Landscape Architecture Student Portfolio by Thanh Duong

P.d. Landscape

THANH DUONG Bachelor of Landscape Architecture (Honours) Selected Work 2019 - 2020

NAME: THANH PHONG DUONG EMAIL: phongduong045@gmail.com INSTAGRAM: p.d.landscape (https://www.instagram.com/pd.landscape/ )

EDUCATION: UNIVERSITY OF TECHNOLOGY SYDNEY (2ND YEAR) SOFTWARE: ADOBE SUITE, ADOBE ILLUSTRATOR, ADOBE PHOTOSHOP, ADOBE INDESIGN, RHINO 6, PROFICENT IN GIS

TABLE OF CONTENT

2019 01. STUDIO: LAND ABOVE THE LAND 02. LANDFORM: 03. BOTANY: CALLAN PARK LINEAR SHOREFORE 2020 04. STUDIO: WATERLOO PRECINCT CULUTRAL PARK 05. COMMUNICATION: ECOLOGICAL SUCCESSION

01. MALABAR

NATIONAL PARK: LAND ABOVE THE LAND

The site plan shows the location the locations of the gardens, which sits at the centre of the nationa aprk. The gardens is sub divided into four symmetrical, geometrical shapes at differnt depression and elevated, which allow users to experience different opportunities when entering.

LEGENDS 1. Car Park 2. Entrances 3. Broad Walk 4. Elevated garden 1 5. Depression garden 1 7. Elevated garden 2 8. Depression garden 2

Site Location

Section A - A

Transect A - A

Section B - B

Transect B - B

Section C - C

Transect C - C

Section D - D

Transect D - D 04

Final Design Aspect: Changes of Levels

Final Design Aspect: Circulation

Final Design Aspect: Geometrical Garden

This diagram shows the changes of levels throughout the park

This diagram shows the park provides different, various experiences which travels throughout the park.

This diagram shows the asymmetrical, geometrical shape of the garden and how each of them experience dofferently to one and another

Dark tone: Elevated gardens Medium tone: Secondary level Lightest tone: Depression garden

Some paths allows to experience a longer journey while enjoying her site and some are which takes shorter.

Final Design Aspect: Changes of Levels

Final Design Aspect: Circulation

Final Design Aspect: Geometrical Garden

Sand Modelling Experiment

Sand Modelling Experiment: Entrance View

Sand Modelling Experiment: Borad Walk View

02. LANDFORM: TO STEP/ RAMP/ BATTER/ SLOPE

5946 1%

5946

6000 6000

5500

5500 5000

5934

Proposal title:

5934

5334 1% 5000

5334

ENGINEERING SECTION CS01

landscape typology: (ie. ramp or stair etc)

5000

5322

4500

materials:

5000

CS02

4000

4500

4422 1%

4422

4000 4410

4410 4000

experience: slow ascent or fast descent, high effort, scramble, body leaning forward

4000 3500 3660 1%

3648

3660

3500

3000 0%

3648

3636 3636

2500

1% 3624 0%

2500

3624

2000

2000 2874

2000

2862

2874

2862

2000

CS03

1500

1500 1000

1662

1% 1650

1662 1000

1650

1000 1000 500 500

250

1% 0%

238

Transect Plan

150 1100

600 1200 200 200 200

1000

1200

800

2445

800

1200

1400

200

1200

6500 5946

5934

6000 5334

5322

5500

4422

5000

4410 62

4500

4000 1%

3660

3624

3500

2874

3000

2862 62

2500

1662

2000

1650

1500

1000 250

Engineering Section

600

0 500 0 450

400

350

250

200

150

Axometric Model 06

Photographic Model

238

500

Reinforced Concrete Stairs Reinforced Concrete Footing 0% FALL

1812

130mm Brick Retaining Wall

Reinforced Concrete Footing 1812

Earth

Drainage Seal 10mm Draiage Pipe

130mm Brick Retaining Wall

Reinforced Concrete Footing

1% FALL

5322

Reinforced Concrete Footing 1% 4422 FALL

1% FALL 4422

150mm Pre-Cast Reinforced Concrete Stairs

CC01

Bedding

10mm Rod

300mm Sub Base

130mm Brick Retaining Wall

Bedding

Earth

Bedding

Earth

10mm Rod 150mm Pre-Cast Reinforced Concrete Stairs Reinforced Concrete Footing

Cross Section 01

Drainage Seal 10mm Draiage Pipe

Cross Section 02

130mm Bick Retaining Wall 150mm Pre-Cast Reinforced Concrete Stairs Bedding

1812

300mm Sub Base

Cross Section Detail CC01

Reinforced Concrete Footing

0% FALL

1812

Earth

Cross Section 03 130mm Brick Retaining Wall Bedding 10mm Rod 150mm Pre-Cast Reinforced Concrete Stairs

etaining Wall

Reinforced Concrete Footing

st crete Stairs 1812

0% FALL

Reinforced Concrete Footing 1812

Drainage Seal

Earth

10mm Draiage Pipe 130mm Brick Retaining Wall

Reinforced Concrete Footing 1% 4422 FALL

150mm Pre-Cast Reinforced Concrete Stairs

Bedding 300mm Sub Base Earth

Location in Scheme

Working Sand Model

CUT = 2.6m² CUT = 2.6m² CUT = 10.3m² FILL = 1.0m²

CUT = 10.3m² FILL = 1.0m²

FILL = 3.0m²

CUT = 5.8m²

FILL = 0.4m²

FILL = 3.0m²

CUT = 4.5m²

FILL = 2.9m²

CUT = 5.3m²

FILL = 0.3m² CUT = 6.3m²

FILL = 0.3m²

CUT = 6.3m² FILL = 2.1m² FILL = 2.1m²

CUT = 4.8m²

FILL = 0.9m² CUT = 6.4m²

Working Sketches

FILL = 2.0m²

CUT = 6.2m² FILL = 1.4m²

CUT = 6.2m² CUT = 8.5m²

FILL = 1.4m²

FILL = 1.7m²

CUT = 8.5m² TOTAL: CUT = 60.7m²

TOTAL: CUT = 60.7m²

FILL = 1.7m²

FILL = 15.7m²

Cut and Fill Calculations 07

5- AP

4 - LL 4 - LL 11 - LL

5- PI

3 - EP

3 - LL

6- MB 3 - PI

6- EP 4 - EP 3 - LL

6 - PI

32- FMS 5 -HI

6- EP 3 - LL

11 - EP

3 - HI 26 - TT

4 - EP

3 - EP

100 -FMS

5- LL

12 - HI

23-AV

3 - EP

3 - HI

4 - EP

7-CD

3 - PI

11- SA

Plant Schedule Plants Trees

Shrubs

Grass

Ground Cover

Qty

Common Name

Latin Name

Schedule Size

9 7 17

Golden Wattle Grey Mangroves Wolly Pomaderris

Acacia pycnantha Avicennia marina Pomaderris lanigera

8m high 9m high 2m high

11 45 870+ 6

Austral Seablites Petty Spruge Beaded Glasswort Boobialla

Suaeda australis Euphorbia peplus Sarcocornia quinqueflora Myoporum boninense

1m high, 40cm long 40cm high 30cm high 2m high

1150+ 27

Panic Veldtgrass Ehrharta erecta 0.6m high, leaves 7mm long Slender Bamboo Austrostipa verticillate 2m high Grass Hairy Brassica Hirschfeildia incana 1m high, 20cm long leaves PROJECT Basket Grass CALLAN Lomandra 100cm Long PARK longifolia LINEAR FORESHORE Plantain Plantago lanceolata 20cm long

27 51 7 50 132 7

870-SQ 7 - AM

3 - HI

PROJECT

CLIENT

New Zealand SASKIA Tetragonia SCHUTtetragonioides Spinach DWGS Wall Furnitory Furnaria muralis sond PLANTING PLAN Frosted Goosefoot Chenopodium dersertorum

10cm long leaves, 12mm diameter fruit Flowering 20mm long 20mm long, 2 diameter flowering

03. CALLAN PARK The one key aims of designing Callan Park is to design a rich aesthetics landscape which allows the experience throughout the park, which includes activities where families and friends to spend quality time with each other and the beautiful scenery of the landscape. On the shore line of the coast, aims to reveal the exotic, colourful species within the landscape and brings forth the inner beauty of the landscape where as the inner side provides shades and rest for families who journey through the landscape endlessly and experiencing the under canopy of the trees around the area.

Long Section

Short Section

Conditions: Sunny yet breezy from the north, slightly moist soil under the shades and towards the shore the soil is highly wet.

24 - TT

CLIENT

P.d. Landscape

DWGS

PROJECT NO#

CALLAN PARK LINEAR FORESHORE SASKIA SCHUT PLANTING PLAN

DATE:

27/09/2019

SCALE@A1:

1:100 NORTH POINT

PROJECT NO#

11172_ASSIGNMENT TASK 2 DATE:

LASCALE@A1: 001 THANH PHONG DUONG, 13590118

27/09/201 1:100

NORTH P

January

Januar

y Suaeda australis

bru

ary

Avicennia marina

January

Ehrharta erecta

bru

Euphorbia peplus

ary

Sarcocornia quinqueflora

Pomaderris lanigera

Hirschfeldia incana

Fumaria muralis sond

Lomandra longifolia

Chenopodium desertorum

rua

April

GRASS

mb ve No

ly August

September

to b

er mb ve No

tob

Augus

er mb ve No

Ju n

Ju ne

tob

August

Septemb

Ju n

er mb ve No

Decemb

May

ber Decem

ber

GROUND COVER May

May

Fe b

rch

Plantago lanceolata

SHRUBS

Decemb

ary

rch

TREES

Tetragonia tetragonioides

bru

rch Ma

Myoporum boninense

Januar Fe

Austrostipa verticillata

Decem

Acacia pycnantha

tob

August

September

Plant Pallette

Goldern Wattle (Acacia pycnantha)

Grey Mangroves (Avicennia marina)

Wolly Pomaderris (Pomaderris Austral Seablites (Suaeda lanigera) australis)

Petty Spruge (Euphorbia peplus)

Beaded Glasswort (Sarcocornia quinqueflora)

Boobialla (Myoporum boninense)

Panic Veldtgrass (Ehrharta erecta)

Slender Bamboo Grass (Austrostipa verticillate)

Hairy Brassica (Hirschfeildia incana)

Basket Grass (Lomandra longifolia)

Plantain (Plantago lanceolata)

New Zealand Spinach (Tetragonia tetragonioides)

Wall Furnitory (Furnaria muralis sond)

Frosted Goosefoot (Chenopodium dersertorum)

Design Iteration 1

Design Iteration 2

Design Iteration 3

Final Design Iteration 09

NY R A T BO

WELLINGTON ST

N WATERLOO SITE PLAN 10

E COP

JOHN

04. WATERLOO PRECINCT: CULTRUAL SPACE

The key opportunities I found was the precinct provided less pedestrain crossing/access and as well multiple intersections, which is concerning to locals as children travel the road without looking and as well as sharestreets which can confuse the users. The proposal develpment of Waterloo precinct aim to design a series green network across the precinct to provide easier and safer access for both pedestrains and cyclists, travelling to and from the Waterloo Metro station, Waterloo park and residences. By taking adavantge of using the polciies such as ‘Walking Strategies’ ‘Sustainable Greener Streetscape’ and Greener Place, benefits the site as they provided more green, shades, secure from canopies and secure access for the users for all ages from childre to elderly. In terms of connection of the Waterloo Park, Metro station and residence, the proposal development was bringing two green corridors from the metro station and residnce buildings to have nice, easy and safe acess to Waterloo Park.

ENVIRONMENTAL STRATEGIES

Road Green Corridors Cyclist Track

Natural Grass Lawn Grass Medium- Value Trees High- Value Trees Brush Box (Lophostemon confertus)

Port Jackson Fig (Ficus rubiginosa f. glabrescens)

Red Box (Eucalyptus Polyanthemos)

Australian Blackwood (Acacia melanoxylon)

Wooden Bowls (Coolamons) as well as shields, were made of wood, which mainly comes from Ecualyptus such as Red Box

Spearsthrowers and shields were made hard dense wood which comes from Australian Blackwood.

Communication 2: Ecological Succession Rendering Model

Large amount of heat wave swirling in the sky.

Dead branches and leaves falling to the natural grass from the overgrown fruit tree. Natural grass emerges to the lawn, which then overruns it Lawn grass layer High heat stress cause damages to the lawn grass and increasing weed infection. Individual bricks shift overtime from dehydration causing to expand and crippling away into the soil. Overtime the soil will increase and developmenting communities of soil bitotiaConcrete weakening Nautral grass emerges through the damage concrete

Fruit Tree grows overtime

Concrete wall will crack and crumble from the rise of temperature, causing to dehydrate.

Small parts of concrete sinking beneath the soils

Exploded Axometric

Overgrown fruit tree

Damage concret wall

Plan Detail

Natural grasses

Description In this event, my model demonstrates new life such as natural grass and soils emerges through the concrete as they cripple away from the surface, as well as counted towards the existing lawn area, as they will be replaced by natural grass which then overruns it. This also includes that the vegetation such as the fruit tree, as it continues to grow overtime, with the support of the soils which occurs during the secondary stages of ecological succession. 12

Section B