TIMOTHY TSANG
ARCHITECTURE PORTFOLIO 2013-2019
Tsang Tin Kin Timothy The University of Hong Kong, Class of 2019 Master of Architecture (MArch) tsangtinkin@gmail.com +852 6256 1059
RESUME Class of 2019
Tsang Tin Kin, Timothy (852) 62561059, tsangtinkin@gmail.com EDUCATION The University of Hong Kong Master of Architecture (MArch)
Class of 2016
The Chinese University of Hong Kong Bachelor of Social Science (Architectural Studies), CGPA 3.323/4, Major GPA 3.207/4
Class of 2012
St. Paul’s Co-educational College
ACHIEVEMENT The University of Hong Kong Distinction: MArch Architecture and Urban Design I The Chinese University of Hong Kong Scholarship: Success Charity Foundation Scholarships 2014/15 Honors: Dean’s List (Merit) of New Asia College, CUHK (2012/2013 & 2013/2014) Honors: Dean’s List of the Faculty of Social Science 2012/2013 07/16 - 07/17
WORKING EXPERIENCE Architectural Trainee – Dennis Lau & Ng Chun Man Architects & Engineers (H.K.) Limited St Regis Hotel, 26 Harbour Road, Wan Chai, Hong Kong - Assisted in General Building Plan submissions - Assisted in preparing construction and tender drawings - Assisted in Formal AI preparation - Created 3D Models and descriptive drawings for façade design study - Attended meetings and coordinate with client, consultants, contractors and suppliers continuously Residential Development at Tai Po Town Lot No.221, Shan Tong Road, Lai Chi Shan, Hong Kong - Assisted in preparing sales brochure Residential Development at N.K.I.L. 6532, Lung Cheung Road, Beacon Hill, Kowloon., Hong Kong - Assisted in General Building Plan submissions
05/15 - 06/15
Summer Student Intern - Rocco Design Architects Limited - Assisted in building physical model, designing façade pattern and graphic layout - Assisted in preparing Building Departments files and collocation documents
06/13
Summer Architectural Assistant - I Consultants & Contracting Company Limited - Filed and processed over 500 tender and contract documents - Assisted in preparing Buildings Department files and collocation documents
SKILLS Languages: Native Cantonese, fluent English and Putonghua Computer Skills: Revit, SketchUp, AutoCAD, Rhinoceros, Photoshop, InDesign, Illustrator, Microsoft office
SELECTED WORKS
01
THE LIVING DAM
16
DESIGN INCUBATION | RETAIL PLAZA
23
LIVING CLUSTERS
32
THE SPILLOVER
38
FLOATING CUBES | FLOWING COMMUNITY
42
THE TELESCOPE
46
COMPETITIONS
48
PRACTICAL EXPERIENCE
49
PHOTOGRAPHY
01
THE LIVING DAM
PROJECTED HK WATERFRONT SCENARIO IN 2100
Resilient Water Infrastructure
Dam
MArch Thesis Year: 2019
Tutor: Wallace Cheng This thesis aims to explore a softer, resilient form of water infrastructure in the discourse of vulnerability and uncertainty of the city.
Waterfront
Open Channel
Given the inadequacy of existing Hong Kong water infrastructure and the crisis brought by climate change, my thesis proposes a living dam system that combines the advantages of hard and soft water infrastructure. It can actively interacts with changes of water level due to sea level rise and the edges of the infrastructure serve as the extension of the city and are designed to be flexible and multifunctional. Kai Tak is chosen as the first site of intervention and the living dam system can be applied to other urban water frontage and water infrastructures.
BUILDING TYPES
03
05
KAI TAK SITE PLAN
VERTICALITY
BUILDING TYPES + DEGREE OF SENSITIVITY TO WATER
PROTECTION + WATER BODY ZONING RESILIENT WATER INFRASTRUCTURE
LIVING DAM
PROGRAMME & SITE CONTEXT 06
LIVING DAM CONCEPT MIND MAP
HORIZONTALITY
REDEFINED EDGE: MULTI-FUNCTIONAL & SPILLOVER
KAI TAK SITE ANALYSIS
By incorporating the strategies of soft infrastructure, I argue that hard water infrastructure can be resilient and reflexive and serves a continuing role in flood protection, while providing a basis for extension of the city and relatively safe ground for public engagement with the ever-rising water body. Three main design parameters are set for the living dam design: redefining the verticality, horizontality and programme of water infrastructure. These parameters will be implemented in three design levels: masterplanning level, architectural planning level and building design level. Kai Tak is chosen as the first site of intervention to implement the living dam system proposed. Kai Tak has most of the waterfront edge types in Hong Kong: the Kai Tak runway separates the Kwun Tong typhoon shelter from Kowloon Bay and forms a potential inner-outer water body relationship. Also, the inner water body receives urban runoff from Kai Tak River, Tsui Ping River and Kwun Tong approach channel, while the runway, typhoon shelter and the Kwun Tong promenade is subject to flooding from the sea. The various types of water body, water edge and water flow conditions condensed at one site makes Kai Tak a favourable experimental ground for my thesis proposal.
1. MASTERPLANNING LEVEL VERTICALITY
SETTING UP PROTECTIVE EDGE (+8.0m MSL)
THREE REFERECE HEIGHT PROTECTED LEVEL (+8.0m MSL) the absolute level which buildings and important infrastructures is safe from sea level rise and storm surge.
Flood porection is established with a height difference of +8.0m at the waterfront. This makes it possible to free the inner part of the harbour from elevated barriers and to maintain the city’s proximity to the water.
SPILLOVER LEVEL (+0-8.0m MSL) the land subject to variation of water levels daily during high/low tide, will become fully flooded during stormsurges and typhoon
SEA LEVEL (MSL or below)
The water body. Level constanly under water. Up to the projected MSL in 2100.
HORIZONTALITY
WATER BODY ZONING Creating two types of water bodies by the dam infrastructure and setting up the protective edge around the inner water body.
2. ARCHITECTURAL PLANNING LEVEL
REDEFINING THE EDGE OF WATER INFRASTRUCTURE LAND-WATER EDGE
INNER WATER BODY
HORIZONTALITY
- regulated by the dam system - more controlled and stable - allow active day-to-day public engagement
H
LAND
- Interlocking relationship
OUTER EDGE
INNER EDGE
CITY S
EDGE (DAM)
WATER WATER BODY
- Subtle vertical changes to create spillover
OUTER WATER BODY
Major Elevation
WATER-WATER EDGE
OUTER WATER BODY
HORIZONTALITY
OUTER EDGE
- The top of the edge can serve as an extension of the city
DIAGRAMMATIC PLAN OF LIVING DAM SYSTEM
Multi-functional
Intentional Spillover
- create spillover on dedicated areas
3. BUILDING DESIGN LEVEL
PROGRAMME & CONTEXT
VERTICALITY
DEGREE OF SENSITIVITY TO WATER KEY INFRASTRUCTURE RESIDENTIAL
ELEVATED WET-PROOF
FLOATING
PROTECTED SPILLOVER
RAISED FOUNDATION
Separation & Protection
DAM
- ensure a sufficient height for separating the water bodies and provide protection
DAM
VERTICALITY
Water will be displaced between the inner and outwater body in different scenarios.
- subject to larger fluctuation of water level change - suitable to use soft infrastructure and ecological solutions as flood barrier
Topographic Spillover
DAM
INNER EDGE
Absorbing flooding
H
Degree of verticality - Major water frontage level change according to the reference levels.
OUTER EDGE
INNER WATER BODY
S
- Mutual extension
VERTICALITY Draining urban runoff
H
WATER BODY
COMMERCIAL/RETAIL DINING PUBLIC USE WATER-RELATED ACTIVITIES
Air system
Dining
Public Square
Water Sports
SITE PLAN In masterplanning level, the foundation of the living dam system is the water body zoning by the main dam. The dam separates the water body into the inner and outer water body. The inner water body is regulated by the dam system thus is more controlled and stable, allowing active engagement by the public. The outer water body is subject to larger fluctuation of water level change and soft infrastructure and ecological solutions are implemented as flood barrier. In this Kai Tak proposal, the living dam strengthens the resilience of its surrounding water edges by actively drains water in and out of its inner water body. Together with the soft infrastructure such as the aritifical island and open channels, it can create a relatively safer water body that reacts to continuous changes of water level, resulting in various water edge design according to the site context and programme. The infrastructure serves as an extension of the city to the sea.
Firstly, a protective edge is set up to ensure the inner water body is protected and can function as a water reservoir. Under normal conditions, urban runoff will enter the inner water body through the Kwun Tong approach channel and the edges of the living dam and drained to the sea. During flooding, the dam and the soft infrastructural edges along the runway and Kwun Tong waterfront will mitigate the flooding impact and drain excess water through the open channels to the inner water body (Figure 26). By this way, the inner water body actively drains and absorbs the excess water from the waterfront. In my design proposal, the 4m protective edge setup allows the inner water body to hold an additional 1,369,800mÂł of water. Under extreme scenario where 2m high flooding occurs, it can fully absorb 1,262,400mÂł of excess water flooding to 20m wide waterfront of the runway and 150m wide of the in-land zone through continuous and effective drainage by the soft waterfront edge and open channels.
09
PROTECTIVE EDGE
The edges of the living dam are divided as the land-water and water-water edge and are designed differently according to its site context and programme (Figure 28). In my thesis proposal, the edges surrounding the inner water body are the key focus of design as they should be more engaging to the public with relatively safer condition. Three edges - Main Dam, Inner Pier and Changing waterscape Promenade are designed and presented in detail. Their design process are based on setting the protective edge, offsetting to create spillover zones and adjusting the degree of horizontality and verticality as placing making.
WATERF FLOW DURING FLOODING
FLOOD CAPACITY
The Main Dam functions as the first layer of flood defence. The dam is divided into two parts, one forms as part of the inner pier to extend to water and the longer part serves as an extension of the city, bridging across Kwun Tong and Kai Tak Runway. The two ends of the dam are designed to be higher than protective level to avoid flooding, as such they serve as a platform for non floodable programmes such as typhoon research centre, shopping mall and hotel. The middle part of the main dam is an urban blue-green space with flood parks, footbaths and harbour pools. During raining and flooding, the pools and parks will absorb and purified the excess water and becomes a spillover. This allows the public to have close contact with the water during and after the event.
MAIN DAM PLAN
11
INNER PIER PLAN The Inner Pier is located at the inland zone waterfront. It is designed with an interlocking relationship of land and water. Piers extended into the water body and serve as a platform for public buildings such as the rowing centre and cultural centre, while spillover zones are created in between the piers as flood parks and event decks.
12
Buildings at the Inner Pier integrated different flood-proof design strategies according to their location and programme. The sloped plaza of the main cultural hall is within the spillover zone and is subject to the continuous changes of the water level. People coming from the city can directly walk towards and touch the water body.
As the width of the runway is limited, the promenade is designed to stretch along the runway waterfront. The promenade together with the soft outer edge of the runway will protect the central part of the runway free from flooding and follows the outline zoning plan. The promenade is designed with various changing waterscapes such as topographic terraces, tidal pools and open channels. These flat surfaces of the waterscapes allow water to spillover and retain them in layers, making the change of water level visible and interactive for the user. The topography and pools are designed to express the nature of the water body thus they have a certain level of risk when accessing them.
PROMENADE PLAN
CHANNEL FLOW SECTIONAL STUDY
BUILDING DESIGN LEVEL Buildings at the Inner Pier integrated different flood-proof design strategies according to their location and programme. For example, the main building section show the building floors of the cultural hall are elevated above the protected level and a public plaza is created under the building that slopes towards the water body. The sloped plaza is within the spillover zone and is subject to the continuous changes of the water level. People coming from the city can directly walk towards and touch the water body.
MAIN CULTURAL HALL SECTION
14
SLOPED PLAZA
Additionally, the underground floor of the building are bathrooms and changing rooms which is floodable. Floating buildings that are multipurpose halls and restaurants surround the Inner Pier and are movable.
MOMENTS OF SPILLOVER On an individual level, moments of spillover are created throughout the site where people can have a direct engagement with water (Figure 36). This rebuilds their visual and physical connection with the water body and avoid a false sense of security that they are ever-protected and separated. The spillover hold a certain risk factor given the nature of the water body and continuous changes of water level, creating an unstable equilibrium. This can invoke the user’s own interpretation and how they should situate themselves in the upcoming crisis. Behind the framework, masterplanning and architectural design, the fundamental concept of the thesis is arguing that a continuing role of hard infrastructure should no longer be about conquering nature; rather as a blockage and separator, it should act as a moderator that leads to individual connection to our environment and contemplation of one’s relationship with the moments of vulnerability and uncertainty of the city.
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16
DESIGN INCUBATION RETAIL PLAZA
SEONGDO BRIDGE
NGGYO
Seongsu Site Photos HANYANG UNIVERSITY (3 MINS BY SUBWAY)
SAN
TO YONG
SEJONG UNIVERSITY (25 MINS WALKING)
TTUKSEOM STATION
m
GBU
SEOUL CHILDREN’S GRAND PARK (10 MINS SUBWAY)
Lore
DON
EXP
RES
SWA Y
CHILDRENS GRAND PARK STATION
LOTTE CASTLE
10 M
INS
SEOUL FOREST STATION
SEONGSU STATION
TO IN
SITE
SA-D
ONG
KONKOK UNIVERSITY (15 MINS WALKING) KONKUK UNIV. STATION
Developer Masterplan
SEONGSU
DAEGYO
BRIDGE
15
MIN S
TO G
AN
GN
UPC OMIN
AM
G RE
TAIL
ARE
A
SEOUL FOREST (20 MINS WALKING)
TO G
NAM
YEO BRID NGDO NG GE DA EGY O
ANG
MArch Architecture & Urban Design III Year: 2018
LEGEND MAJOR TRANSPORT ARTERIES SUBWAY LINES SUBWAY STATIONS KEY EXISTING SITES CAFES
Seongsu Plan HOTELS
Tutor: Kurt Evans Project Location: Seongsu, Seoul, South Korea The studio involves both collaborative work and individual design. Collaboratively, students in our studio were divided to groups to present a developer proposal for the site in the Seongsu district, which is an up & coming retail district. The developer proposed a young, vibrant district to provide for the underserved university student population nearby, whilst using retail as the incubator to foster a commercially viable solution.
Focused Design Area
ESCALATOR
PEDESTRIAN ACCESS
TO RAILWAY STATION
COLOR BRICK RETAIL STREET
SINDOH RESEARCH INSTITUE
ESCALATOR
COLOR BRICK RETAIL COMPLEX
PEDESTRIAN ACCESS
INCU-PLAZA
RETAIL ENTRY
SKYBRIDGE TO STATION
PUBLIC ENTRY
TECH ACADEMY
PROPOSED OFFICE BUILDING PROPOSED OFFICE BUILDING
OFFICE ENTRY
SEONGSUILLO 8-GIL
DROP-OFF UNDERGROUND PARKING
18
INDIVIDUAL DESIGN PROPOSAL
TECH ACADEMY INCU-PLAZA
COLOR BRICK RETAIL STREET
DESIGN OVERVIEW
PROGRAMME DISTRIBUTION
AREA ALLOCATION
RETAIL
Based on the developer’s proposal, our group divides the area and design individually. I was to design the retail plaza area located close to the metro and main access of the retail. The design area forms as a technology and community incubator for the students, corporates and the public with the tech academy building, retail street and open plaza.
F&B
F&B
RETAIL
RETAIL
RETAIL
RETAIL
F&B
RETAIL ANCHOR
F&B
RETAIL ANCHOR
F&B
LECTURE ROOM
20
1/F PLAN
TYPICAL OFFICE PLAN
PLAZA PERSPECTIVE
LEARN & INSPIRE OBSERVE & INTERACT
PUBLIC INCUBATOR TECH ACADEMY & PUBLIC PLAZA
PUBLIC ANCHOR
The tech academy promotes close interaction of students and tech companies. It is also a R&D+Retail headquarter. The three-level high public incubator contains multipurpose space and facilities for technolgy learning and design thinking. It is directly connected to the retail plaza and together they serve as a three dimensional community anchor. 21
COLOR BRICK STREET PERSPECTIVE
22
COLOR BRICK STREET COMPLEX
The retail complex design preserve and regenerate the identity of the area with a new articulation of bricklike facade. The street forms as a urban connectior of the area and provide upper floor pedestrian walk to facilitate people flow.
URBAN CONNECTOR
LIVING CLUSTERS Expandable Building Complex
23
1980 Ap Lei Chau Estate
1983 Sun Chui Estate
1983 Cheung Wah Estate
1985 Lower-Wong Tai Sin Estate
H-BLOCK HISTORY TIMELINE
CONCEPT DEVELOPMENT
MArch Architecture & Urban Design II Year: 2018 Tutor: Olivier Ottevaere In collaboration with Leung Ka Chi Alvin
Veranda Layer
Veranda Layer Veranda Layer
Structural Veranda Structural Veranda LayerLayer 24
H-BLOCK EXPLODED AXON
Structural Veranda Layer
Living Layer
Living Layer Living Layer
Living Layer Living Layer Living Layer
Semi-open Corridior
Semi-open Corridior Semi-open Corridor
Semi-open Corridior Semi-open Corridor Semi-open Corridior
Structural Core
Structural Core Structural Core
Structural Core Structural Core Structural Core
The studio started with an analytical study of the H-Block public housing in Hong Kong as our initial test bed for precast construction system design. Although as a efficient and economic housing design, the H block has two major limitations: one is the tightly compressed living space at the centre of the building and the lack of communal space. Based on the limitations, we propose the possibility of two facade that serve as the main structural element of the building, such that the living space will not be limited by the shear walls and can be extended in-between and out of the structural facades. The new structural system also intend to open up new programme arrangement and the introduction of communal space within the building.
FORMWORK
CASTING
UNCASTING
SRUCTUAL FRAME
VOID DETAIL
1:20 CONCRETE MODELS
BASIC L COMPONENT From the concrete casting of structural frames we have derived the L component as the basic component of the structural facade. The sizes of the precast component is determined by the exploration of unit formation and transporation constraints. The respective X- and Y-axis slabs of the L component are pushed-in or pulled out to create different spatial conditionas such as the double height and elongated spaces. Stairs can also be incorporated in the precast component and the combination of different components create a feasibile circulation in a duplex.
L COMPONENT TYPES 25
UNITS DEVELOPMENT BASED ON WALL ADJUSTMENTS
UNIT TYPES AND PLAN
1 PERSON UNIT
CONSTRUCTION HIERARCHY
2 PEOPLE UNIT
3 PEOPLE UNIT
CLUSTER DEVELOPMENT
OVERALL SYSTEM
THE CLUSTERS CLUSTER SYSTEM
4-5 living units centred around a communal space that also serve as the major way of residence distribution. The design aims to provide small community spaces for family activities within the building and innovate the way of circulation to allow the extension of living spaces. Different types of cluster are created by different composition and combination of units. Every cluster has a 8m vertical structural span to ensure structural stability. The vertical circulation of the central communal space is limited to 3 floors for accessibility and the communal space provided is limited to maximum double height for effective use of space.
CLUSTER TYPES
27
THE TWIN FACADE Taxonomy of localized nodes reorganizes outdoor living around smaller vertical courtyards of varied density, in an effort to increase community living within a larger housing complex. A series of vertical circulation around the building, feed each semi-public void directly. Each void then locally distributes their respective living clusters to stimulate social encounters between residents. The twin facade improves structural stability of each other as the horizontal circulation in-between act as a structural beam. The distance of the two facade also permit the construction of the vertical core at the centre, which is shared by two buildings to maximize efficiency. The porosity of the building ensures ventilation and light penetration to the in-between space. The further investigation of the studio hopes to focus on the design of the in-between space, as well as the performance of the building so to maxmize the flexibility of the basic components and units.
ELEVATION
28
SECTION
IN-BETWEEN THE FACADE 29
30
31
THE SPILLOVER
Blurring The Urban Waterfront
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MArch Architecture & Urban Design I Year: 2017
CONCEPT DEVICE: THE SPILLOVER The spillover extends the horizontaility of the water edge by creating layers of surfaces to retain water, making the changes of water level visible and interactive.
Tutor: Michael Kokora
OBSERVER & PARTICIPATOR HABOUR WATER
TIDES UP
TIDES DOWN ROCKY SHORE
VERTICAL & HORIZONTAL LAYERING
CONCEPT DEVELOPMENT
PEOPLE THE SPILLOVER
CULTIVATION GROUND
PROJECT CONCEPT Redefining the waterfront by introducing the water body to the public. At the waterfront, one can touch and observe the water closely and will realize the marine life that could exist, as well as the harmful waste and pollution that we have brought to our water. The clash of various experiences hopes to bring the water body back to the focus of the citizens.
FLORA & FAUNA
OBSERVER & PARTICIPATOR
ORIGINAL SHORELINE
CARVE OUT & SPILLOVER
VERTICAL PILLARS FOR NATURAL SEETTLEMENT
ECO-SHORELINE FEATURES
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TYPOLOGY 1: LARGE-SCALE SPILLOVER INNER HARBOUR 1:500 SECTIONAL PERSPECTIVE POLE FIELD
Flora & Fauna Habitation
MATERIAL
Eco-concrete
glass fibers
carbon fibers
50cm
LOW TIDE: continous changes in condition throughout the day
SPILLOVER
Thin Layers of Water for Direct Engagment
WOOD DECK
Oberservation & Access
HARBOUR POOL
Outdoor Swimming Pool for the Public
WATERFRONT PARK
Leisure & Support Facilities
TARGET SPECIES
Mean Sea Level +1.38 mPD
algae
intertidal fauna
The Western DIstrict waterfront is chosen as the first site of intervention. Western Wholesale Food Market has been dropping in usage and the Pier area has long been a popular public space. The site has the opportunity to be renovated with the implementation of my concept device as a large spillover area, combining public, leisure and ecological facilities. The proposal created different scenarios of direct water enegagement. RAINWATER HARVESTING SYSTEM
bay residents
oysters
MODULE
34
FIRST SITE OF INTERVENTION - WESTERN DISTRICT WATERFRONT 1:2000 SITE PLAN
For the outer harbour, small-scale spillovers are designed with a slight level change at every step towards the water body. This makes the gradual changes of tides more visible and interactive for the people. The pier prmoenade connects the Sun Yat-sen Mermorial Park to the Western Public Pier. To view inversely, the piers along the promenade are the pocket space of the water body. Different settings of the poles and columns creates different water related recreational space.
OUTER HARBOUR PLAN
35
PIERS PROMENADE PLAN
INNER HARBOUR
36
URBAN WATERFRONT INTERVENTION STRATEGIC PLAN
PHYSICAL MODEL
PROMENADE
37
ECO-COLUMNS
FLOATING CUBES | FLOWING COMMUNITY Black & White Box Theatre + Rehearsal Space Location: Aldrich Bay Park, Shau Kei Wan Year: 2016 (CUHK) Tutor: Minjung Maing Old Aldrich Bay
Fisherman Huts
Resemblence
Pavilions
Water & Greenery
38
The project proposes a community theatre which is located at the entrance of Aldrich Park. The idea of the project comes from the deep rooted history of fishman huts in Aldrich Bay. This is reflected in the landscape design of the park. The project hopes to create flowing cubes that blend in the surrounding landscape of the park, creating a 'fisherman hut in the park'. The building consists of three iconic cubes of respective rehearsal, blackbox and public functions placed above a transparent and open ground floor. The blocks are oriented and shifted such that two light courts are created in between them to allow sunlight and ventilation, as well as embracing the view of the park. The public and performers enter the building from the spacious ground floor lobby and go up to the black box theatre by the stairs at the 'light boxes' . The fenestration of the building cubes are designed with curtain walls at two sides to provide daylight into the building as well as enhancing the visual connections inside and outside. The indoor and outdoor relationship is blurred, merging the building into the park.
GROUND FLOOR PLAN
SIDE ELEVATION
THEATRE STRUCTURE
EXPLODED AXONOMETRIC
39
Fisherman History in Aldrich Bay
Design Concept of the Aldrich Park
ery
en
Gre
&
ad
Ro
ter Wa
Fisherman Huts
Fisherman Culture Resembled
Design Concept of the Aldrich Park
Pavilions & In-between Space
&G
re a
u Fig
ad
Ro
nd
rou
Site Mapping
Water and Greenery
Fisherman Culture Resembled
4 6
Pavilions & In-between Space
&G
re a
u Fig
REORGANIZING CONTEXT
CREATING IN-BETWEEN SPACES
As a community theatre centre, each functions are categorized and rolocated by site condition of adjacent circumstances, resulting in satisfying site requirement.
In-between spaces are created to define distinct function of blocks and providing more light and views to each block. The block at the back holds the main circulation, acting as a bridge connecting the blocks.
nd
rou
8
5
PED
ESTR
Site Mapping
Water and Greenery
IAN
PATH WAY
SECTIONAL PERSPECTIVE REORGANIZING CONTEXT
CREATING IN-BETWEEN SPACES
As a community theatre centre, each functions are categorized and rolocated by site condition of adjacent circumstances, resulting in satisfying site requirement.
In-between spaces are created to define distinct function of blocks and providing more light and views to each block. The block at the back holds the main circulation, acting as a bridge connecting the blocks.
PED
ESTR
IAN
OPTIMIZING SHAPING
CIRCULATION REALLOCATION
The blocks are rotated and shifted to get views of the park and roads, enhancing visual connection to the site.
The back cicurlation spine is put under the three funtional blocks to improve the fludity to and within the building. This also raised the functional blocks to have better views.
PATH WAY
Reorganizing content
In-between space
OPTIMIZING SHAPING
CIRCULATION REALLOCATION
The blocks are rotated and shifted to get views of the park and roads, enhancing visual connection to the site.
The back cicurlation spine is put under the three funtional blocks to improve the fludity to and within the building. This also raised the functional blocks to have better views.
Optimizing shaping
Massing Development Circulation relocation
10
Concept Sketch - Flow of the Boxes 9
Massing Development
40
SITE PLAN
View axis
Reaching greenery
Service
VIEW AXIS By separating the program and arraying it about a raidal axis, view of the park and city are opened in all direaction.
GREEN FINGERS 11
Greenery of the park pierces into the building through the front and in-between spaces of the builidng blocks
Pedestrian access A
12
7
FROM PARK
BLACKBOX
24
FROM MAIN ROAD ENTRANCE
LIGHTBOX
TEMPORARY EXHIBITION
THE TELESCOPE Furniture Design Centre
The design projects proposes a design centre for Tendo Mokko, the world-famous Japanese furniture design company. The design centre will showcase some of the classic contemporary furniture design of the company and provide open space for temporary exhibitions. The centre also offers educational opportunities through conference meetings and public lectures. 13 42
PERMANENT EXHIBITION
Location: Tendo, Japan Year: 2015 (CUHK) Tutor: Bruce Lonnman
9
UPPER FLOOR PLAN
6
4
8
The main design concept is to establish a walkway joining the hill and the lake. The building is a two-storey elongated block, that acts as a telescope projecting to the lake. Visitors enter the front foyer cantilevered over the water and experience a journey walking from the lake side to the hill. 3 1
7
7
CAFE
As they walk up by the main staircase, they are welcomed by the bright and open temporary exhibition space, which will be dedicated to the recent and interactive unique collections of furniture works. While the glass facade at the front frames the scenery into another piece of work by the nature.
2
5
After that, they can go down the stairs or along the lower floor corridor to the permanent exhibition. As they go deeper into the hillside, a more controlled and peacef environment prepares the visitors to admire the masterpieces of wood furniture.
LOWER FLOOR PLAN
1 entrance foyer 2 cafe 3 washroom 4 media space 5 adminstration 6 archive 7 meeting room 8 permanent exhibition 9 temporary exhibition
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Tendo has a mainly cold winter and mild summer. The building is oriented to shield the winter prevailing wind by the hill at the rear and welcomes the summer prevailing wind blowing across the lake. The glazed ends and skylight roof of the building introduces natural light into the building and facilitates ventilation during summertime.
CONCEPT DEVELOPMENT SITE PLAN
44
DETAILS
SUMMER
WINTER GLASS FACADE TRUSS COLUMN DETAIL
EXPLODED AXONOMETRIC
SECTION DETAIL AND PARITAL ELEVATION
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TREE & LEAVES TREES &?????LEAVES
URBAN CONTEXT ROAD ROAD
?????
ATLANTA BELTLINE WESTSIDE TRAIL
REPRESENT AS TRIANGLES REPRESENT AS LANDSCAPE TRIANGLES
ATLANTA BELTLINE WESTSIDE TRAIL VEGETATION VEGETATION
LANDSCAPE
PAVILION AS TREE PAVILION ??? AS TREE
???
URBAN CONTEXT URBAN CONTEXT
URBAN CONTEXT
PAVILION????? CANOPY ?????
F/G
FIGURE
???
ROAD ROAD
ROAD
VEGETATION
PAVILION AS TREE PAVILION AS TREE
???
URBAN URBANCONTEXT CONTEXT
URBAN CONTEXT CONCEPT
URBAN CONTEXT
REPRESENT AS TRIANGLES REPRESENT AS TRIANGLES
ATLANTA BELTLINE ATLANTA BELTLINE
WESTSIDE TRAIL WESTSIDE TRAIL WESTSIDE TRAIL
LANDSCAPE SPLITTING LANDSCAPE HEIGHTS
??? ???
WATER
LANDSCAPE ??? ???
SITE SITEANALYSIS ANALYSIS
The design of the free-standing performance pavilion comes from the the tree and leaves of the park. The shattered leaves are abstracted as triangles that triangulates the performance ground, while the tree is represented by the large pavilion. along the Westside Trail in the Adair Park community of Atlanta, Georgia.
PAVILION AS TREE
TREE & LEAVES TREE & LEAVES
SITE ANALYSIS URBAN CONTEXT
The mission of the competition is to create an iconic permanent performance space that energizes the Adair Park community strengthening the connection between this historic neighborhood, the Atlanta BeltLine, and the City of Atlanta.
REPRESENT AS TRIANGLES
SITE ANALYSIS
2015 AIA National Pavilion Design Competition In collaboration with Jason Ho, Gary Yeung & Cho Yuen Gee. Led by Prof. Minjung Maing.
TREE & LEAVES
CONCEPT CONCEPT
CONCEPT
URBAN RUG: UNDER THE CANOPY
VEGETATION VEGETATION
FIGURE FIGURE
FIGURE
Located at the intersection of the Westside Trail and Allene Avenue, visitors can access the performance space through the Westside Trail. The structure features area/stage to accommodate small dance performances, music ensembles, spoken word productions, and public gatherings throughout the year. 46
SITE PLAN
FRONT VIEW
The Sea of Grain
Public Installation in Lam Tin Complex - G/F Lobby Hong Kong Public Art Scheme 2015 In collaboration with Jason Ho and Tracy Lee.
Hong Kong Public Art Scheme 2015 invites designers to create public artworks to transform the leisure and cultural venues into extraordinary places, encouraging public to utilise these venues in their leisure time and to experience a breath of art. The salt-fields of the Lam Tin are perhaps the most significant collective memory of the local people. By retracing the past of Lam Tin, the installation aims to propose an interactive journey - a dialogue between the living memory and the individual. The topographical effect of the ceiling gives the impression of an inverted field of golden “salty grains�, represented by the aggregation of light, gossamer strands brushing softly against the shoulders of passer-bys. As one walks through the layers of golden strands, one can feel the subtle movement of filaments and see the glimpses of light in between a recreation of a full, ripe field of grains. Amongst the filaments, sections of void are carved out as exhibition spaces, and messages and imagery are projected onto the field grains. The Sea of Grain evokes, through both touch and sight, the nostalgic sense of a farmer walking through the salt-fields of Lam Tin and invites the viewer for a journey in the past.
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接待 / N1555-H
香港 St. Regis
PRACTICAL EXPERIENCE | DLN MAINimage PROJECT: Insert hereST REGIS HOTEL LOCATION: 26 HARBOR ROAD, WANCHAI, HONG KONG COMPLETION: 2019 My work at Dennis Lau & Ng Chun Man Architects has been mainly focusing on the construction of the St. Regis Hotel in 26 Harbour Road, Wan Chai. I have assisted in multiple General Building Plan submissions, as well as preparation of construcion drawings, tender drawings and formal Architect’s Instructions. I also attended meetings and coordinate with client, consultants, contractors and suppliers continously. I was also involved in the design of the facade, including the stone cladding module of the podium and the metal panel arrangement of the tower. I have created 3D models and revised constructions drawings to meet the aesthetic and practical standards.
2.3
石材選擇 - 淺灰色
淺灰色石材選擇
DLN
Type: Granite Color: Diamond Grits Origin: China Finish: Honed
ELEVATION STUDY
Apart from the St Regis Hotel project, I have participated in General Building Plan submissions, sales brochure preparation and 3D model making of other projects.
EXTERIOR PERSPECTIVE 這項目是把現時的中國華潤大廈展覽中心改 48 建為一所豪華酒店。
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Path: N555-H \ H\ Presentation\ Brochure\ 2015-09-23\ indd
STONE PATTERN DESIGN 香港華潤總部酒店發展 Hotel Development at China Resources Headquarter, Hong Kong 25-09-2015
PHOTOGRAPHY
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TIMOTHY TSANG
ARCHITECTURE PORTFOLIO 2013-2019