2020 Portfolio

CHIA JING HUI ARCHITECTURE 2020 PORTFOLIO

CONTENT

04

About me

05

Curriculum Vitae

06

Forest City

Biophilic city for connecting human and nature

12

Augmented Realities AR Build Assist

16

Pocket House

Multifunction Earthquake Shelter

18

The Rhythm of Rain

Campus building Rain Garden design

24

Between Green and Grey

A green water infrastructure strategic process for planning and designing on Highland Urban drainage

32

Breathing Facade

Adaptive Facade for improving indoor thermal comfort

34

Photography

About me

Architecture fascinates me. With a desire to explore and create.

4

Curriculum vitae Education 2015-present

Computer Skills National Taiwan University Bachelor of Science in Horticulture and Landscape Architecture Minor in Civil Engineering

Award DEC 2018

Best Final Presentation BIM Technology and Application Center Final Presentation

SEP 2018

Finalist Social Innovation and Entrepreneurship Competition

MAY 2018

AUG 2017

Adobe Creative Suite Office Suite Rhinoceros & SU AutoCAD Revit V-ray & Lumion Grasshopper

Finalist

Visual Studio

Eddible Garden of Taichung World Flora Exposition

ArcGIS

First Placing River Landscape Improvement Competition of Taichung, Hanxi

Experience

Languages Mandarin

2016 - Present

Graphic Designer, Freelance

AUG 2019

Project Leader, Prototyping the Future International Workshop

JUL 2018

Project Leader, AA Shanghai Summer School

AUG 2017

Project Leader, Participatory Design in Hanxin River Workshop

JUL 2017

Landscape Designer, Intern Nature Living Design Sdn Bhd.

English Malay Cantonese

5

INTRODUCTION

Forest City

Humans possess biophilia, an innate tendency to focus on life and life-like processes ( Wilson,process 1984). Biophilic design is to create andthe space for planning strategic A biophilia that fulfills human’s long for mother nature by naturalistic element and citydoesn’t provide us an in a crowded designing place-baesd sensation. However our city, Taipei, Taipei : Songshan, Location ideal place place to live in for now, there are many problems to be solve. As the growth of industrial and commercial development, urban space and the way people live had greatly altered. Then, environmental 2017 Summer (Junior) problems thrived, concerns in residents’ physical and mental health as Period: 3 months well. Global environment deterioration leeds to problems in Taipei such like extreme climate, widen temperature between summer and winter, worsen air quality, etc. in addition to the high building density, project | Academic | Extracurricular Group impermeable paving, and so on, we need to face to unbearable heat in the summer, flooding caused by heavy rain or typhoon, which cost a large amount of resources to restore the city. Moreover, the pattern of : None the city blocksSuperv the windisor flow, the buildings and the boards shadows the sunlight, making living in Taipei displeasing. The problems mentioned had also led to the local animals to disappear, unbalanced di eco-system in Taipei.Biophilic design emphasizes the access to the Humans possess biophilia, an innate tendency to focus on nature. In theprocesses traditional Chinese culture,1984). we regard the naturedesign life and life-like ( Wilson, Biophilic composed of the yin-yang five elements: wood, fire, earth, metal, mother between is to create the space that fulfills human’s long for And we found that the five elements matches the means for bywater. naturalistic element and place-based sensaromoting natureand Taipei to become a biophilic city: wood stands for plants and animal, tion. However our city, Taipei, doesn’t provide us an ideal for for sunlight, earth standsare for space, metal means air, and place fire to stands live in now, there many problems to finally, be water stands for water. solve. As the growth of industrial and commercial devel-

opment, urban space and the way people live had greatly altered. Then, environmental problems thrived, concerns in residents’ physical and mental health as well. Global environment deterioration leeds to problems in Taipei such like extreme climate, widen temperature between summer and winter, worsen air quality, etc. in addition to the high building density, impermeable paving, and so on, we need to face to unbearable heat in the summer, flooding caused by heavy rain or typhoon, which cost a large amount of resources to restore the city. Moreover, the pattern of the city blocks the wind flow, the buildings and the boards shadows the sunlight, making living in Taipei displeasing. The problems mentioned had also led to the local animals to disappear, unbalanced di the eco-system in Taipei.

6

Biophilic design emphasizes the access to nature. In the traditional Chinese culture, we regard the nature composed of the yin-yang five elements: wood, fire, earth, metal, and water. And we found that the five elements matches the means for Taipei to become a biophilic city: wood stands for plants and animal, fire stands for sunlight, earth stands for space, metal means air, and finally, water stands for water.

forest CIty A songshan where inhabitants can find a balance between the urban, natural and agricultural sphere while promoting biophilic design and biodiversity of cultures.

HISTORY OF TAIPEI

ecology

pressure index

climate change work hours

population

CONCEPT

PROBLEMS

Note: Panels 2 and 3 may be combined into a single ‘landscape’ format panel

7

The site is located in SongShan,Taipei. It is a trasition zone entitled to elements of both nature and city.HAving a decent amount of vacant spaces, it is the best cadidate base for biophilic design in addition to exxistence of Taipei railway workshop. Also, there’s a mutliple of users nestled in that particular area, mainly of those who are working under hectic hours. After having a site analysis, we found that the urban is poor at dissipating heat due to over-intensive construction. The only wind source at the location is form the river nearby. In the right figure shown , there indicates the percentages of people of all ethnics within site, their mobility, pressure index, activeness and dynamic range. Whereas the firgure shown on the lower right denotes the main distictive species within the site.

8

Resident Apartment Firstly, we twist the resident apartment as this typology can get more spaces in vertical part and the angle will let more sunlight come in through the building. Secondly, we seperate every floor inprototype this building, and join with a steel structure, RESIDENT APARTMENT as the wind can go through the building it also can provide a rest point for the birds in the city. Once again, we can SITE get more space for greening by enlarge TAIPEI RAILWAY WORKSHOP every vertical floor s. At last, we let the buildings looks more bionic by smoothing the shape. According this typology it’s not only provide function for the building and also to the site. The users and animals can share the buildings together with these functions and typology. Taipei Railway Station Our aim is to let the citizen can feel like living in forest in the city. What we have to do is we imitate the forest typology and feeling with our building structure. We try to use digital modeling to imitate tree shade by ceiling, tree structure by the pillar and tree stick forest by the wall. In addition, we also plant much green surrounfing the building and inside the building. With this typology user can feel light and green even in the building.

twist

seperate

enlarge

prototype

smooth

twist

seperate

LIGHT FOREST BUILDING

enlarge

smooth

LIGHT FOREST BUILDING

RESIDENT APARTMENT

green terrace

rooftop farming

SITE

vertical greening

rainwater roof water harvesting storage

curiosity

TAIPEI RAILWAY WORKSHOP

participation

green rooftop bionic architecture terrace

landscape

interwaving of architecture and landcape

CURIOSITY

landscape

activities

architecture

function

tree shade LONGER TIME

reFLectors

SUNLIGHT

tree structure ecology system

participation

reuse of vacant space

landscape

interwaving of architecture and landcape

bird rest point

wind tunnel

function

happy

bionic architecture

rainwater roof water

bird rest point

LONGER TIME SUNLIGHT

curiosity

social recreational indigenous interaction function materials

architecture

reFLectors

vertical greening

harvesting reuse of vacant space storage

social recreational indigenous interaction function materials

wind tunnel

farming

happy tree stick ecology forest system

CURIOSITY

landscape

activities

tree shade

tree structure

tree stick forest

9

Firstly, buildings on one side of the green path are torn down for the wind to come in, which is how wind path formed. Then, this wide wind path is planted with trees and shrubs. Moreover, the pave are changed to grass that is water permeable, and the traffic is moved to a underground tunnel which is right below the green path, letting the pedestrian enjoy a save linear park. The green system can be seen by the masterplan of dot, line, surface. Another function of the linear park is that it can collect the purified waste water by the buildings from both sides and reuse it to create pleasant water fountain which can trigger biophilic delight. Form these green and blue system, it is possible for wild animals to come inside the city by providing them suitable habitat and foods. as it is mentioned upon, the traffic is moved underground so the linear park can only accessed by foot and by public transportation means, which is more friendly to pedestrians.

10

VEGETATION

FIGURE GROUND

WATER RECYCLE SYSTEM

CAR LANE

SIDEWALK

UNDERGROUND TUNNEL

BIRDS FLIGHT NETWORK

BUS ROUTE

BIKE LANE

MRT ROUTE LAND ANIMALS NETWORK

U-KIE STATION MRT STATION

ECOLOGY NETWORK

PEDESTRIAN NETWORK

ROAD TRANSPORTATION NETWORK

The biophilic designed site located between the most prosperous part of city ant the nature area which includes mountains and rivers. Thus, the site from the ecological aspect can be seen as a bridge that introduces wild life to the urban area; From the social aspect, it is connection between different WATER RECYCLE SYSTEM user groups that long for nature. The transformation that alerts the network includes the vegetation system and CAR LANE SIDEWALK the waterscape system. By different combination of these two system the biophilic network is formed among BUS ROUTE BIKE LANE Taipei. For instance, the birds habit ROUTE in the mountains and by the MRT rivers, regardless of the city center by green U-KIE STATION network provided by Songshan MRTvegeSTATION tation system. Other animals ROAD TRANSPORTATION NETWORKsuch like frogs also can reach the spots suitable in the city as their new habitat, just by the native ecology culverts. By these means the biophilic designed site enriched the biodiversity not only the site itself but also the surrounding areas, even the whole city. UNDERGROUND TUNNEL

To sum up the effects caused, this biophilic designed site brings three main benefits city as forest, healthy lifestyle, and cultural heritage.

Augmented Realities AR Build Assist Location: Shanghai, China 2017 Summer (7 days) Group project | Acaedemic

Supervisor : Soomeen Hahim, Igor Pantic and Wenqian Yang info@soomeenhahm.com

12

Project Framework

Algorithm Studies- Salesmans walk

Struture Analysis

Timing/Aesthetics/Buildability

Algorithm StudiesSalesman walk

Final Decision

Feasibility Study of Joints

3 Methods to generate pipe Modifying the path of Salesman walk

The Grid

Set the Start and End Points

Installation Sphere Obstacle & Modify the points

Modifying the Box

Set Start and End (X-X)

Modifying Sphere & Box Density

Modifying the Shape of The Grid

Set Start and End (X-Y)

Modifying Sphere & Box Density

Modifying the Density

Set Start and End (Z-X)

Modifying Sphere & Box Density

13

Design generation

Component Details

30mm

50mm

2mm

Original Grid

Original Points

30mm 70mm

70mm

100mm

70mm

Sphere Obstacle 20mm Diameter Pipe Feasibility Study of Joints

100mm

Modified Size of the Grid

Points Cloud

Salesman Walk 01

Salesman Walk 02

80

35

Salesman Walk 01

15

30

25

14

Salesman Walk 02

Result

Top

Front

Back

Left

Right

15

Pocket House Multifunction Earthquake Shelter

From the previous statistics reveal that, huge earthquake is not frequently occur . So that by offering a lowcost and sustainable solution that can be built by the community, reducing the wasted of temporary shelter. Moreover, the state of emergency time is reduced as inhabitants are able to quickly build their housing at the stadium. After post-disaster, these shelters are able to provide a new landmark and function for the people.

Location: Taipei , Taiwan 2019 Summer (Fifth Year) Period : A month Individual project | Academic

Supervisor : Xiuxing Chen adoffice@mail.ntust.edu.tw

GOAL

LOCATION

DELIVERY

ASSEMBLY

MULTIFUNCTION

TAIWAN

REUSE

TAIPEI

TRACK & FIELD STADIUM

MULTIFUNCTION

SLEEPING SPACE

16

TIMELINE

REST SPACE

POCKET LIBRARY

EMERGENGY RESPONSE

BOOTH

AUDITORIUM

REHABITATION & RECOVER

COMMUNITY CENTER

DEVOLOPMENT

S T E P S ASSEMBLY

STEP 2

STEP 1

STEP 1

STEP 3

STEP 4

STEP 2

STEP 5

STEP 3

STEP 4

WATER REPELLENT

TENT FABRIC

4 WAYS -JOINT

TENON

LOCK

T-JOINT

DETAIL

STAND

TENON

FOLDABLE STRUCTURE

COMPONENTS

LOCK

TENT FABRIC II

HOOKS FOR HANGING WINDOW

NET PROCTECTION FROM INSECTS

The Rhythm of Rain NTU Campus Rain Garden Design Location : National Taiwan University, Taipei 2017 Summer (Junior) Period: A month Group project | Academic

Supervisor : Chia-Kuen, Cheng chiakuen@ntu.edu.tw

As impermeable surface became ubiquitous through urbanization, flooding tend to occurs in low areas. This project is aimed to demonstrate Low Impact Development that meets the need of runoff detention and water storage through the design of a Rain Garden, and to display the involvement of water-recycling techniques in garden design. The design takes place at courtyrad in NTU, which is enclosed by historical lecture buildings of Department of Engineering for Sustainable Environment. Thus, space function for student’s activities, such as relaxation, socailization and educational purposes, should be taken into considerations.

SITE ANALYSIS

CONCEPT

MASTER PLAN

20

VEGETATION

21

STROM WATER SYSTEM RAINWATER GARDEN SYSTEM

RAINWATER HARVERST BIKE STAND

NTU HISTORICAL SYMBOL CONVERSION IN NEW DESIGN

22

23

Between Green and Grey A Green Water Infrastructure strategic process for planning and designing on Highland Urban Drainage Location: Lin-Kou New Town, Taiwan 2018 Summer - 2019 Summer Individual project | Academic

Supervisor : Po-Hung Liu Classicdesign0528@gmail.com

The project aims to explore how to prevent rainwater runoff from increasing through integrating community activities into water management. Before the development of Lin-Kou New Town, the method LID-BMP (LOW IMPACT DEVELOPMENT - BEST MANAGEMENT PRACTICE) was adopted to bring k rainwater runoff under control. Initially, the LID facility was set up based on the stimulation of SWMM (STROM WATER MANAGEMENT MODEL), providing resilience for the urban space. This practice not only establishes a temporary rainwater storage, but also slows down the runoff, therefore reducing the flood at down area. Lastly, it also provides a livable ecological space for urban dwellers.

Project Framework Section 1 Efficient Analysis

Data Collection Paper reference

Model setup (SWMM)

Quantity Suggestion

Section 2

Apply the data to site selected

Case Design Evidence-based Site Design

Design a way for water to not only imporve The Health of Environment but also The Community of Lin-Kou New Town

24

Site Info

Strategy

Sealevel 200m

1.

120,000 100,000 80,000 60,000 40,000

Before Developed implementing LID facilty, and using LID-BMP to remain the runoff at Q50.

20,000 0

Topography

Site feature

2008 20092010 20112012 20132014 20152016 20172018 2019

Population

Soil Type

Environmental Analysis Watershed Catchment >1000000 80000 - 100000 60000 - 80000 40000 - 60000 20000 - 40000 10000 - 20000 0 - 10000 UNITS : SQUARE METER

Landuse Center Commercial Area Residential Office / Research Park School Mixed-Use Industrial

Pavement Rain Garden

Caculated Areas Detention Basin

Grassed Swales

Detention Basin

Roadway Drainage

2.

Integrating green spaces by using pedestrian to connect each green space.

3.

Accoding site-specific and users demand to create diversity activities.

Road System County Highway District Road

Drainage outlet

Bicycle Road

Issues developed, drainage system 1. After can’t support Q50 stormwater

area are too small 2. Greenandspaces lack of connection

3.

Unfriendly Environment

25

Stratergy 1 Define Data Input

Simulation The stromwater control effecient of detention basin on Drainage Outlets

Building coverage ratio Data Collect Paper reference

50%

15%

Residential Area

70%

Model setup (SWMM)

Commercial Area

Regulation of building coverage ratio Caculate the ratio of imprevious area can be replace by LID Caculate the ratio of imprevious area at 3 different stage without LID

Flood strategy scenario setup Detention efficient scenario LID efficient scenario BMP-LID efficient at 3 different stage scenario

50%

Parking Area

50%

Cultural Area

Education Area

Impervious area percentage at 3 different stage without LID Before Developed

Landuse Commercial Area Residential Area

Present 2018

35.6%

43.6%

19.54%

5.54%

Education Area

9.8%

9.8%

2%

9.6%

Park Area Others

20.2%

8.56%

Impervious Percentage

Before Developed

65% Present 2018

75.4%

Fully Developed

LID occupation of Infiltration rate LID Facility

Conclusion & Suggestion

Present

Fully Developed

9.83%

9.83%

Permable Pavements

18.27%

18.27%

Infiltration Area

28.1%

Biorentention & Grassed Swales

DRAIN OUTLET NO 1 2 3 4 5 6 7 8 9 10 11 12 13 14 16 17 18 19 20 21 22 23 24

42.16%

DETENTIO N NO

SUM O F WATERSHED P ERCENTAGE

E1-9 P21 P22 E15 E2-3 E3-3 P10 E1-3 P12 P13 E1-5 P11 E1-1 P14 E1-3 P14 P32 E1-17(2) G E1-18 E1-17 P33 P35

U

L

Y J X B V R P Z T Q S

FLO O D P EAK FLO O D P EAK REDUCTIO N BEFO RE REDUCTIO N AFTER SETUP RATE O F SETUP RATE O F FLO O D DETENTIO N DETENTIO N RUNO FF BASIN P EAK BASIN

10.31

19.31

19.32

<0.01

<0.01

26.76

40.3

40.31

<0.01

<0.01

82.93

8.78

8.00

9.73

7.49

17.08

45.29

44.63

1.48

0.92

26.07

11.38

11.17

1.86

2.67 0.01

3.19

20.56

20.55

<0.01

22.07

10.11

10.12

<0.01

1.25

11.4 1 36.86 40.59

6.92 10.42 9.81 3.67

6.29 9.33 8.36 3.33

9.13 11.68 17.45 9.99

1.81 3.95 5.22 14.97

46.6

9.24

7.50

23.2

26.39

12.48

5.91

5.37

9.96

6.14

NO 1 2 3 4 5 6 7 8 9 10 11 12 13 14 16 17 18 19 20 21 22 23 24

DRAIN OUTLET U

L

Y J X B V R P Z T Q S

DETENTIO N NO

P ERCENTAGE O F DB IN WATERSHED

REDUCTIO N O F FLO O D P EAK

E1-9 P21 P22 E15 E2-3 E3-3 P10 E1-3 P12 P13 E1-5 P11 E1-1 P14 E1-3 P14 P32 E1-17(2) G E1-18 E1-17 P33 P35

5.26 5.05 1.83 11.38 6.06 5.22 2.27 82.93 7.40 9.68 8.34 17.73 2.01 1.18 11.88 10.19 11.4 1 36.86 40.59 29.37 17.23 12.48

0.473 0.217 0.972 0.007 0.856 1.273 0.562 0.779 0.806 1.807 0.574 0.939 0.009 0.031 2.23 0.258 0.855 1.09 1.458 0.313 0.267 0.028 0.004

The LID effecient on 3 stages DRAIN OUTLET U L Y J X B A V R P Z T Q S O

SUM RUNO FF SUM RUNO FF IN AFTER P RESENT(2019) DEVELO P ED

47731.64 140441.60 19188.91 104587.10 29212.81 61742.81 11127.70 28444.39 15228.98 23152.89 19697.31 7895.28 17094.92 13290.55 6562.36

SUM RUNO FF AFTER SETUP LID

51393.93 26347.25 150069.4 105293.76 20616.81 12671.78 112757.6 70047.83 31389.33 21336.95 67498.45 91889.77 11764.59 7324.05 30604.62 19911.81 16403.58 11696.92 25034.64 15581.16 21488.88 14330.67 8185.98 6355.48 18163.63 14088.42 14446.96 9303.79 7284.66 2829.33

REDUCTIO N SUM RATE O F REDUCTIO N FLO O D P EAK O F RUNO FF

18.61 10.63 31.73 0.19 15.26 39.61 6.66 9.73 63.89 42.48 65.47 42.08 1.03 1.55 70.62 7.21 64.44 11.68 17.44 12.28 16.19 1.45 0.30

12.62 1275.18 2939.23 22.71 318.55 6271.42 1354.58 1445.00 788.70 2870.61 10.10 457.80 4.66 5.71 1766.61 683.72 321.13 914.30 1020.56 412.20 912.22 33.73 135.17

FLO O D P EAK FLO O D P EAK FLO O D P EAK AM O UNT AM O UNT IN AM O UNT AFTER AFTER SETUP P RESENT(2019) DEVELO P ED LID

19.32 40.31 8 44.63 11.17 20.55 4.53 10.12 6.29 9.33 8.36 3.33 7.5 5.37 3.11

Conclusion

After developed the capacity demand and the capacity supply from LID

The stormwater control effecient of detention basin at Q50

12.86% 22.9%

Indurtrial Area

48% Result

50%

Hospitality Area

10%

Indurtrial Area

Define Data Input

Park Area

60%

Result

21.76 42.27 8.22 47.15 11.92 22.41 4.64 10.58 6.47 9.5 8.48 3.39 7.66 5.61 3.67

17.75 40.53 6.54 39.42 10.65 19.88 4.33 9.92 5.94 8.77 7.81 3.09 7.09 4.99 2.87

DRAIN OUTLET

Capac ity De mand of Stormwate r at De ve lope d

U L Y J X B A V R P Z T Q S O

16872.00 72973.00 11689.00 60727.00 15631.00 20246.00 4348.00 10395.00 6632.00 6148.00 7125.00 3566.00 11008.00 5360.00 3168.00

1.

Capac ity P rovide d at P re se nt

Total Capac ity De mand of Stormwate r

Total Capac ity Supply from LID

15622.00 47862.00 11689.00 38232.00 9027.00 9959.00 0.00 4920.00 3895.00 7596

1250 25111 ok 22495 6604 10287 4348 5475 2737 ok

17221

9838

0

3168

21384.39 35147.84 6517.13 34539.27 7875.86 29853.04 3803.65 8532.58 3532.06 7571.73 5366.64 1539.80 3006.50 3986.76 3733.03

After developed total demand capacity of Stormwater at Q50

75.4% V

Impervious Percentage

U

Q X

T

J

R

B

S

Z

P

O

A

After developed total demand capacity of Stormwater at Q50 with LID facility.

Reduction of Flood peak

Decline flood peak strategy

Decline run off strategy time

From the simulation reveals that LID and Detention Basin have different function on stromwater management, which are reducing runoff and reducing Flood peak respectively.

2.

LID is effective on stormwater management.

13.71% 36.91%

Reduction of Flood peak

Reduction of Runoff

3. Design site demonstration

56.7%

25,111m

3

Impervious Percentage

V

13.71% 36.91%

Prevent run off threshold

Before developed, at the area allowed from regulation of building coverage ration implement LID, which is able to provide a significant reduction of stormwater runoff at Q50. Whereas there is a limit of LID while Q100.

L

Y

LID-BMP

run off

Research Framework

U

Reduction of Runoff Y

L Q

X J B

T R P

A

Z

S

O

The site is be selected for the following reasons. Firstly, it is the most lacking capacity of stormwater watershed. Secondly, it is the core commercial area with detention and retention.

Design Strategy

Retention Capacity

Drainage System Runoff Distribution According different type of the street in urban,implementing appropriate LID facility. After integrated green space, apply activities through site-specific

Runoff Ease The runoff will infiltrate through the LID facility first, while the amount of rainfall is greater than soil storage capacity, the stormwater only flow into the drainage system then

After designed detention capacity Linkou Sport Center 2300m

FG Forest Park

Runoff Control

900m

Car park 2

2100m

JX Square

On channel underground detention will be added at mid-aqueduct, while the stormrain is coming, the stormwater is absorbed through pump into the detention, for soothing the drainage system

Runoff Added Channel

TYPE TYPE TYPE TYPE

Infiltration Area

SUM

Drainage System

705m

Car park 1

1 2 3 4

705m

336m

5400m

290m

5000m 25111m

Stormwater Path Flow Diagram Site Underground Detention

Ease the water flow at drainage system

Ease the water flow at drainage system

Retention

flow

Detention

Retention

Rainfall

Grassed Swales

Flow in through Pump

Pavement

Flow out after storm

Drainage System

Flow in spontaneous

Flow out after storm

Rainfall >Infiltration Rate

Runoff Rain Garden

Planter Box

Drainage System

Flow out after storm Primary collecting the runoff from watershed

Underground Detention Detention Roadway Drainage

Storage capacity is full

27

Stratergy 2

Integrating open space

The open space was dissected by traďŹƒc lane

Existing Pedestrain circulation & open space connection

Maximize the open space by integrating the separate lane

Proposed Pedestrain circulation & open space connection

After the open space integrated, the connection of each open space will be greater

Widen pedestrian

From the lane criterion, know that there is extra space from 0.5m-1m

According each lane criterion, minimize the lane.

While maintaining the car lane amount, giving the extra space to pedestrian

Existing Street Section TYPE 1

Adding a signiďŹ cant crosswork between the seperated open space

Existing type of open space

TYPE 2

Retention

TYPE 3

Before

TYPE 4

Detention

After

Pedestrain circulation

Pedestrain circulation

Open space

Open space

Car park

Proposed Street Section TYPE 2

TYPE 1

TYPE 4

TYPE 3

JW pavement

8m

28

Roadway Drainage

4m 4m Pedestrian Rain Garden

9.5m Car lane

1m Grassed Swales

3m 1m 2m

Pedestrian Bike Rain Lane Garden

9.5m Car lane

1m

Grassed Swales

3m 2m Permeable Planter pavement Box

13m Car lane

Stratergy 3 Topography adjustment of retention basin

Topography adjustment of detention basin After rain, part of standing water

After rain, standing water

More connection between users and the space

Shallow pool

Existing condition (Detention Basin)

Proposed Concept (Detention Basin)

Standing water will occupy whole place in detention, and there is a gap between the user and detention space.

Make connection between retention Only a simple topography and and open space with a gentle slope. function Moreover, focus the place of stading water.

Existing condition (Retention Basin)

Vegetation Strategy

Vegetation Selection

Vegetation System

Rain Garden TYPE 1 Exisiting Tree

8.0m

Pavilion design

Added a bridge for the purpose to connect users and retention Deep pool

Proposed Concept (Retention Basin)

Proposed Concept ( Pavilion)

Classify retention water level, and according dierent water level to implement diversity activities

Designed a pavilion is able to provide shade and collect rain water.

Vegetation Restoration Rain Garden TYPE 2 O2 Dawn Redwood

Dawn Redwood

5.0m

P

Assimilation

P

N2

-

-

+0cm -30cm -60cm -90cm

Reed

Chinese pennisetum

Chinese silver grass

Marabutan

Fragrant Maple

Hoop Pine

Royal Poinciana

Replanting straight tree to make the visual more diverse.

-150cm

+0cm -50cm -100cm -150cm

-300cm

Reserve Replanting Move Rain Garden TYPE 1 Rain Garden TYPE 2 Man-Made Wetlands

Shredded Coconut

Shredded Coconut

Clay

Clay

Sandy Soil

Sandy Soil

Crenatae Waterclover

Egeria densa

Dead wood

Chinese water chestnut

Chinese silver grass

Ludwigia taiwanensis

Biodegradable

Chinese pennisetum

Suspension

Road

Chemical Suspend

Car pollution

Organic matter

Urban trash

Heavy metal

Cat-tail

60%

Subsurface ow system

Buildings

Orange Daylily

OVER

Bioretention

-

NO3

Creeping Liriope

Reed Taiwan Euphorbia

-

PO 4

Extraction

Man-Made Wetlands

-200cm -250cm

-

NO3

Chinese silver grass

Formosan Michelia

Replanting Strategy

Cat-tail

Paper Reed

-100cm -120cm Beef Wood

-

NH 4

Absorb

Camphor tree Paperbark

Taiwan Golden-rain Tree

PO 4

Run off

NO3

Free water surface system

Over 60% water pollution is causing by rain pollution, rain melt most of the pollution substances from the air. After that rain water run off carry most of the pollution substance from the buildings, road and urban trash.

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Spatial Concept Site Specific

Retention Landscape

Resilent Flood Control

Detention Landscape

Activity Yard Landscape Hill

Man-Made Wetland

Waterfront Area

11m

Landscape Retention

25m

Green Pedestrian

Landscape Retention

Waterfront Area

4m

2

1

Green Pedestrian

Man-Made Wetland

Green Trail

Comunity Area Permeable Car Park

Green Pedestrian

Acitivity Yard

Sunken Square

Green Pedestrian

Activity Yard

Community

Green Pedestrian

Permeable Car Park

Multifunction Sunken Square

Hill Comunity Area

2

Hill playground Green Pedestrian

Leisure Activity

Open area Activities

Waterfront Interaction

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0.

1

Green Pedestrian

Resident Demand

Gathering

3.2m

1.8m

Water feature

Resting

1m

SECTION

Hill Playground

Hill Comunity Area

綠化步行空間

Permeable Car Park

Community Area

50m

3 Rain Water Collection

Design Details

Water roof Canvas

3

Water Collection Ring

Water Collection Ring

Rope Support

Drainage hole

Support Structure

.5m

25m

3m

1.5m 3m

4 Pedestrian

Stairs

Grass Slope

Stairs

Square

3

Permeable Pavement

Underground Detention

1.5m

B`

B

Climbing Challenge Area

Jumping Area

All Aged Climbling Area

Pathway

4

All Aged Run and Jump Area

1.5m

C`

C

Grass Slope

Pathway

Grass Slope

Pathway Vegetation

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Model Making This is a smart technology window. We’ve pictured that the window can be utilised to manipulate room temperatured to its optimal degree celsius through the size of the window’s hole. The size of the hole will be changed according to the sun’s intensity to maintain the favourable room temperature. Futhermore, the alteration of the hole may provide a varaition of the light intensity.

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photography

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THank you