2023
University of Sheffield
2018
2015
2021
2019
2018
2017
2016
Wangyang Liu
Email: louiswangyangliu@gmail.com
Tel : +44 0772-052-5575
EDUCATION
Sheffield, United Kingdom // 2021.09 – 2023.07 (Expected)
Master of Architecture (MArch), ARB / RIBA Part 2
Referee: John Sampson (Studio Tutor) John.Sampson@sheffield.ac.uk
University of Westminster
London, United Kingdom // 2015.09 - 2018.07
Architecture BA Honours, First Class Degree, ARB / RIBA Part 1
Referee: Catherine Phillips (Studio Tutor) C.Phillips@westminster.ac.uk
Unionville High School
Ontario, Canada // 2013.02 - 2015.07
Graduated with 88.6 / 100 Average (UCAS Calculation)
FULL-TIME WORK EXPERIENCE
2018
Woods Bagot
Beijing, China // Assistant Architect // 2019.11.18 - 2021.08.06
Project: Yuefu Park Retail Facade, Anzhen Renovation, ZGC Everbright, Xiangyang Eco-City Project
Contact: Tao Wu (Principal) Tao.Wu@woodsbagot.com
AECOM
Shenzhen, China // Assistant Architect // 2018.10.29 - 2019.11.15
Project: Jieliu Exhibition River Project, Haibin Road Landscape Project, Galaxy Yabao Project
Contact: Jane Xiaoqing Liu (Manager, Human Resources) Jane.Liu@aecom.com
Skidmore, Owings & Merrill (SOM)
London, United Kingdom // Summer Internship // 2018.07.30 - 2018.10.05
Project: Nine Elms Square Phase One (Stage 3 & 4).
Contact: Mina Hasman (Sustainability Director) mina.hasman@som.com
AECOM
Beijing, China // Summer Internship // 2017.07.03 - 2017.09.15
Project: NUO Hotel Project, Yan State Residential Housing Project.
Contact: Adam Lee (Associate Director) Adam.lee@aecom.com
Chris Dyson Architects LLP
London, United Kingdom // Summer Internship // 2016.05.31 - 2016.09.16
Project: Shell Mex House Renovation, Grimsby Street Studio, 35 Artillery Lane Project
Contact: Margaret Dunn (Studio Manager) Margaret.dunn@chrisdyson.co.uk
AWARDS & HONOURS
Best SOM Summer Internship Presentation Prize Winner
London, United Kingdom // 2018.09
Awards for Best Intern Presentation for 2018 Summer Internship Program at Skidmore, Owings & Merrill (SOM) LLP.
DETAIL Magazine Architecture Student Awards 2017 / 18 Winner
London, United Kingdom // 2018.06
Award for Year 3 Technical Wall Section Drawing Selected by University
Best Final Year Dissertation Awards 2017 / 2018 Honourable Mention
London, United Kingdom // 2018.06
Honourable Mention of Best Illustrated Research Essay in University Yearbook: Lost in Transition? How Ieoh Ming Pei and Wang Shu Revived Vernacular
Architectural Language in Southeast China
University of Westminster OPEN 2018, 2017
London, United Kingdom // University Exhibition // 2018.06, 2017.06
Works Selected by University Course Leader for Yearbook
ARCHITECTURAL SKILLS
BIM : Revit
2D CAD : AutoCAD
3D CAD : Rhinoceros (+Grasshopper), SketchUp Pro
Visualization : V-ray, Enscape, Lumion
Graphic : Adobe Photoshop, InDesign, Illustrator
Video : Adobe Premiere Pro, After Effects
Model Making : Handcraft, Laser-cutting, 3D Printing
Photography & Videography, Post-production Skills
Technical Drawings, Graphic Design, Report Writing
ARCHITECTURAL PORTFOLIO 2023
2018.01 – 2023.05 Works Volume
Wangyang Liu ARB / RIBA Part 2 Assistant Architect
ACADEMIC WORKS PROFESSIONAL WORKS 03 Reinvent Marylebone Discover a Green Covered Market in Central London 02 Revitalizing Industrial Heritage A vertical community integrates bio-energy production 01 The Transition Towards to Inexhaustible Clean Energy 04 ‘Play is the Work of the Child’ Theatre as the Third Teacher 05 Regenerating Nine Elms Nine Elms Square Phase One 06 The ‘Diamond’ Facade Introducing A Dynamic Commercial Zone in North Beijing 07 A Livable, Sustainable & A Future City China Xiangyang Eco-City Phase One 08 Green-Up Pedestrian Bridge Project at Exhibition River
Involved from RIBA Stage 3 to Stage 4
Works
Works
Involved
Involved
Involved
Works at Skidmore, Owings & Merrill (SOM), London UK
at Woods Bagot, Beijing CN Works at Woods Bagot, Beijing CN
at AECOM, Shenzhen CN
from Competition to 100% Design Development (DD)
from Competition to 50% Schematic Design (SD)
from Competition to 100% Construction Documentation (CD)
01
THE TRANSITION TOWARDS TO INEXHAUSTIBLE CLEAN ENERGY
SSoA MArch Year 6 Academic Project
Tutor: John Sampson
Taking the global energy crisis and climate emergency as motivation in 2022, this academical design project explores the hypothetical energy infrastructure scheme, paving the way for humanity moving towards to Type I Civilization. Responding the issues of global energy crisis, economical inflation and global warming, this Hydrogen Energy Parkland aims to be the transition towards to inexhaustible clean energy in Invergordon, Scotland.
The entire scheme is a large scale retrofit project based on old royal navy oil storage tank zone. Inspired by ‘hydrogen cloud’, the usage of low carbon materials demonstrates the contrast between clean future and rusty past. The hydrogen energy production program also revitalizes the manufacture industry among Invergordon communities.
FARM + WAREHOUSE:
Isolates the residential area, provide safer environment for industrial production.
EXISTED RAILWAY NETWORK:
Providing opportunities to transport passengers and materials for hydrogen program.
EXISTED PONDS:
Existed water ponds can be converted into reservoir and water landscape for hydrogen power plant.
TOPOGRAPHY:
Steep slope reduces blast zone impact towards to residential area.
DEEP SEA PORT:
Allowing large cruise / cargo ships to visit the site.
EXISTED SITE PLAN & SECTION ANALYSIS
The site is located at ‘higher’ ground at 15 m level, where other buildings are located lower than the site level.
0.000 m 15.000 m 15.000 m 28.500 m 10.000 m 10.000 m 5.000 m 10.000 m 50 m 100 m N Drawing Scale: 1:5000 @ A4 SECTION A INVERNESS BLACK ISLE INNER MORAY FIRTH BEAULY FIRTH LOCH NESS CROMARTY FIRTH WARD CROMARTYFIRTH EA CH RT RTTY Y MAR 10 KM 15 KM 25 KM 35 KM INVERGORDON
A
SCOTLAND UK
SITE PANORAMA
Demonstrating
obsolete but peaceful atmosphere in Invergordon, Scotland.
On top of the unused oil storage tanks, the site also has various height differences that being used as design opportunities.
The existed railway network is invited into the site. Existed ponds are excavated into railway network, where it will become visitor and freight train station. Arrival points are also located closed to the railway.
The restricted and public zone are separated by bridges and partition walls. Visitors could also interact the restrict ed power production zone while not interfering them.
The source of hydrogen is water by electrolyzing process. Hydrogen then produce both electricity and water as power production’s by-product.
The water then becomes ‘cloud’ floating on top of the existed oil tanks, demonstrating the contrast between the old past and the new ‘clean future’.
The ‘cloud’ also manipulates the sunlight for both exterior and interior spaces. The light well openings ensure people on the ground and interior can have the sunlight at arrival points any time of the year.
10.8 m 5.0 m 5.0 m 15m 10m 13.5 m N 50m 50m N W 50m 50m
+ RESTRICTED ZONE PUBLIC SPACE
01 EXISTED LANDSCAPE 02 RAILWAY NETWORK 03 SPATIAL DISTRIBUTION 05 WATER CLOUD 06 SUNRISE CLOUD 50m N W 50m 50m LANDSCAPE + ARCHITECTURAL EVOLUTION
The program is a self-sustainable community system. The entire scheme is retrofitted based on existed storage tanks. The community + office building’s structure is built by timber, minimizes carbon emissions through entire construction process.
ROOF LANDSCAPE SOLAR / GLAZE PANEL
50 m Drawing Scale: 1:2000 @ A4 N
HYDROGEN ENERGY PARK
JOURNEY OF THE H2 ENERGY PARKLAND
Public area, private area and restricted zone sets were separated into main spaces and services spaces, they are divided into parallel strips. Each route demonstrates workers’ journey, visitors’ journey and hydrogen power plant operation.
PUBLIC AREA: SHUTTLE TRAIN STATION • 4,500 m2 100 100 100 1,200 200 300 300 3,000 500 68,000 ARRIVAL PLAZA • WATER LANDSCAPE • COMMUNITY CAFÉ / KITCHEN • MEGA ELECTROLYZER HALL • LOBBY • VIEWING PLATFORM • EXHIBITION HALL FOR 100 PEOPLE • DIGITAL MEDIA ROOM • VISITORS’ CARPARK • HERITAGE PARK • RESTRICTED AREA: MEGA ELECTROLYZER • 4 x 600 m2 4 x 600 2 x 600 4 x 600 4 x 600 4 x 600 12,000 4,800 200 400 300 600 1200 400 450 HYDROGEN STORAGE TANKS • OXYGEN STORAGE TANKS • HYDROGEN TURBINES • COMPRESSORS • 8 x 500 MW ELECTRIC GENERATORS • FREIGHT TRAIN STATION • FREIGHT OPERATION ZONE • WASTES STORAGE • MATERIAL STORAGE • AHU PLANT • WATER STORAGE TANK • COOLING UNIT • LOADING DOCK • PASSIVE VENTILATION PIPES • •MEGAELECTROLYZER ACCESS CONTROL •HYDROGEN STORAGETANKS 2,400m2 4,800m2 2,400m2 2,400m2 1,200m2 18,000m2 •HYDROGEN TURBINES • COMMUNITY CAFÉ / KITCHEN • MEGA ELECTROLYZER HALL •COMPRESSORS • LOBBY •VIEWING PLATFORM •4000MW ELECTRIC GENERATORS POWERGRID • EXHIBITION HALL FOR 100 PEOPLE • OFFICE FOR 600 PEOPLE • DIGITAL MEDIA ROOM • ACCOMMODATION FOR 50 PEOPLE • STAFF CANTEEN + KITCHEN • LOCKER ROOM • BABY CARE ROOM •HERITAGEPARK 68,000m2 • FIRE STATION • ROOF TERRACES • REST ROOM • BACK OF HOUSE (BOH) •AHUPLANT •COOLINGUNIT •PASSIVE VENTILATIONPIPES • SHUTTLE TRAIN STATION • ARRIVAL PLAZA •OXYGEN STORAGETANKS •WATER LANDSCAPE • RECEPTION WATER WATER CYCLE ELECTRICITY 2H 2O •FREIGHTTRAIN STATION •SECURITYOFFICE •FREIGHT OPERATIONZONE • VISITORS’ CARPARK 4500 m2 • MAIL OFFICE • ADMIN OFFICE •WASTES STORAGE • STAFF CARPARK • CYCLE STORAGE •MATERIAL STORAGE •WATER STORAGETANK •LOADINGDOCK PRIVATE AREA: m2 60 1,500 30 1,000 40 40 40 40 18,000 980 600 600 200 100 400 RECEPTION • OFFICE FOR 600 PEOPLE • ACCOMMODATION FOR 50 PEOPLE • SECURITY OFFICE • STAFF CANTEEN + KITCHEN • MAIL OFFICE • LOCKER ROOM • BABY CARE ROOM • ADMIN OFFICE • FIRE STATION • STAFF CARPARK • ROOF TERRACES • REST ROOM • CYCLE STORAGE • BACK OF HOUSE (BOH) • 400 GYM / SPORTS HALL •
EXHIBITION + OFFICE ZONE
MEGA ELECTROLYZER HALL
ARRIVAL PLAZA
The large building consists with offices, hydrogen production zone and community exhibition spaces.
The office floor plan demonstrates the flexible working environment and interior office landscape, maximizes human comfort inside office working zones.
The 24-hour timeline diagram, demonstrates activities, space usages in Energy Parkland.
The illustration of minimum number of people needed for each energy parkland department.
0123456781112209101324 141523 161718192122 POWER PLANT OPERATION SPORTS ACTIVITIES GUIDED TOURS CANTEEN CANTEEN CANTEEN OFFICE 100 PEOPLE 600 PEOPLE SWING SHIFT DAY SHIFT NIGHT SHIFT 400 PEOPLE OFFICE MUSIC / FILM NIGHT HYDROGEN STORAGE HYDROGEN STORAGE PRIVATE / RESTRICTED ZONE PUBLIC ZONE TRAIN / SHUTTLE STATIONTRAIN / SHUTTLE STATION COMMUNITY CAFE HERITAGE PARK EXHIBITION HALL STAFF ACCOMMODATION SITE BARRIER SECURITY SECURITY INVERGORDON 9.150 m 9.150 m 9.150 m 9.150 m 9.800 m 13.900 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 22.600 m 22.600 m 22.600 m + 18.900 m 9.150 m 9.150 m 9.150 m 9.150 m 9.800 m 13.900 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 22.600 m 22.600 m 22.600 m + 35.100 m 90 50 120 40 30 150 40 5 60 10 0 0 40 40 100 STAFF MAINTENANCE VISITOR MATERIAL
H 2 TRANSPORTATION DEPARTMENT
DEPARTMENT
ADMINISTRATION + SECURITY HYDROGEN PRODUCTION DEPARTMENT
H2 ENERGY PARKLAND = + + ELECTRICITY PRODUCTION DEPARTMENT
COMMUNITY
CAFÉ
DEPARTMENT
+
D
A
C
E
/
TEAM
B
A DAY OF THE ENERGY PARKLAND TYPICAL FLOOR PLAN: LEVEL 4, 18.900 M LEVEL 7, 35.10 M N 10 m Drawing Scale: 1:1000 @ A4 RESTRICTED ZONE LEVEL 4 LEVEL 7 COMMUNITY ZONE OFFICE / PRIVATE ZONE
STAFF DIAGRAM DAYSHIFT EMPLOYEES: MINIMUM 600 STAFF ACCOMMODATION 1 1 2 2 3 3 4 4 5 5
EXPERIENCE IN SECTION
9.150 m 9.150 m 9.150 m 9.150 m 9.800 m 13.900 m Level GF Level 1 Level 2 Level 3 Level 4 Level 5 Level 6 Level 7 Level RF ± 0.000 m + 5.100 m + 9.200 m + 12.800 m + 18.900 m + 24.300 m + 29.700 m + 35.100 m + 40.500 m + 44.000 m + 42.000 m -5.000 m COMMUNITY EXHIBITION HALL STAFF SEMINAR ROOM OFFICE/PRIVATE ZONE OFFICE BALCONY ROOF ACTIVITY SPACES ARRIVAL PLAZA LIGHTING TEST Lighting test of the arrival plaza. RESERVOIR WATER CLOUD OIL TANK ARTS INSTALLATION WATER LANDSCAPE OFFICE BLOCK COMMUNITY BLOCK ARRIVAL PLAZA
Drawing Scale: 1:1000 @ A3
This section demonstrates the daylight projection towards to arrival plaza, maximizes pedestrian experiences at ground level.
On top of the aesthetic reason, the waving timber ceiling design is to hide the large girder beam, also allowing sound absorption in office zone. N
The light manipulation of the building, maximizes daylight projection on arrival plaza, improves pedestrian experiences on the ground.
VIEWS FROM ARRIVAL PLAZA
FAÇADE DETAILS
The facade AHU will convert fresh cold air into hot air, increase human comfort for indoor spaces. Heating pipes will be operated during long winter times. Facade panels allowing air through to the inside.
The rotatable facade fins are opened to gain additional natural lights into the office zones. The facade fins are close to reduce sun glares at summer daytimes.
1 2 3 1 2 3 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 9.700 m 22.600 m 22.600 m 22.600 m Level GF Level 1 Level 2 Level 3 Level 4 Level 5 Level 6 Level 7 Level RF ± 0.000 m + 5.100 m + 9.200 m + 12.800 m + 18.900 m + 24.300 m + 29.700 m + 35.100 m + 40.500 m + 44.000 m + 44.000 m + 43.500 m + 43.500 m + 42.000 m ELEVATION A-A Main facade of the project, illustrates the motif of a ‘cloud’ flowing on top of the Hydrogen Energy Parkland. Dark blue double insulated glaze Frosted double insulated glaze panel Scots Pine Timber Facade Panels Electrolysis Tower The drawing demonstrates the technical details over here, where most complicated structural zone where contains largest column to column span and largest cantilever floor area. EL. +43.90m EL. +40.50m EL. +29.70m EL. +24.30m EL. +18.90m T.O. PARAPET LEVEL ROOF LEVEL 6 LEVEL 5 LEVEL 4 43.00 m 1% 35.10 m 10.400 m 3.900 m 2.400 m 3.900 m 0.650 m 0.650 m 1.250 m 0.650 m 0.850 m 0.850 m 0.850 m 9.150 m A1 A2 A3 1 Matte finished aluminium mullion Matte finished aluminium mullion Facade Air Handling Unit (AHU) Facade Air Handling Unit (AHU) Gutter Facade Air Handling Unit (AHU) Gutter Facade Air Handling Unit (AHU) Gutter Facade Air Handling Unit (AHU) Facade Air Handling Unit (AHU) Facade Air Handling Unit (AHU) Rotatable fins: The fins now opened for additional natural lights during long winter time.
Dark blue double insulated glaze Rotatable fins: The fins now opened for additional natural lights during long winter time. Heating Pipes Heating Pipes +Thermal Gate Heating Pipes +Thermal Gate Heating Pipes +Thermal Gate Thermal Gate Frosted Glaze Panel Frosted Glaze Panel Fire Resistance Block Clear Glaze Handrail White Spandrel Panel Thermal Insulation Layers Frosted double insulated glaze panel Water Drainage Exterior Timber Floor Panel Exterior Timber Floor Panel Panel attachment blocks Timber Universal Beam Super white double insulated clear glaze panel Air Handling Units (AHU) Timber Panels Timber Panels Thermal Insulation Timber Panels Timber Panels Timber Panels Timber Panels Timber Girder Truss Water Resistance Layer Timber noise absorption panel Matte Finished Aluminium Mullion Glaze Panel Attachment Fire Resistance Block Timber Structural Slab Water Resistance Layer Timber Floor Panel + Carpet Layer Panel attachment wires Timber Structural Slab Water Proofing Layer Thermal Insulation Layer Root Barrer Separation Layer Permavoid filter layer Top Soil Bark Mulch Scale: 1: 50 @ A1 4 4 5 5
A
02
A VERTICAL COMMUNITY INTEGRATES BIO-ENERGY PRODUCTION
SSoA MArch Year 5 Academic Project
Tutor: Satwinder Samra
The vertical community scheme integrates bio-energy production with living in 2050s Beijing, China. After investigated the intergenerational gaps and environmental pollution issues in local areas, this residential proposal provides wastes recycle program, and convert those daily wastes into bio-fuel to power the community. The community bio-energy program will also revitalize the old 798 Factory Zone in Beijing.
On top of the renewable energy production program, the new designed residential layout, vertical lobby and sky farm will also bring people from all age groups together, recreates the intimate feeling of community.
REVITALIZING INDUSTRIAL HERITAGE
The aim of the proposal is to create a vertical community. Series of sky farm, transform the tower and community into urban oasis, creating sustainable green environment for residents.
The community is a self-sufficient system. The food produced in site could serve the local residents, also the wastes from food and plant, could be used as power production, providing electricity and energy for residents.
Farm Area Bio-Energy Production + CHP Plant Scale: 1: 200 @ A0 FOOD PRODUCTION FOOD PRODUCTION FOOD PRODUCTION FOOD PRODUCTION FOOD PRODUCTION FOOD PRODUCTION C.H.P POWER PLANT C.H.P POWER PLANT HOUSEHOLD WASTES COLLECTION POWER POWER
Structure / Beam / Demising Wall Dwelling Units Public Spaces Retail Utility / Car Parking Bathrooms Bio-Energy Production + CHP Plant ± 0.00 m - 16.00 m +14.00 m +60.60 m +99.60 m +87.0 m Level 0 Ground Floor Basement Level 4 Scale: 1: 200 @ A0 Level 4 Lower Sky Farm Level 15 Mid Sky Farm Level 25 Roof Sky Farm Level 22 Typical Dwelling Units
Scale: 1: 400 @ A3 Scale: 1: 400 @ A3 Public Space Office Retail Utility / Service Zone Bathrooms Bio-Energy Production + CHP Plant Farm Area Vehicle Routes DROP OFF ZONE ± 0.00 m - 0.05 m - 0.05 m - 0.20 m - 0.20 m - 0.05 m - 0.45 m - 0.90 m - 1.35 m
Level 0 Public Space Office Studios / Retails Utility / Service Zone Bathrooms + 5.00 m Majority of the first floor
and
Level 1 BIO-ENERGY PRODUCTION BIO-ENERGY CYCLE A VERTICAL COMMUNITY GROUND FLOOR PLAN FIRST FLOOR PLAN
Ground floor plan shows the vehicle route, service yards and biofuel production areas that are completely separated from pedestrian route and public spaces.
spaces are composed with public spaces
arts studios, allowing more social activities and revitalize the communities.
NEW APARTMENT TYPOLOGY EXPLORATION
Rather than hotel-like apartment living experience, the new layout brings people together, recreate the intimate feeling of community and sense of home, enhance users’ living experiences.
The shared communal kitchen across 2~3 levels to form one vertical community, dissolve intergenerational gap, provide a sense of ‘bigger family’ to everyone who lives here.
TYPICAL FLOOR PLAN
APARTMENT APARTMENT CORRIDOR CORRIDOR CORE CORRIDOR CORRIDOR APARTMENT CORE SOCIAL SPACE
Farm Zone Communal Kitchen Sky Bar Sky Bar + 68.00 m + 72.00 m + 76.00 m
68.00
Level 17 N Scale: 1: 150 @ A3 Public Kitchen Dwelling Units Utility / Service Zone Bathrooms Farm Area
The diagram above shows a typical hotel living apartment type. Spaces are isolated and empty, these places are hard to be called ‘home’.
+
m
One typical floor composes with 4 family units. Each has three bedrooms, allowing family members of three generations (8~10 people) live together. The floor also has communal kitchen and large sky farms to put communities together.
ELEVATION A - A
The appropriate elevation breakdown into dwelling pods, reflects dwelling module, express the sense of spaces and neighbourhood.
ELEVATION A - INNER FAÇADE
101.00 m 99.60 m 2% 1.400 m 1.850 m 0.900 m 0.900 m 1.850 m 2.750 m 2.750 m 1.250 m 1.250 m 1.850 m EL. +101.00m T.O. PARAPET LEVEL ROOF LEVEL 24 LEVEL 23 EL. +99.60m EL. +95.00m EL. +91.00m ROOF SECTION 0-0 Scale: 1: 25 @ A0 Roof garden with mixture of soil and hydroponic layers underneath the plantation, allowing lighter roof structure. Rotatable water resistence timber louvers, the louvers now are opened to gain more sunlight in winter time. Louver Movement joints Rotatable louvers, reducing sunlight radiation projecting to interior spaces, reducing air conditional requirement in summer time while not blocking views from interior. Fire resistant blocks. Champagne aluminium panel Matte finished aluminium surface. Insulation Layers Steel Superstructure High reflective dark blue double insulated glasses. Ground air ventilation system Ceiling air ventilation system Noise absorbing foams Prefabricated modular concrete casting Spandrel behind glass curtain wall. Pins fix the outer louver layers, intergrated with mullion system.
Champagne aluminium panel Champagne aluminium frame Dark grey concrete Bronze aluminium grill Light grey ceramic rainscreen column. Air ventilation opennings Pins for louver installation 101.00 m 91.00 m 95.00 m 99.60 m ±0.00 m -0.15 m 2% 0.900 m 2.650 m A1 GROUND FLOOR SECTION Scale: 1: 25 @ A0 Clear super white double insulated glasses Water drainage system Ground concrete cast Exterior landscape timber ground finish 0.300 m 0.400 m 0.600 m PLAN DRAWING 1-1 Scale: 1: 25 @ A0 Matte finished aluminium louver frames Rotatable water resistence timber louvers High reflective dark blue double insulated glasses. Bronze aluminium grill Light grey ceramic rainscreen panel. Extrusion integrate with air ventilation system in, also block views from neighborhood, allowing better privacy. Perforated air access duct Thermal door opened Movement joint Concrete shear wall 95.00 m A A 0 1 2 7.000 m 7.000 m 0.450 m 0.450 m 0.450 m 0.450 m 0.300 m 0.300 m 0.400 m 0.300 m 0.300 m 0.300 m 0.600 m 0.600 m 0.600 m 0.600 m 2.150 m 1.100 m 2.150 m 2.150 m 2.150 m PLAN DRAWING 2-2 C6 C4 C5 Scale: 1: 25 @ A0 High reflective dark blue double insulated glasses. Thermal door closed 91.00 m + 14.00 m ± 0.00 m + 28.00 m + 60.60 m + 99.60 m + 101.00 m Level 8 Level 15 Level 25 Level 4 Level 0 Dwelling Unit Facade Sketch
Scale: 1: 1000 @ A3 A
03
REINVENT MARYLEBONE
DISCOVER A GREEN COVERED MARKET IN CENTRAL LONDON
Third Year, First Semester Academic Project Tutor: Bruce Irwin, Catherine Phillips
Extolling the virtues of local farm products and a sense of community, the green covered market takes its place in the dynamic of urban life in Marylebone. This project is to design a covered market in Moxon Street, Marylebone, Central London. It investigates the potential communities, users and context of the existed market, in order to discover a new typology of a covered market in Central London.
As the name suggested from “Reinvent Marylebone”, the project intends to make more connections between local markets and communities, to create a market roof with greenery public space and an educational garden for two schools of the site.
SITE LOCATION
The site is located at Moxon Street, Marylebone, the heart of the City of Westminster.
AVERAGE INCOME
People living in City of Westminster have significant higher average income than other London boroughs, most clients are able to afford high price land values in City of Westminster.
Vegetables
Meat / Milk Products
Fish Products
Bread / Cakes
Hot / Ready Meals
Flowers
Farmer Products
EXISTED FARMERS’ MARKET
With an average of 40 stalls, Marylebone is one of the biggest farmers’ temporary market in London. Majority of products sold are edible farmers’ products: such as vegetables, etc.
HOUSE DENSITY
The data shows the City of Westminster is the ‘under performing’ borough in terms of house density and carbon dioxide emission.
TRANSPORT + CO2
The diagram suggests that a green space is encouraged to be built in the site. A market with sustainable a green roof is a great opportunity to promote this concept.
Existed Stalls
Oversupplied Stalls
Undersupplied Stalls
PROPOSED FARMERS’ MARKET
The statistic result shows vegetables and fruits product have higher demand and much more opportunities for local people. Hence, the proposed market would sell vegetables and fruits.
SITE
VISION: THE HYDROPONIC TEACHING FARM
An educational place teaching the ‘people of the future’, allowing local students to interact with advanced farming technique in Central London.
VISION: A COMMUNITY CENTER
A market as a community to propagate happiness for local residents, where people could gather together and play together.
UP 1:12 UP 1:12 UP 1:12 UP 1:12 UP 1:12 UP 1:12 UP 1:12 UP 1:12 UP 1:10 UP 1:10 UP 1:10 UP 1:10 UP 1:10 UP 1:10 UP 1:10 UP UP 1:10
MARKET MASTERPLAN
Scale: 1 : 250 @ A1 1 : 500 @ A3
HYDROPONIC GRASS PANELS
Drawing
The roof plan demonstrates hydroponic classrooms, as well as the roof windows where the market getting light from.
FINAL MODELS
The spatial model demonstrates the relationship among hydroponic classrooms, skylights, columns and people.
The sections show activities & programme at different zones, including garden extension and the farmers’ market. Also, the drawings illustrate the section of the hydroponic classrooms and the roof.
Drawing Scale: 1 : 100 @ A0 1 : 200 @ A2
FARMERS’ MARKET & ROOF GARDENS
GRASS CURTAIN WALL STUDIES
04
‘PLAY IS THE WORK OF THE CHILD’
Third Year, Second Semester Academic Project
Tutor: Bruce Irwin, Catherine Phillips
The project takes a philosophical and theoretical path in searching for an alternative classroom typology for children in Marylebone, Central London. It takes the essence of drama activities in researching for a theatre teaching space combined with Montessori’s teaching philosophy in The St Marylebone C.E School.
The research into the educational theatre reveals the weakness of contemporary classroom typology, which draws sharp and unhelpful physical and psychological boundaries between spaces, play and learning. As Maria Montessori said, “play is the work of the child”. Hence, the proposal is to modify the traditional teaching typology, linking the knowledge with UK’s educational curriculum.
THEATRE AS THE THIRD TEACHER
ARCHITECTURAL MOTIF
Auditorium is the highlight of the building, symbolizes the ‘vessel of art and knowledge’ inside the building. The performance space is the visible volume from outside.
VERTICAL CIRCULATION
The vertical circulation not only streamlined the proposal, but also made the audience feeling a sense of ‘going up’ to see the performance.
SPATIAL DISTRIBUTION
The building core is located at the ‘blind spot’ of the building, while the private spaces are supporting the public space, in order to have a great performance to the public.
LANDSCAPE CONNECTION
The ground floor and viewing platform has the clear views towards to the park. It brings urban context and garden landscape into the building.
CORE PUBLIC SPACE PRIVATE SPACE
‘THE VESSEL OF ART & KNOWLEDGE’
‘VESSEL OF ART & KNOWLEDGE’
Drawing Scale: 1 : 100 @ A2 1 : 200 @ A4 Library Space Rehearsal Room Auditorium Foyer Space Vertical Circulation Community Space MASSING STUDIES CONCEPT MODEL STRUCTURAL STUDIES
The section drawing shows the elevation of fly tower and part of the rehearsal room and backstage. It also shows the double wall construction design to isolate the sound from auditorium.
Upper floors’ facade is covered with ETFE to reduce the cost of the building, and also assists for interior ventilation.
The universal steel truss casted in fireproofing painting concrete layer
ETFE LAYERS
GLAZED WALLS
Air inflation tube
Damp Proof membrane to prevent condensation build up in insulation
Ethylene tetrafluoroethylene (ETFE) layers, 1 : 1 detail below Air intake for warm scented air fed in from service ducts in super-columns
Grill for air to enter interior space
Pipe / Electrical cables running underneath the floor slab
The carpet absorb sound and provide softness to the ground
Plywood board
Thermal Insulation
Glulam timber structure running perpendicular to section in elevation
Timber decking slats
Vapour control layer fixed with softwood battens
Suspended plasterboard ceiling
Blind to control solar gain in predominately glazed enclosure
Double glazing sliding windows to maximize insulation
Thermal insulation, steel section High pressure air tunnel for operating flap
Extruded aluminium frame to open flap
Double ETFE layers joint connection Double layer inflated ETFE cushion
WALL SECTION DETAILS
The wall section shows how the floor slab connected to the truss, and how the insulated glass panel and ETFE layers are installed into the floor slab.
Ground floor level is covered with glass for security of the building.
Floor Level + 3.600 M
First
1 10 @ A2 1 20 @ A4
Scale : 1 : 1 @ A2 1 : 2 @ A4
Wall Section Drawing Scale:
ETFE Connection Drawing
A A B B C C D D E E
Main steel framed work connected with pre-casted bolt Steel connected to the main steel framed work
05
REGENERATING NINE ELMS
NINE ELMS SQUARE PHASE ONE
Works at Skidmore, Owings & Merrill (SOM)
Team Leader: Damian Iliev, Camilo Valdivia
Involved from RIBA Stage 3 to Stage 4
Nine Elms Square is a residential development comprised of eleven buildings located at the former New Covent Garden Flower Market in Vauxhall. London. The target is a luxury, high quality environment well integrated with its surroundings, in accordance with London Borough of Wandsworth’s requirements, and enabling the developers to achieve high sales values. The Phase One comprising three towers (N8, N9, N10) and the connecting ground podium, the affordable residential building (N12) and the associated landscaping.
N10 - ROOF FFL: 154.400 m N10 PARAPET FFL: 160.800 m N09 ROOF FFL: 122.400 m N09 - PARAPET FFL: 128.800 m N08 N09 N10
Scale: 1 500 @ A1
ROOF PLAN
The roof plan shows the outline and boundary of the three towers. The top has indicated where the BMU (Building Maintenance Unit) and terraces are.
PODIUM ROOF PLAN
The podium roof plan shows the internal residential room layouts, and the sky garden landscape (by Gillespies) as well.
BASEMENT USES DIAGRAM
MEP Plant Cycle Storage
Refuse
FOH / Health Club
BOH
Resident Circulation
Service Lifts
Cycle Lifts
Resident Lifts
Scale: 1 500 @ A1 Scale: 1 500 @ A1 Scale: 1 500 @ A1
SECTION & ELEVATION OF THE PODIUM LINEAR PARK STEPPED EDGE
PRE-SCHOOL RETAIL MAIN LOBBY ENTRANCE RAMP TO BASEMENT CAR PARK PRE-SCHOOL RETAIL SERVICE BAY RETAIL PARK RETAIL RETAIL RETAIL SHIP COMPACTOR & REFUSE PICK UP AREA Vision Panel Behind Aluminium Fins Bronze Anodized Aluminium Panels Scale: 1 500 @ A1
FLOOR
GROUND
CIRCULATION
Delivery & Refuse Cycle Route Car Route Cycle Storage Service Bay Local Bus Stop Drop-Off Area
Scale: 1 25 @ A1 Scale: 1 100 @ A4
The podium stepped edge shows the height relationship between human scale and the sky garden.
TYPICAL FLOOR SECTION 3200 MM HEIGHT STUDIES 100 Floor Build Up 225 Reinforced Concrete Slab 45 Tolerance & Deflection 215 Service Zone 65 Ceiling Construction 100 Floor Build Up 225 Reinforced Concrete Slab 45 Tolerance & Deflection 315 Service Zone 65 Ceiling Construction 100 Floor Build Up 225 Reinforced Concrete Slab 45 Tolerance & Deflection 415 Service Zone 65 Ceiling Construction Scale: 1 100 @ A4 Scale: 1 50 @ A4
SECTION
&
ELEVATION OF THE PODIUM
EXTERNAL
WALL - PARRY STREET
Visualization
06
THE ‘DIAMOND’ FACADE
INTRODUCING A DYNAMIC COMMERCIAL ZONE IN NORTH BEIJING
Works at Woods Bagot, Beijing Office
Team Leader: Tao Wu, Jingchao Fu
Involved from Competition to 100% Design Development (DD)
The 350 meters long Yuefu Park Retail Facade Design Project was inspired from diamond geometry and dragon scales, introducing dynamic retail atmosphere in Yuefu residential zone in North Beijing. The unique instagrammable facade geometry will become a memory point, attracts people from local communities and all over the city. It also provides dramatic daylighting into the shopping mall, enhances users’ shopping experiences. Made by ATCHAIN Company for Client Presentation
SOUTH STREET ELEVATION
The 350 meters long and low height south street facade is the most important and attracting sides of the retail mall.
The origami panel facade details compose like water waving scenery, creates dramatic lighting effects for exterior and interior shopping spaces.
室外效果图-西南角透视-夜景 阶段 阶段 修订 图纸编号 图纸名称 项目编号 校对 审核 尺寸 比例 比例尺 发行者 客户 项目名称 阶段 描述 日期 最新修改记录 备注&图例 施工承包廠商在施工或準備施工製造图前, 須至工程現場測量確認所有尺 寸. 不可只參用或丈量图面尺寸. 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 南侧放大一段立面图 南立面图一段 比例: : 图纸名称 项目编号 校对 审核 发行者 客户 项目名称 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 南侧放大二段立面图 南立面图二段 比例: : 图纸编号 图纸名称 项目编号 校对 客户 项目名称 最新修改记录 施工承包廠商在施工或準備施工製造图前, 寸. 不可只參用或丈量图面尺寸. 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 8000 8000 5800 4800 4700 1300 3600 1200 3070 5930 2790 650 425 650 425 1425 1500 1500 1425 650 425 650 425 735 1640 1100 735 1640 450 8000 8000 •••••••• •••••••• 2150 650 425 650 425 1425 1500 1500 1425 735 1640 650 425 650 425 1100 •••••••• •••••••• 735 1640 750 2150 750 750 2150 750 750 750 5800 4800 4700 1300 3600 1200 1000 2400 600 600 1200 2400 600 600 2400 3900 3200 3200 1400 南立面 - 西侧玻璃幕墙 阶段 客户 阶段 描述 最新修改记录 备注&图例 寸. 不可只參用或丈量图面尺寸. 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 图例 钢铁工程 钢框架结构 砌体/砖/砌块建设 混凝土砌块墙 防火 防火与安全隔热材料 建筑保温 隔热保温材料 连续隔热保温材料-幕墙用 防水 不锈钢排水沟 天花 外部铝制天花板 玻璃 深色高反中空夹胶超白玻璃 2/3层折板背衬幕墙) 中空夹胶超白玻璃(屋顶退台幕墙) 高透夹胶超白玻璃 (橱窗广告位) 钢化夹胶超白玻璃 (连桥栏板) 彩釉玻璃1-钻石形图案 (钻石幕墙) 彩釉玻璃 -线性图案 (首层局部) 玻璃纤维增强塑料(玻璃钢) 白色玻璃钢 金屬 阳极氧化不锈钢板(南立面折板幕墙) 镜面不锈钢板(主入口异形柱) 黑色不锈钢板 南侧首层) 不锈钢型材(入口门扶手) 亮银色铝板 灰色铝板 首层北立面) 深灰色铝板 浅绿色铝板(BS2西立面) 绿色铝板(BS2西立面) 橙色阳极氧化不锈钢 (南立面折板幕墙背面) 亮银色铝型材 扣盖 深灰色铝板百叶 标志和显示 電子显示墻 商业广告位 外漆 声明 一般附注 立面索引 图紙号 图紙号 剖面索引 详图索引 柱网中心线 柱线号 立/剖面高度 地板完成面 层数与高程高度 建筑用装配识别索引 索引号 基准参考 参考奌 分割线 与其它图紙分割接合线位置 向北参考 南立面 西侧玻璃幕墙立面 比例: 南立面 西侧玻璃幕墙首层平面 比例: : 南立面 西侧玻璃幕墙剖面 比例: 阶段 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司
ORIGAMI PANEL DETAILS Scale: 1 200 @ A4
The area provides lightbox spaces for portrait advertisement, creating rich amount of retail atmosphere at night time.
origami panel transition of the south facade, illustrating the end of the ‘water waving’ form.
8000 5800 4800 4700 1300 4500 300 3740 8060 2000 2000 2200 2000 2200 450 8000 2000 2000 2200 2000 2200 780 780 780 5800 4800 4700 1300 3900 3200 3200 4500 300 3740 8060 3040 1460 1400 8000 2000 2000 2200 2000 2200 2200 南立面 - 西侧广告位 阶段 阶段 项目编号 校对 审核 尺寸 客户 阶段 描述 最新修改记录 备注&图例 施工承包廠商在施工或準備施工製造图前, 須至工程現場測量確認所有尺 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 图例 钢铁工程 钢框架结构 砌体/砖/砌块建设 混凝土砌块墙 防火 防火与安全隔热材料 建筑保温 隔热保温材料 连续隔热保温材料-幕墙用 防水 不锈钢排水沟 天花 外部铝制天花板 玻璃 高透中空夹胶超白玻璃 首层店铺) 深色高反中空夹胶超白玻璃 (2/3层折板背衬幕墙) 中空夹胶超白玻璃(屋顶退台幕墙) 高透夹胶超白玻璃 橱窗广告位) 钢化夹胶超白玻璃 连桥栏板) 彩釉玻璃1-钻石形图案 (钻石幕墙) 彩釉玻璃 -线性图案 (首层局部) 玻璃纤维增强塑料(玻璃钢) 白色玻璃钢 金屬 阳极氧化不锈钢板 南立面折板幕墙) 镜面不锈钢板 主入口异形柱) 黑色不锈钢板 南侧首层) 不锈钢型材(入口门扶手) 亮银色铝板 灰色铝板 首层北立面) 深灰色铝板 浅绿色铝板(BS2西立面) 绿色铝板(BS2西立面) 橙色阳极氧化不锈钢 南立面折板幕墙背面) 亮银色铝型材 扣盖 深灰色铝型材 扣盖 深灰色铝板百叶 标志和显示 電子显示墻 商业广告位 油漆 外漆 声明 所有结构柱 粱與版位置與尺寸 已结构图面資料為依據 一般附注 详图标题 立面索引 图紙号 图紙号 剖面索引 详图索引 柱网中心线 柱线号 立/剖面高度 地板完成面 层数与高程高度 建筑用装配识别索引 基准参考 参考奌 分割线 与其它图紙分割接合线位置 向北参考 标志显示图紙方向北位置 图紙号 南立面 西侧广告位立面 比例: : 南立面 西侧广告位首层平面 比例: 南立面 西侧广告位剖面 比例: : 南立面 西侧广告位首层平面 比例: 8000 8000 5800 4800 4700 1300 3600 1200 3080 5930 2790 1500 1500 1500 1500 1075 650 425 650 425 650 425 1425 1500 1500 1425 650 425 1425 1500 1500 1425 450 6700 8000 1500 1500 1500 1500 1500 1500 1500 1500 1500 1500 1500 5800 4800 4500 1300 4600 200 3900 3200 8000 8000 1200 600 600 1200 1200 1200 1200 1200 1075 650 425 650 425 1425 1500 1500 1425 •••••••• •••••••• 2150 750 750 南立面 - 东侧玻璃幕墙 阶段 阶段 修订 图纸编号 图纸名称 项目编号 校对 审核 尺寸 发行者 项目名称 最新修改记录 备注&图例 施工承包廠商在施工或準備施工製造图前, 須至工程現場測量確認所有尺 寸. 不可只參用或丈量图面尺寸. 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 图例 钢铁工程 钢框架结构 砌体/砖/砌块建设 混凝土砌块墙 防火 防火与安全隔热材料 建筑保温 隔热保温材料 连续隔热保温材料-幕墙用 防水 不锈钢排水沟 天花 外部铝制天花板 玻璃 高透中空夹胶超白玻璃 首层店铺) (2/3层折板背衬幕墙) 中空夹胶超白玻璃(屋顶退台幕墙) 高透夹胶超白玻璃 橱窗广告位) 钢化夹胶超白玻璃 连桥栏板) 彩釉玻璃1-钻石形图案 (钻石幕墙) 彩釉玻璃 -线性图案 (首层局部) 玻璃纤维增强塑料(玻璃钢) 白色玻璃钢 金屬 阳极氧化不锈钢板 南立面折板幕墙) 镜面不锈钢板 主入口异形柱) 黑色不锈钢板 南侧首层) 不锈钢型材(入口门扶手) 亮银色铝板 灰色铝板(首层北立面) 深灰色铝板 绿色铝板(BS2西立面) 橙色阳极氧化不锈钢 南立面折板幕墙背面) 亮银色铝型材 扣盖 深灰色铝型材 扣盖 深灰色铝板百叶 電子显示墻 商业广告位 油漆 外漆 所有结构柱 粱與版位置與尺寸 已结构图面資料為依據 一般附注 详图标题 立面索引 图紙号 图紙号 剖面索引 详图索引 柱网中心线 柱线号 立/剖面高度 地板完成面 层数与高程高度 建筑用装配识别索引 索引 基准参考 参考奌 与其它图紙分割接合线位置 向北参考 标志显示图紙方向北位置 图紙号 南立面 东侧玻璃幕墙 立面 比例: : 南立面 东侧玻璃幕墙 一层平面 比例: 南立面 东侧玻璃幕墙 剖面 比例: : 南立面 东侧玻璃幕墙 二层平面 比例:
The
PORTRAIT ADVERTISEMENT PANEL ZONES ORIGAMI PANEL
南立面图 比例: Scale: 1 200 @ A4 阶段 比例: 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 Scale: 1 200 @ A4
TRANSITION ZONE
This is the only main entrance of the shopping mall at south side. Thus, an iconic diamond entrance geometry becomes the highlight/cadenza of the south street facade. The outer frosted glaze will also make the entrance more visible from long distances.
5800 4800 4700 1300 3600 1240 3700 4025 4025 8000 8000 1500 1500 1500 1500 1500 1500 1500 2200 2200 550 550 1735 1735 1735 1735 1735 1735 1735 450 8000 8000 1500 1500 1500 1500 1500 1500 1500 2200 2200 550 550 5800 4800 4700 1300 3600 3200 3200 3600 1240 3700 4025 4025 200 450 南立面 - 钻石入口 外侧 阶段 阶段 修订 图纸编号 项目编号 校对 审核 尺寸 发行者 客户 项目名称 阶段 描述 最新修改记录 施工承包廠商在施工或準備施工製造图前, 須至工程現場測量確認所有尺 寸. 不可只參用或丈量图面尺寸. 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 图例 钢铁工程 钢框架结构 砌体/砖/砌块建设 混凝土砌块墙 防火 防火与安全隔热材料 建筑保温 隔热保温材料 连续隔热保温材料-幕墙用 防水 不锈钢排水沟 天花 外部铝制天花板 玻璃 高透中空夹胶超白玻璃(首层店铺) 深色高反中空夹胶超白玻璃 2/3层折板背衬幕墙) 中空夹胶超白玻璃(屋顶退台幕墙) 高透夹胶超白玻璃 橱窗广告位) 钢化夹胶超白玻璃 连桥栏板) 彩釉玻璃1-钻石形图案 (钻石幕墙) 彩釉玻璃 -线性图案 (首层局部) 玻璃纤维增强塑料(玻璃钢) 白色玻璃钢 金屬 阳极氧化不锈钢板(南立面折板幕墙) 黑色不锈钢板(南侧首层) 不锈钢型材(入口门扶手) 亮银色铝板 灰色铝板(首层北立面) 深灰色铝板 浅绿色铝板(BS2西立面) 绿色铝板 橙色阳极氧化不锈钢 南立面折板幕墙背面) 亮银色铝型材 扣盖 深灰色铝型材 扣盖 深灰色铝板百叶 标志和显示 電子显示墻 商业广告位 油漆 外漆 声明 一般附注 详图标题 立面索引 图紙号 图紙号 剖面 详图索引 柱网中心线 柱线号 立/剖面高度 地板完成面 层数与高程高度 建筑用装配识别索引 索引号 基准参考 参考奌 分割线 与其它图紙分割接合线位置 向北参考 标志显示图紙方向北位置 图紙号 南立面 钻石入口 立面 比例: : 南立面 钻石入口 一层平面 比例: : 南立面 钻石入口 剖面 比例: 1500 1500 1500 1500 1500 1500 1500 2200 2200 550 5800 4800 4700 1300 3600 1200 1000 2400 600 600 1200 2400 600 600 2400 8000 8000 550 450 8000 8000 1735 1735 1735 655 1275 1735 1735 1735 1735 655 1275 5800 4800 4700 1300 3600 3200 3200 3600 1240 3700 4025 4025 200 450 南立面 - 钻石入口 内侧 阶段 阶段 图纸名称 校对 审核 尺寸 客户 阶段 描述 最新修改记录 备注&图例 施工承包廠商在施工或準備施工製造图前, 須至工程現場測量確認所有尺 寸. 不可只參用或丈量图面尺寸. 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司 图例 钢铁工程 钢框架结构 砌体/砖/砌块建设 混凝土砌块墙 防火 防火与安全隔热材料 建筑保温 隔热保温材料 连续隔热保温材料-幕墙用 防水 不锈钢排水沟 天花 外部铝制天花板 玻璃 高透中空夹胶超白玻璃(首层店铺) 深色高反中空夹胶超白玻璃 (2/3层折板背衬幕墙) 中空夹胶超白玻璃(屋顶退台幕墙) 高透夹胶超白玻璃 橱窗广告位) 钢化夹胶超白玻璃 连桥栏板) 彩釉玻璃1-钻石形图案 (钻石幕墙) 彩釉玻璃 -线性图案 (首层局部) 玻璃纤维增强塑料(玻璃钢) 白色玻璃钢 金屬 阳极氧化不锈钢板 南立面折板幕墙) 镜面不锈钢板 主入口异形柱) 黑色不锈钢板 南侧首层) 不锈钢型材(入口门扶手) 亮银色铝板 灰色铝板 首层北立面) 深灰色铝板 浅绿色铝板(BS2西立面) 绿色铝板(BS2西立面) 橙色阳极氧化不锈钢 南立面折板幕墙背面) 亮银色铝型材 扣盖 深灰色铝型材 扣盖 深灰色铝板百叶 标志和显示 電子显示墻 商业广告位 油漆 外漆 声明 所有结构柱 粱與版位置與尺寸 已结构图面資料為依據 一般附注 详图标题 立面索引 图紙号 图紙号 剖面索引 详图索引 柱网中心线 柱线号 立/剖面高度 地板完成面 层数与高程高度 建筑用装配识别索引 索引号 基准参考 参考奌 分割线 与其它图紙分割接合线位置 向北参考 标志显示图紙方向北位置 图紙号 南立面 钻石入口内侧 立面 比例: : 南立面 钻石入口二层 平面 比例: : 南立面 钻石入口 剖面 比例: :
ENTRANCE
阶段 比例: 北京公园悦府项目BS2,BS3商业外立面设计 京投发展股份有限公司
DIAMOND ENTRANCE INNER FACADE DIAMOND
OUTER FACADE
A LIVABLE, SUSTAINABLE, & A FUTURE CITY
CHINA HANJIANG (XIANGYANG) ECO-CITY PHASE ONE
07 Works at Woods Bagot
Team Leader: Jean Weng, Matthew Richardson
Involved from Competition to 50% Schematic Design (SD)
The project is located at Xiangyang, China. It is a city complex comprised of office towers, retail streets, a commercial complex and hotels. To celebrate Central Chinese culture and create a high-level future communities, it highlights components of a human oriented, adaptable and value enhanced workplace development that has a perspective on future workplace as a collaborative hub for innovation and lifestyle community. Also it provides a better work/live environment that allows the trendsetters means to uncover new ways of thinking and adapt in a market of rapid changes of pace.
Visualization Made by ATCHAIN Company for Client Presentation
The evolution of the design starts with the property boundaries. The massing rises and is carved by the city roads.
The city skyline is dynamic and pays respect to the forum as the heart of the development. Everything builds up in terracing forms and towers from this central heart.
A circulation axis penetrates the site and starts to carve it up. Allows better traffic flows.
The site is envisioned to pay respect to the two main axis. The landscape connection between the North and South, and the Han River circulation axis that cuts through West to East.
Nature’s energy rises from the lake and divides the site further like a river estuary, or tree of life.
Energy flows from the lake up through the site. Its flow is acknowledged like a tree of life or river estuary.
The tower’s shadow avoids majority of the site, allows better daylights on site.
Each plot is divided into it’s appropriate programming to orchestrate the beneficial mixed-use site.
RIVERESTUARYMOTIF 百川入海概念 城市天际线 DYNAM S S 引导视线至中心 STEPPINGDOWNSTRATEGY 城市文化客厅 CITYLIVINGROOM SHADOW阴影 景观轴线 基地主流线 LANDSCAPEAXIS CIRCULATIONAXIS OFFICE OFFICE HOTEL FORUM MALL R&D CONDO 酒 研发中心 配套商业 店 公 寓 论 坛 中心 公 办 办 公 购物中心 RETAILSTREET 艺术商业步行街 F M THE SITE RIVER ESTUARY TREE LIVES MAIN AXIS
DESIGN
PROGRAMME ORCHESTRATE CITY SKYLINES TOWER RISING
DESIGN EVOLUTION
STRATEGIES
TRAFFIC FLOWS
SOUTH ELEVATION
The elevation shows the facades of retail streets, towers and the forum in the middle.
Office Apartment Lobby Hotel Lobby Retail Stores Anchor Stores Exhibition Stores MEP Rooms Terraces Food & Beverages Public Areas Corridors
GROUND FLOOR PLANS
+ 150.00M + 99.80M + 0.00 M + 21.20M + 21.20M + 24.00M All Drawing Scale: 1 2000 @ A4 1 1000 @ A2
The ground floors plan shows ground landscapes, retail malls, forum, as well as tower lobbies.
GREENNETWORKS WATERNETWORKS ROADNETWORKS BUILDINGCLUSTERS ROOFLANDSCAPE
The movement of the landscape continues from the ground onto the facade. The details of the facade also developes according the curves so that the facade follows the concept of the landscape.
The intention of the Han River surge
Divergent cuts the ground
Form a block layout Final Concept
Echoing the north and south plots
LANDSCAPE LAYERS
08
GREEN-UP
NORTHERN PEDESTRIAN BRIDGE PROJECT IN EXHIBITION JIELIU RIVER, SHENZHEN.
Works at AECOM (Shenzhen Office)
Team Leader: Stone (Tong Sheng) Shen
Involved from Competition to 100% Construction Documentation (CD)
The Exhibition Jieliu River Project is one of the AECOM major landscape project in Shenzhen, China. The site is located at the north of Shenzhen International Airport, plays a crucial part of the world’s largest convention and exhibition center’s landscape. The Northern Pedestrian Bridge connects commercial blocks on both sides of the Exhibition River, towards to the entrance of the New Exhibition Center. Thus, the design comprises three bridge bodies, two of them overpasses the river, creates two different user experiences and circulation. One of them overpasses street, connects commercial blocks next to the New Exhibition Center.
Visualization Made by TEAMSEA Company for Client Presentation
COMPONENTS
The bridge comprises three bodies, with the visitor center as the ‘bridge core’, given users two experiences on the bridge.
NAVIGABILITY
The height and slope design gives users comfortable walking experiences, and also satisfied both small boat and larger vessel navigation requirement.
LANDSCAPE CIRCULATION
The design of the viewing platform allows people having great views towards to the Commercial and Fountain Plaza.
Circulation design allows people go to commercial stores directly from east bank side. The bicycle lane is also designed for bicycle users.
EXPRESS BRIDGE LANDSCAPE BRIDGE VISITOR CENTER STREET OVERPASS PEDESTRIAN ROUTE ONE PEDESTRIAN ROUTE TWO BICYCLE ROUTE
ELEVATION 2
UPPER GROUND BRIDGE PLAN
Drawing Scale: 1 : 500 @ A1
ELEVATION 1
ELEVATION 3
Drawing Scale: 1 : 500 @ A1
1 2 3
The plan shows the relationship between both river banks and the commercial buildings.
VISITOR CENTER GROUND FLOOR PLAN UPPER GROUND FLOOR PLAN
The ground floor comprises with toilet, staircases, lift shaft, and visitor help desks.
The upper floor area contains offices area, and also connects the bridge’s upper level.
2 1 Drawing Scale: 1 : 100 @ A3
LIGHT GREY ALUMINIUM PANEL DARK ALUMINIUM PANEL WOOD-LIKE ALUMINIUM PANEL GLASS PANELS ELEVATION 1 ELEVATION 2
