2019.7-2020.4;
2021.3-2021.9;
2020.7-2020.9;
2022.11-2023.1;
2023.4-2023.6;
2019-2023FALL
TINGYU SU
TEL:+41 767679170 EMAIL: ARKETHING@GMAIL.COM LOCATION: ZURICH, SWIZERLAND; STOCKHOLM, SWEDEN.
ARCHITECTURE& DAYLIGHT;
APPLIED ARCHITECTURE;
PATH FINDER;
WOOD BRIDGE CONSTRUCTION;
BROMMA AIRPORT HANGAR DESIGN; FIRE STATION AND HEALTH CENTER DESIGN;
HOTEL DESIGN;
ILLUSTRATION; MODEL
CURRICULUM VITAE EDUCATION ● ● ● ●
Architecture Intern 2024 Spring
2022FALL-2024FALL KTH Royal Institute of Technology 2023FALL-2024SPRING (EXCHANGE)
ETH Eidgenössische Technische Hochschule Zürich 2017FALL-2022SPRING Beijing University of Technology Major: Architecture Accomplishment:
Won the scholarship of excellent-learning award in 2019 and 2020 Won the third prize of the national college english contest
COURSES ● Voluptas: architecture design studio(ETH) working with game design(ZHdK) ● 3D Scanning and Freeform Modeling ● 360° - Reality to Virtuality ● Coding Architecture: * Build up basic proficiency in programming using Python. * Programming using Python within the design environment. * Applications in architecture and digital fabrication.
SU TINGYU
ARCHITECTURE STUDENT
EXPERIENCE INFO
DATE OF BIRTH: 1998.10.20 LOCATION: ZURICH, SWIZERLAND ARKETHING@GMAIL.COM +41 767679170
language proficiency: English: C1 German: B1 Chinese: native language
●
China Architecture Design & Research Group (CADG) Architectural Intern 2021 Sep-Dec participated in the relevant work of tianhua Road Police Station, Light textile Digital Logistics Project Trading Center,
●
Beijing China Construction Engineering Co., LTD Architectural Intern 2021 Jan-April participated in the planning and design of majiapu B&B, Beijing Shunyi SMC Dormitory, fangshan No. 8 Middle School new campus and other projects
●
Tsinghua Tongheng Urban Renewal Institute Architectural& Planning Intern 2020 Jan-Mar
ACADEMIC PROJECTS 01 2023SPRING APPLIED ARCHITECTURE bromma airport hangar
3
●
02 2022FALL ARCHITECTURE & DAYLIGHT
12
●
03 2020SPRING ZAMALKA REBUILD
20
●
04 2021FALL HOPMAN CUP
27
●
off the grid
city dimension
WORKING PROJECTS ●
05 2021SEP-DEC
Project Design for Light Textile Digital Logistics Port
30
conduct research and modeling in the Wudaokou area.
RESEARCH ●
Paper publishing Primary author& Group leader
2019 Feb- 2020 Feb
led the team to do survey, investigated on the living conditions of urban villages and wrote the paper "Research on the Reconstruction of Urban Villages Optimizing the Addition and Reconstruction of Building Space", which was published in the magazine "Building Materials and Decoration" in 2020 ●
Workshop Group leader
ARTWORKS ●
06 2022-NOW PAINTING; MODEL; ILLUSTRATION
2019 Jun- 2020
In 2019, participated as team leader in the summer camp for reconstruction in Damascus, Syria, organized by REPARAMETRIZE studio. The works were exhibited at the Shenzhen Architecture Biennale in the same year.
ACTIVITIES ●
Kårspexet (student drama club) stage setting; light and sound
●
Osqledaren (student union magazine) illustrator; layout 2022 sep- now
2022 sep- now
SKILLS ●
Software: Rhino Sketch Up Enscape V-ray CAD Unity Reality Capture
Illustrator Photoshop InDesign grasshopper python for gh
Tingyu Su 2019-2023 Fall
34
Applied Architecture 2023
01 Bromma Hangar Feb2023 - May2019 Site: Bromma, Stockholm
Project 1:
Bromma Airport Hangar Design Tingyu Su
Portfolio Description: Bromma Airport is Stockholm's first airport, but since the construction of Arlanda Airport, the airlines that used to operate at Bromma Airport gradually decreased. Now, only civil small aircraft, government aircraft, and air ambulance planes stop at Bromma Airport. In the years following the construction of Arlanda Airport, the buildings inside Bromma were gradually demolished and renovated. The once vast hangar buildings were transformed into large shopping centers, and a large hangar was converted into a new small terminal building. With the advancement of aircraft technology, Bromma's runway became unsuitable for most planes. Additionally, with population growth and a shortage of housing in the city center, the Swedish government plans to abandon Bromma in 2026 and turn it into a residential area.
As Bromma is dismantled in the future, the newly created residential area lacks infrastructure such as fire stations and medical centers. The building I have designed this time was initially intended as a hangar for air ambulance services, which includes a medical station, aircraft maintenance workshops, and offices. Firefighting and medical center functionalities were considered from the outset, and a two-phase plan was designed. The initial phase is the hangar, and in the later phase, it can be expanded and converted into a fire and medical center. This includes a fire station, accommodation for firefighters, a training area, changing and office spaces for medical staff, an open medical center for consultations, and a lecture hall for safety awareness campaigns.
Project 1: Bromma Airport Hangar Design Roof Garden FUNCTION EXPLODE
Education
Firefighting
Medical
Public Medical Hospital and Fire station vacant
Applied Architecture 2023
SITE
N
SECONDARYFIRE STATION
25 5
50
HEALTH CENTER
FIRE STATION
HOSPITAL
Hangar
Tingyu Su
PHASE 1: AIR AMBULANCE
Project 1: Bromma Airport Hangar Design
AIR AMBULANCE
Tingyu Su
PATIENT ARRIVED
PHASE 1: AIR AMBULANCE
P E R & A A
AMBULANCE AIR STATUS AMBULANCE
AMBULANCE ARIIVED
PATIENT ARRIVED
ONE THE WAY AMBULANCE STATUS
ARIIVED
EMERGENC ROOM
GO THROUGH TO HOSPITAL THE AMBULANCE LANE INSIDE HANGAR
PICK UP FROM NORTH EXIT
EMERGENCY TREATMENT IN WAITING AREA
TO HOSPITA
GO THROUGH THE AMBULANCE LANE INSIDE HANGAR
PICK UP FROM NORTH EXIT
GO THROUG THE AMBULANCE INSIDE HANGA
1 AMBULANCE 1 AMBULANCE PICK UP FROM NORTH EXIT PICK UP FROM NORTH EXIT
1 NORMAL PATIENT COME IN EXAM ROOM
TEN AR NF LL TSI LA WA GP NG FLY INI
TA RE
BO
L CA LO AC
E SIT
Y DR UN
SS CE
RO AD 2 CALL THE AMBULANCE WAITING & TRANSFER
APRON EAST
2 CALL THE AMBULANCE WAITING & TRANSFER 2 PICK UP BY THE AMBULANCE
1 AIR AMBULANCE PATIENT ARRIVE HANGAR
2 PICK UP BY THE AMBULANCE
10 1
20
Applied Architecture 2023
PUBLIC ENT
EMERGENCY TREATMENT IN WAITING AREA ONE THE WAY
TO HOSPITAL AMBULANCE
N
PHASE 2: EMERGENCY ROOM & AIR AMBULANCE
0 GET IN TOUCH WITH PILOT CALL AMBULANCE IN ADVANCE
1 AIR AMBULANCE PATIENT
N
N
PHASE ONE
PHASE TWO
13 9
7
9
8
7
9
9
8
6 7
7
6
6
9
6
13
1
8
8
11
11
10 6 11
4
2
6
2
2
2
4
12
12 10
1
12
3
10
6
6
7
First Floor
5
3
7
1
5
5
12
2
9
2
4
3
12
1
10 12
9
11
4
1
9
3
1
5
First Floor
First Floor
1 Nurse office
FIRST FLOOR PLAN
2 Change room
1 Nurse office
1 Nurse office
2 Change room
2 Change room
3 Medical storage
3 Medical storage
4 Hangar wookshop
4 Hangar wookshop
5 Hangar
5 Hangar
6 Meeting room
6 Meeting room
7 Pilot office
7 Pilot office
8 Operation office
8 Operation office
9 Tecnician office
9 Tecnician office
10 Kitchen
10 Kitchen
11 Social space
11 Social space
12 Storage room
12 Storage room
3 Medical storage 4 Fire fighting storage 5 Garage 6 Fire fighting equipment 7 Fire fighting operation room 8 Waiting area 9 Exam room 10 X-ray 11 Dark room 12 Control room 13 Laboratory
FIRST FLOOR PLAN
FIRST FLOOR PLAN
FIRST FLOOR PLAN 2.5 5
1
FIRST STAGE: HANGAR FIRST STAGE: HANGAR
STREET
AIRCRAFT PARTS AND EQUIPMENT
STREET
STAFF AND VISITORS
MEDICAL EQUIPMENT
ADMINISTRATION
AMBULANCE
SECOND STAGE: EMERGENCY MEDICAL CENTER &FIRE STATION
SECOND STAGE: EMERGENCY MEDICAL CENTER &FIRE STATION
5
TRAINING SESSION
THIRD FLOOR
AIRCRAFT PARTS MEDICAL EQUIPMENT AMBULANCES STAFF AMBULANCES AND VISITORS ANDAIRPORT EQUIPMENT WORKSHOP AND VEHICLES AND LARGE EQUIPMENTS
WORKSHOP
ADMINISTRATION
LANDSIDE HANGAR
EAST FACADE
SECOND FLOOR
AIRSIDE
FIRE STATION ADMINISTRATION
LECTURE HALL
6 FIRE STATION ADMINISTRATION
Applied Architecture 2023
PHASE 1: AIR AMBULANCE
PHASE 1: AIR AMBULANCE
AIR AMBULANCE
VISITORS
MEDICAL EQUIPMENT
VISITORS WORKSHOP
EXAMROOM AND LABOTORY
AMBULANCE
PUBLIC PATIENT TREATMENT
EXAMROOM AND LABOTORY
AMBULANCE
6
STAFF
AIRSIDE
STAFF LANDSIDE
AIRCRAFT RAMP
AIRSIDE
GARAGE AIRCRAFT, PEOPLE,EQUIPMENT AND VEHICLES
PATIENT ARRIVED
AMBULANCE STATUS
1
LANDSIDE WORKSHOP
6
4
8
7
MEDICAL EQUIPMENT PUBLIC PATIENT TREATMENT
AIRCRAFT, PEOPLE,EQUIPMENT AND VEHICLES PATIENT ARRIVED
3
2
7
AIRCRAFT, PEOPLE,EQUIPMENT AND VEHICLES
AIR AMBULANCE
6
4
2
8
GARAGE AIRCRAFT RAMP
3
6 MEDICAL ADMINISTRATION 1
LIVING SESSION
MEDICAL LIVING SESSION ADMINISTRATION AIRCRAFT PARTS PUBLIC ENTRANCE AND EQUIPMENT
AIRCRAFT PARTS AMBULANCES AMBULANCES PUBLIC ENTRANCE AND EQUIPMENT AND AIRPORT VEHICLES AND LARGE EQUIPMENTS AMBULANCES AMBULANCES AND AIRPORT VEHICLES AND LARGE EQUIPMENTS
AIRCRAFT, PEOPLE,EQUIPMENT AND VEHICLES
2
2 TRAINING SESSION
8
SECOND FLOOR
HANGAR
EAST FACADE
2
LECTURE HALL
AIRSIDE
AMBULANCE
5
8
LANDSIDE AMBULANCES AMBULANCES AND AIRPORT VEHICLES AND LARGE EQUIPMENTS
2
THIRD FLOOR
AIRCRAFT RAMP
1
1
6
2 Change room
1 Nurse office
3 Medical storage
2 Change room
4 Fire fighting storage
3 Medical storage
5 Garage
4 Hangar wookshop
Project 1: Bromma Airport Hangar Design 6 Fire fighting equipment
5 Hangar
7 Fire fighting operation room
6 Meeting room
8 Waiting area
7 Pilot office
9 Exam room
8 Operation office
10 X-ray
9 Tecnician office
11 Dark room
10 Kitchen
12 Control room
11 Social space
13 Laboratory
12 Storage room
FIRST FLOOR PLAN
FIRST FLOOR PLAN
2
2
5 9
7
9
6
4
3
2 8
7
6
8
6
8 6 6
1
11
4
12
10
NORTH FACADE
1
2
6
7
EAST FACADE
2
1
12
3
First Floor
5
Second Floor
1 Nurse office
2 Change room 1 Doctor office 3 Medical storage 2 Fire fighter office 4 Hangar wookshop 3 Pilot office 5 Hangar 4 Tecnician office 6 Meeting room 5 Living area 7 Pilot office 6 Meeting room 8 Operation office 7 Kitchen 9 Tecnician office 8 Social space 10 Kitchen 11 Social space 12 Storage room
SECOND FLOOR PLAN
2.5
FIRST FLOOR PLAN
1
SOUTH FACADE
3 4
2
5
1
1-1 SECTION
EAST FACADE
Applied Architecture 2023
5
EAST FACADE
1 Doctor office 2 Fire fighter office 3 Pilot office 9
7
9
8
7
5 Living area
6
Project 1: Bromma Airport Hangar Design 13
NORTH FACADE
4 Tecnician office
6
9
6 Meeting room
8
7 Kitchen
11
8 Social space 6 11
2
1
10
2
12
9
SECOND FLOOR PLAN
4
Tingyu Su
2
4
12
10
1
12
6
3
7
3
1
NORTH FACADE
3
SOUTH FACADE
4
2
5
5
1
First Floor
5
SOUTH FACADE
1 Nurse office 2 Change room 3 Medical storage 4 Hangar wookshop 5 Hangar
1-1 SECTION
6 Meeting room 7 Pilot office 8 Operation office 9 Tecnician office 10 Kitchen 11 Social space 12 Storage room
FIRST FLOOR PLAN
FIRST FLOOR PLAN
1-1 SECTION
Third Floor 1 Training area
2
2 Change room
5
2
6
4
3
2
3 Shower 4 Guest room 5 Lecture hall
2-2 SECTION
8
8 6
THIRD FLOOR PLAN 2.5 1
1
1
5
6
7
EAST FACADE
2-2 SECTION 2.5 2.5 1
NORTH FACADE
Applied Architecture 2023
1 5
5
150 mm glass wool thermal insulation
Project 1: Bromma Airport Hangar Design
3
Roof Construction 2 mm PVC sealant 18 mm cement bonded particle board 50 mm corrugated sheet steel 0.35 mm galvanised planke sheet metal 40 mm PUR spray foam 500/300mm metal beam
Functions Fire fighting area Medical area
12.700
Toilet and shower 4
Lecture area Hangar and garage
5
Public medical area Stairs and elevator
3rd Floor Entrace Design Fire fighting entrance Medical staff entrance Public medical entrance
9.250
Path Design Fire fighting path Medical staff path Public medical path Public visite path
2nd Floor
Wall Construction
1st Floor
4 0.35 mm galvanised sheet steel 12 mm fire resistant gypsum board framing: 45/15 mm battens 45/15 mm counter battens diffusion open fa cade membrane 9.5 mm gypsum board
2 mm translucent polycarbonate panel 20/30 horizontal metal bar 20/30 vertical metal bar 0.35 mm galvanised planke sheet metal 45/15 mmbattens 45/15 mm counterbattens diffusion open facade membrane 9.5 mm moisture resistant gypsum board 200 mm insulation 12.5 mm gypsum board
Floor Construction epoxy coating finish 10mm concrete leveling layer 70mm Hydronic Radiant Floor Heating 150mm EPS insulation layer 200 concrete floor slab
±0.000
-0.150
2%
500
Applied Architecture 2023
100
1000
mm
1600
400
Project 1: Bromma Airport Hangar Design
200/350 mm reinforced concrete column
2750
Planting Construction
700
150
50 mm mulch 300–750 mm light substrate, fall max 1:3 20 mm drainage mat with integrated filter fleece root protection membrane 70 mm XPS thermal insulation 5.5 mm three-ply seal undercoat 18 mm OSB panel 200mm concreate floor 15 mm mesh + lime plaster
2750
9
Floor Construction
1000
150
5 mm PVC flooring 70 mm screed 150 mm reinforced concrete slab 100 mm acoustic insulation 20/89 mm oak louvers suspended ceiling
Wall Construction
3050
0.35 mm galvanised planke sheet metal; 45/15 mmbattens; 45/15 mm counterbattens diffusion open facade membrane 9.5 mm moisture resistant gypsum board 200 mm insulation 12.5 mm gypsum board
First Floor Construction
450
5 mm PVC flooring 70 mm screed 160 mm PU thermal insulation 200 mm ground floor slab
500 100
Applied Architecture 2023
1000
mm
Project 1: Bromma Airport Hangar Design
Applied Architecture 2023
Architecture & Daylight 2022
02 Off the Grid Nov2022 - Dec2022 Site: Stockholm, Sweden
Project 2: Daylight Openings Detailing Tingyu Su
Portfolio Description: This architectural structure is nestled within a forest in the southeastern region of Stockholm. It creates an idyllic, self-contained space intended for solitary occupation. It has been meticulously designed to cater to the dimensions of a single individual and to support self-sufficiency for approximately one week, with access to water and provisions. This dwelling offers functionality for cooking, enduring winter nights, engaging in artistic pursuits, and facilitating meditation. The structural design concept amplifies the minutiae of conventional wooden walls. Beyond the interior walls, insulation, structural components, and waterproofing layers, it enhances the dimensions of the ventilation layer. Within the framework of the exterior facade, it accommodates activities within the neutral zone, such as cooking, dining, and reading. Thoughtful adjustments in the dimensions of the facade panels provide a balance: preventing rainwater infiltration while allowing visual engagement with the surrounding scenery.
Beneath the expansive framework, adapted for summertime conditions, an insulated winter chamber is integrated. This chamber is fully equipped to provide a space for relaxation, artistic endeavors, meditation, and scenic contemplation, thus adapting to the changing seasons. The structure of the summer cabin employs 200x50 wooden beams to support both the eastern section and the roof panels. Secondary beams are employed to support the panels, requiring only nail fixation for the roof panels. This set of architectural drawings encompasses all the plans from the second iteration of the design, as well as detailed models from the initial design phase.
Project 2: Daylight Openings & Detailing Tingyu Su
Architecture & Daylight 2022
N
still
5
10
1 fast
wind speed
accessibility
trees
Site Analyze
Site Plan
view
still
fast
12:00
12:00 12:00
wind speed
accessibility
trees
view
June solstice Equinox November 4th December solstice
Site View
Project 2: Daylight Openings & Detailing Tingyu Su N +4.995
+4.100 +4.995
+4.995
+4.100 +2.800
+4.100
+2.800
+2.800
±0.000
50
10
100
South Facade
±0.000
±0.000 10
10
50
50
+4.995 100
100
+4.995
+4.995
+3.145
+3.145
+3.145 +2.800
±0.000 +2.800
+2.800
±0.000
±0.000
Floor Plan 10
50
100
Architecture & Daylight 2022
East Facade
Project 2: Daylight Openings & Detailing Tingyu Su
INDIRECT DAYLIGHT INDIRECT DAYLIGHT
1670
350
145
735
850
50
900
190
910
VIEW
1325
425
VIEW
1.Wall Build-up Plywood panels Horizontally laid battens with air gap Vapour barrier Rigid insulation Windbarrier Timber beam Horizontally laid battens with air gap Plywood panels
20 30 200 50 30 10
60
900
350
45
220
275
50
290
READ
June solstice
150
1165
575
775
2.Floor Build-up Birch wood surrounds interior Timber floor structure Insulation in between structure Plywood covering
June solstice 10
50
20 50 200 10
100
Sectional Perspective
Details
Project 2: Daylight Openings & Detailing
Exploded View
Roof Build-up
Tingyu Su
20 30 50 10 30 200 50 30 10
N
Zinc corrugated roof Plywood panels Horizontal roof beam Wind shield panel Horizontally laid battens with air gap Vapour barrier Rigid insulation Vapour barrier Timber beam Horizontally laid battens with air gap Birch interior panel
Zinc panel tilted roof Roof structure
Insulated winter house WBP plywood panel
Outside structure
Sub roof structure
Architecture & Daylight 2022
Project 2: Daylight Openings & Detailing Tingyu Su
Architecture & Daylight 2022
Project 2: Daylight Openings & Detailing Tingyu Su
solcellspanel
external wall
insulation & inside structure
outside structure
internal wall
Architecture & Daylight 2022
Former Design
Isometric of detail model
02 Syrian Rebuild Jun2020 - Oct2020 Site: Damascus, Zamalka
Portfolio Description: The site is located in Damascus Zamalka, Syria, in an area of moderate post-war damage. The buildings in the moderately damaged areas, the building facades and staircases are incomplete, and there is more room for repair and renovation of the original building framework. The post-war population is mainly divided into domestic residents and foreign refugees. My design divides the reconstruction plan into two phases: the first phase addresses the urgent housing and education problems of the domestic residents by building scaffolding structures to repair the broken walls, as well as a temporary school on the first floor for the out-of-school children. The second phase was to attract refugees from abroad back to their home countries. After the house was repaired, a facade was added to the steel scaffolding to turn it into a permanent external structure. In combination with the cooling cavity, a moist and cool space was created for people to rest.
In addition, the building is combined with a solar chimney on the south side of the building to cool down and humidify the air inside the building, further increasing people's activity space and living comfort by using low-cost green building methods. Materials are recycled in the design process. Post-war building debris can be collected by residents and made into recycled bricks by adding concrete, cutted wheat-straw, concrete and sand. The temporary school will be used for emergency purposes only. When the schools around the site resume classes, the temporary school will be dismantled, and the materials can be reassembled in the open space as a playground for children to climb and pedestrians to rest. This site's technology and design techniques can be applied to other post-war reconstructions in similar areas.
Building Damage degree
Severity of Structure Damage Persentage of damaged structures per city in Syria
32.7%
11.7%
9.6%
5.8%
12.6%
25.4% 1.1%
Number of Building Danaged or Destroyed per Hectare, by Neighbourhood
N
Population Composition
22.8M population 5.6M refugees 0.3M camps
Severity of Structure Damage
Population Composition
22.8M population 5.6M refugees 0.3M camps N
casuaty refugee
casuaty
resettlement
site
refugee
5
rest
20
resettlement
50
rest
Refugee Returns Degree of Population Loss total spontaneous refugee returns
Refugee Returns
55,568
Population Composition 50,896 Population Composition Population Composition 28,385
41,570
22.8M population 5.6M refugees 0.3M camps 22.8M population 5.6M refugees 0.3M camps 2016
2017
Turkey
Irag
50,896
2018
2019
LEB casuaty refugee
Jordan
casuaty
refugee resettlement resettlement
rest hope to return one day 75.2% of Syrian refugees rest
69.3% hope but do not intend to return
5.9% intend to return in the next 12 months
5.5% are undecided
19.3% do not hope to return
50,896
2016
2017
2018
2019
Turkey
Irag
LEB
Jordan
75.2% of Syrian refugees hope to return one day
2017
69.3% hope but do not intend to return
5.9% intend to return in the next 12 months
5.5% are undecided
19.3% do not hope to return
2018
Security situation
Availability of basic services
2019
traditional syria family
before war
after war
recover
11.5 people homeless
over 1/3 school was distroyed 1.75 million children are out of school
1.35 million are at risk of dropping
single parents
enrollment rate
old people
related family close connection
disablity people
big family/medium family
out
seperated family
41,570 41,570
2 3 million people in the future minus
ergency of school rebuild
55,568only1.5 million willing to come back
28,385 Why people would not come back 2016
14 million
41,570
foe 11.5 million people to live
refugee returns 55,568 house destryedtotal spontaneous 28,385
9 million
55% building
total spontaneous refugee returns schools destroyed over 7million refugee registered afraid of the war
55,568
28,385
Refugee Returns Refugee Returns
50,896
change of syrian family pattern
future population grouth and housing need
total spontaneous refugee returns
schools destroyed
over 7million refugee registered
house destryed afraid of the war
only1.5 million willing to come back
community
Phase 1 meet urgent needs
abroad refugees
seeking shelter abroad
repairing residence
local brick factory urgency need for residence&school
Haura
Phase 1
Phase 1
meet urgent needs
d wheat-straw
concrete sand
residence and equipment meet urgent need
Post-war spontaneous rebuild and material re-use
goverment
material recycle &reassemble
Phase 2
Phase 1 meet urgent needs
residence+ virtical garden+ family gathering
spontaneous cleaning
resettlement urgency need for residence&school
shops+ goverment teahouse+
encourage woman to participate in post-war rebuilt
seeking shelter abroad
lever brick-making machine
greenery & vitality reclaimed bricks
encourage woman to participate in post-war rebuilt
lever brick-making machine
urgency need for residence&school
cutted wheat-straw
repaired
reclaimed bricks
concrete
residence and equipment meet urgent need
local brick factory urgency need for residence&school
repairing residence with temporary school
Haura
cutted wheat-straw communication & comfort concrete
Phase 2 residence and equipment meet urgent need
return home temporary school
sand
residence+ virtical garden+ family gathering
repairing residence with temporary school reclaimed bricks
temporary school
sand
Rebuild Residence + Temporary School labor force
local brick factory
Haura
reclaimed
repairing residence playground
public activity space
repaired
abroad refugees
Goverment
community
reclaimed
resettlement urgency need for residence&school
water channel garden
repaired residence with facade
labor force
seeking shelter abroad
repairing residence
labor force
return home
Phase 1 people
abroad refugees
Goverment
spontaneous cleaning
orce back
se 1
people
temporary school
Phase 2 return home
material recycle &reassemble
Phase 2
shops+ teahouse+ water channel garden
material recycle &reassemble
Applied Architecture 2023
Bromma Airport Hangar Design Tingyu Su
Phase 1 Short-Term
1m
5m
10m
1m
5m
10m
Ground Floor Plan
Second Floor Plan
Original Building
Phase 1
Phase 2
Applied Architecture 2023
Bromma Airport Hangar Design
Phase 2 Long-Term
Ⅰ
Ⅰ
Tingyu Su
dsa
5m
10m
Ground Floor Plan
South facade
1m
5m
10m
Second Floor Plan
North facade
Ⅰ
1m
Ⅰ
dsa
Solar Chimney
Cooling Cavity
Thin Channel
Sewage Treatment
Advanced Treatment
Sewage Treatment
Project 3: Daylight Openings & Detailing Rainwater Storage
Tingyu Su Solar Radiation
Solar Radiation Ambient Warm Air
Warm Air Water Tank
Warm Air Water Tank
Spray Nozzle Faling Water Film
Spray Nozzle Public Space
Private Space
Faling Water Film Absorber Plate
Absorber Plate
Cold and Humid Air
Solar Chimney
Ambient Warm Air
Circulating Pump Drainage
Cooling Cavity
Solar Chimney
Cold and Cooling Humid Air
Cavity
Circulating Pump Drainage
Everyone shall sit under their own vine and fig tree, and no one shall make them afraid. --Micah 4:4
三个功能:被动建筑降温、增湿、景观 案例:东亚园林:水渠 非洲马里贡人的多古纳建筑:蒸发散热(技术,前面不要了 传统园林:三个功能和景观,以前是平面庭院现在立体庭院 virtical inner courtyard
tradition inner courtyard air cooling humidification greenery
couurtyard vegetation
Solar Cooling Thin 那个剖面,截图出来,ai描,然后绿色建筑分析(这个就是绿色建筑分析? Chimney Cavity Channel 三张图好吧,垂直庭院分析,降温技术(太阳烟囱和蒸发散热管道)和水渠景观分析 三张图同一张底图
S T
Solar Radiation
Solar Radiation Ambient Warm Air
Warm Air Water Tank
Rainwater Collection
Warm
Spray Nozzle Faling Water Film
Priva Absorber Plate
Solar Chimney
Cooling Cavity
Thin Channel
Architecture & Daylight 2022
Solar Radiation Warm Air Water Tank
Ambient Warm Air Spray Nozzle
Solar Chimney
Solar Radiation
Cold and Humid Air
Sewage Treatment
Absorber Plate Circulating Pump Drainage
Cooling Advanced Cavity Treatment
Sewage Treatment
Rainwater Storage
Solar Chimney
Everyone shall sit under their own vine and fig tree, and no one shall make them afraid. --Micah 4:4
三个功能:被动建筑降温、增湿、景观 Warm Air 案例:东亚园林:水渠 Water Spray Nozzle 非洲马里贡人的多古纳建筑:蒸发散热(技术,前面不要了 Tank
1 Facade model 2 Inside view 3 Cafe space 1 3 2
Architecture Competition 2020
UIA City Dimension Tingyu Su
04 City Dimension Jun2020 - Nov2020 The new Babylon was designed for the architecture of the future. It was designed for a society of creative people who would be free from the drudgery of everyday life. ----Constant
Postmodern Issues In the post-2020 postmodern world, human communication has transitioned from oral to written, print, and information technology eras. This technological leap has brought convenience but also challenges. Supported by new media tech, cities are undergoing significant spatial and structural changes. To address new crises, cities should possess problem-solving abilities. We achieve this through the concept of 'latitude,' constructing cities from four directional axes, making them dynamic and adaptable to diverse environments and functions.
SECTOR
COMPONENT
BLOCK
Group work of two
Enhance
Reverse
Obsolesce
Retrieve
Q: What does the medium enhance? The problem with media enhancement. A: sensory overload, consumerism takes over thinking, and too much information makes people lose their ability to choose.
Q: Is the media pushed to extremes? A: People lose the ability to think, unable to filter the information presented to them, no time to reflect on themselves and communicate with themselves, confined to their daily life trivia, just killing time.
Q: What have we lost through the media? A: the loss of real human contact, real human contact with nature
Q: What does the medium restore? A: The media restore the architectural space that is not bound by function, the emotional connection between neighbors, and the community-based gathering activity.
heatmedia & publicy
Marshall McLuhan’s media theory states that every technological development brings about change in four directions: Enhance, Reverse, Retrieve, Obsolesce.
cold media & think
feel & nature
hominine & privacy
05 Work project
Portfolio Description:
Sep2021 - Dec2021 Site: China, beijing Contribution: Plan& Section&Construction drawings
In September through January of 2021, I interned under the supervision of Master Chen Yifeng at China architecture design & Research. During this internship, I participated in two main projects. One was related to the architectural design phase of a local police station, and the other one is presented here. I was involved in and completed various tasks for this project, including modifying and creating site plans, drawing elevations and sections, as well as building partial models of the entire site in SketchUp and Rhino, including the western buildings and facades of the main building. I also contributed to the detailed drawings of the stairs.
The entire internship lasted for four months, during which I primarily participated in the design and drafting processes of these two projects. I collaborated with colleagues to discuss different design solutions and learned how to align our designs with the requirements of the client while ensuring design quality and cost-effectiveness. I also realized that architecture is not an isolated discipline but an industry that collaborates with other specialties such as structural engineering, HVAC, interior design, and more.
Project 5: Digital Logistics Port Tingyu Su
East Facade
DESIGN SCHEME General Layout 项目地块 设计方案
设计方案 DESIGN SCHEME
DESIGN SCHEME Fire Protection 消防设计 设计方案
【消防流线分析】
N
Vertical Analysis
竖向分析
【竖向分析】
货运次出口(预留) 建筑控制线
仓 储 货 流 出 入 口
建设用地红线
园区主出入口
柯桥齐贤2021-02b 地块 约51亩
消防出入口
地库轮廓线
柯桥马鞍2021-05b 地块 约46亩 轻纺数字物流港项目地块,用地 消防出入口 性质为商业用地和工业(仓储) 用地。具体分为4个地块:
柯桥齐贤2021-02a 地块 约94亩
柯桥马鞍2021-05a 地块 约274亩
1)齐贤(工业仓储)地块约94 亩,工业用地,容积率1.5-2.0, 建筑密度40%-55%; 2)马鞍(工业仓储)地块,约 274亩,工业用地,容积率2.53.0,建筑密度40%-60%; 3)齐贤(商业)地块约51亩, 商业设施用地,容积率3.0-3.8, 建筑密度40%-55%; 4)马鞍(商业)地块,约46亩, 商业设施用地,容积率3.3-4.1, 建筑密度55%-70% •
以上地块的机动车与非机动 车位按实配置、统筹平衡;
•
后期建设实施方案在容积率、 建筑密度等技术经济指标可 32 能在以上区间内浮动。
消防流线 消防出入口 消防车道 消防扑救登高场地
Architecture internship 绝对标高 道路标高 红线
33
2021 34
Section
South Facade
Project 5: Digital Logistics Port Tingyu Su
First Floor plan
Architecture internship 2021
Second Floor plan
other works 2019 - now architecture illustration
architecture illustration
Illustrations 2019 - now
Models 2019 - now forms: drawing, model, sealing, digital illustration