life, generations after generations. The idea is to have the flow of time to be eternal in this building, echoing the rhythm of life.

1 2 3 4

Funeral visitation Funeral prepartion ro Wedding banquet ha Banquet food prepar

Layer of Past Events

1 3

2 1

1 2 3 4 5 6 7 812

Mezzanine of baptis Mezzanine of weddin Wedding banquet ha Banquet hall patio

Layer of Present Events

The project was to design a chapel that allows users to experience and reflect on the relationships between time and space.

Most RIGID rigid MOST

DIAGRAM OF OVERLAPPING TIME

1 2 3 4

MOST Most FLEXIBLE flexible

Layer of Present Self

GALLERY FUNERAL CHAPEL FUNERAL RECEPTION AREA ENTRANCE TO BAPTISM/WEDDING CHAPELS BAPTISM CHAPEL WEDDING CHAPEL CEREMONY PREPARATION CHAMBERS ENTRANCE TO FUNERAL CHAPEL

PUBLIC Public ACCESS Access

PrivateACCESS Access VEHIICULAR

7 7

Past Events

3 Gallery Funeral Chapel Funeral reception area Entrance to baptism/wedding chapels Baptism Chapel Wedding Chapel Ceremony 2ND LEVELpreparation chambers MEZZANINE OF BAPTISMto CHAPEL Entrance funeral chapel MEZZANINE OF WEDDING CHAPEL

1 2 3 4

Mezzanine of baptism chapel Mezzanine of wedding chapel Wedding banquet hall Banquet hall patio

DIAGRAM OF PENETRATION OF TIME

DIAGRAM OF OVERLAPPING TIME

3RD LEVEL 1 2 3 4

3 WEDDING BANQUET HALL 4 BANQUET HALL PATIO

FUNERAL VISITATION FUNERAL PREPARATION ROOM WEDDING BANQUET HALL BANQUET FOOD PREPARATION AREA

Layer of Present Self

The project was inspired by the nonlinear story telling technique perfected by the movie Eternal Sunshine of Spotless Mind. The movie unfolded the story by delicately manipulates the concept of time. The project started from studying the relationships and interactions between different timelines in the movie and different time-reality among each protagonists. The time manipulation techniques applied in the movie were analyzed and extracted to formulate the strategies for creating an experiential environment reflecting the intangible flow of time. Spaces in this project are the materialization of time flows that layer, interweave, penetrate, and overlap with each other.

1 3

Layer of Past Events Layer of Present Events 4

1 2 3 4

Funeral visitation Funeral prepartion room Wedding banquet hall Banquet food preparation area

2 1

RigidEDGE edge RIGID

WildCARD Card WILD

FlexHouse

Arch601 | Fall 2012 | CondoMaximum 2

1 2 3 4

Mezzanine of baptism chapel Mezzanine of wedding chapel Wedding banquet hall Banquet hall patio

DIAGRAM OF PENETRATION OF TIME

1 3

RETAIL STORE FACADE & STOREFRONT DESIGN Accessories/Jewelry Store Renovation Taipei City, Taiwan Left | Construction Progress and Lighting Effect of Skeletal Diamond -Shaped Facade

Top Right | Construction Progress of Shopfront Interior Renovation - Honeycomb Wall Display Boxes Bottom Right | Construction Progress of Shopfront Interior Renovation - Tree-Shaped Jewelry Display Boxes

Professional Project Facade Design+Retail Interior Design 2010 The project was to design and construct a 3-story facade and the interior of a retail jewelry store. The design concept of the exterior facade was derived from the major product of the store – diamond. We took an image of diamond radiance and stretched it both vertically and horizontally to create an angular-shaped skeleton. The stretches created dramatic visual tension to symbolize the breaking through of this long-lasting retail store and the business area. To simulate the glossiness of a diamond, the skeleton extruding out of the exterior wall was covered by patterned translucent films on tranparnet plastic plates. Durind daytime the façade is a glittering diamond, and at nighttime the façade turns into a shining color-changing gemstone by the LED lights installed inside the skeletal structure. The inteior design of the store was modelled after the idea of a spring garden. The essence of vitality is conveyed through growing trees supporting the jewelry display boxes, and honeycomb wall-displays which represent opulence and liveliness. My duties in the project includ the generation of design concepts, the production of schematic representations, communication with clients and contractors, and supervision of the renovation site.

SANDY JAN

M. Arch I | sandyjanyh@gmail.com

sandyjanyh@gmail.com +1 267 2071847