Wenjin Wang_Landscape Architecture Portfolio_2019 by wenjin

EDUCATION

CURRICULUM VITAE

02/201712/2018

University of Melbourne Master of Landscape Architecture

09/201305/2016

Colorado State University, Fort Collins, CO, USA Bachelor of Science in Landscape Architecture Minor: Business Administration

EXPERIENCE

Wenjin Wang +61 481 976 831 wenjin.wang@outlook.com https://www.linkedin.com/in/ wenjin-wang/

07/2018

Research Intern, SMEC(Design and Planning studio), Melbourne, Australia

02/2018

Landscape Architecture Internship Tract Consultant, Melbourne, Australia

06/201601/2017

Landscape Architect Xiamen Zhongyi City Landscape Art CO., Ltd, Xiamen, China

09/201505/2016

Graphic Designer Central Program, Apartment Life, CSU

09/201405/2016

Chinese Student and Scholars Association (CSSA) at CSU President, Core member

09/201305/2016

Student Chapter of American Society of Landscape Architecture (SCASLA) at CSU Active Member, Volunteer

PROFESSIONAL SKILLS Idea Generation Hand Sketch, Sketch Up, Physical Model Visualization & Design Skills Rhino+Grasshopper, V-ray, ArcGIS, Lumion Adobe Creative Cloud Photoshop, Illustrator, InDesign, Premiere Pro, After Effect Documentation Auto CAD Others Microsoft Software, Financial, Marketing,Time Management, Chinese(Native Speaker), English(Proficient)

CONTENTS

Morgan Library Courtyard (Courtyard Scale)

page 4

Insert Life (Ecological Design)

page 10

New Student Precinct(Design for Thermal Comfort )

page 18

Performative Canopy (Digital Design)

page 24

Other Design Works • Grading & GIS Skills • Physical Model • Algae Treatment Installation • Sketch • Professional Work

page 30

+ Click to View landscape Thesis Design Website: https://wenjin.wixsite.com/landarch/thesisdesign

Laurel St.

Parmelee Hall

W. Plum St.

Music

LSC Theatre

NRRL Natural Resources

Comp Sci

Forestry

Industrial Sciences Lab Gibbons

Glenn Morris Field House

Johnson Hall Centennial Hall Student Services

Voc Ed

University Ave.

Morgan Library

South Dr.

Genetic Resources Preservation

NESB

B-Wing

South Dr.

Academic Village

Newsom Hall

Braiden Hall

Aylesworth Hall

C-Wing

Aspen

Engineering

University Greenhouses Observatory Weed Research Insectary Lab

Behavioral Sciences

Education

A Street

Animal Science

East Dr.

Eddy Hall Honors

Braiden Dr.

Edwards Hall

Ellis Dr.

Commons S. Shields St.

Military Military Science Annex

Shepardson Plant Science

Mason St.

Clark A-Wing

Hartshorn Health Center

S. College Ave.

Admin

East Dr.

Wagar Glover

Alder Hall

Heating

Isotope Dr.

Lory Student Center

Meridian Ave.

Moby Dr.

Oval Dr

Statistics

Engineering Center Student Recreation Center

Center Avenue Mall

Fum McGraw

C Wing

Oval Dr

Weber S. Shields St.

W. Plum St.

B Wing

ATC

Ingersoll Hall

Sage

Old Main Dr.

TILT

Indoor Practice Facility

Moby Arena

Routt

Spruce

Laurel Hall

Allison Hall

Green Hall

Mason St.

Corbett Hall

Guggen- Preconst. Center heim

OT Annex

under construction

Laurel Village under construction

Danforth Chapel

Ammons Hall

Oval Dr

Rockwell Hall

West Dr.

Westfall

Durrell Center

Meridian Ave.

Rockwell West

Bioengineering

Durward

Laurel St.

Palmer Center

Rembrandt Dr.

General Services Edison Dr.

Facilities Services North

Pitkin St. Pitkin St.

Micro

Visual Arts

Summit

Chemistry

Anatomy Zoology

Lake Street Greenhouses

Gifford

MRB

Center Ave.

Meridian Ave.

Holly Plant Environmental Research Center

Facilities Services South

Stock Pavilion

Physiology Biophysics

Alumni Center University Square

Yates Hall

Hall

Painter Center

Environmental Health

Pathology

Central Grounds Receiving

W. Lake St.

June 2013

Morgan Library Courtyard Campus Design Human Scale Outdoor Room Morgan library Courtyard is a project seeking for an appropriate solution for the inner courtyard study area. The existing design has been considered to be outdated. The new design proposal mainly focuses on applying elements of different elevation, including above human level, human level, ground level, underground level, to create a secure and relaxing courtyard environment. By increasing the composition richness of the site, the de-sign gives a new and fresh look to the library. The project went through design process from Schematic Design(SD) to Design Development(DD), then to Construction Documentation(CD). Academic Project Instructor: Pro. Brad Goetz Individual Project December 2015

Site Photo

Design Intend Library courtyard is an outdoor study and gathering space for students. Through increasing its composition richness, the design is intend to create a sense of secure and relax. The uniqueness of courtyard environment setting also requires scale thinking and thoughtful material selection.

Spatial Arrangement Analysis Planar Level

Vertical Level

Above Human Level: Canopy Tree to Provide Shading

2 Meters Radius for a Table

Human Hight Level: Seating & Structure

1 Meter Radius for Human

Ground Level: Soft edge to seperate spaces

Material Board Canopy Tree

Water Feature & Structure

a’

Ground Cover & Lawn Area

Pavement & Path

Site Context

Elevation a-a’

Landscape Documentation Note: Image Size Rescaled From 24*36 inch Paper Size

Insert Life Melbourne, Victoria, AU

Biodiversity Ecological Design Place Making Federation Square Esat (Melbourne) is the only remaining land in CBD, which provides a great opportunity for large parks(3.3 hectares) to play a role in urban context. This project discusses how landscape or natural can address the increasing challenge in our urban area. This project focus on bringing back native plant spices while seeking opportunities to increase overall urban biodiversity. Landscape Architecture has moved from creating a static picture to the landscape as flow and landscape as process. In the design, WUSD, Ecological Design, Biodiversity, and Programs are organized in a systematical way to achieve sustainable goals. It allows us to be prepared for extreme weather conditions and urban issues.

Urban Biodiversity "Cities are rapidly expanding world-wide and there is an increasing urgency to protect urban biodiversity, principally through the provision of suitable habitat, most of which is in urban green spaces." Urban Functions Events

Civic Space Holiday Celebration

Site History

Lunch

Commuter Intimate with Nature

Relax Economic Sustainability

Meeting

Jogging

The siteâ&#x20AC;&#x2122;s most character is that it is built on an elevated plate form, but has the potential to become a park linking to its adjacent green space. The load bearing contains limits the placement of canopy tree but suitable for native grass and shrub species. Native plant species generally have a better tolerant level and require less irrigation and fertilizer. Another challenge is to balance the needS for urban program and biodiversity. The ecological design approach considered both abiotic factors and spatial landscape pattern. The programs are carefully designated and windbreaker, larger inner core habitat, curvilinear edge habitat are established. The next phase will be let the biodiversity to emerge, and achieve habitat stability, such as food web.

Academic Project Instructor: Pro. Ray Green Individual May 2018

Pedestrian Movement View Line

Bike & Pedestrian

Urban Biodiversity

Climate zone 6 (Mild temperate)

Bio-region: Gippsland Plain Fed Square East Pre-1750 EVC: Plains Grassy Woodland Fed Square East EVC Number: 55

Eco-regions: Temperate broadleaf and mixed forests

Source: Victoria Bioregions and EVC benchmarks https://www.environment.vic.gov.au/biodiversity/bioregions-and-evc-benchmarks

Source: Department of the Environmental and Energy http://www.environment.gov.au/land/nrs/science/ibra/ australias-ecoregions

Urban Habitats Biodiversity Assessment Site Descriptor

Vegetation Structure Understory Lawn Mulch Cover Tree Alley Group of Trees Single Tree Shrub Patch

Urban Habitat Categories

Surface & Paved Areas Playground Sports Venue Impervious Pavement Stairs Path Sand Surface Street

Built Elements

Water Feature

Watercourse Train Infrastructure Pond Building Wall Retaining Wall Structure 0M 50M 100M Elevated Walkway Elevated Platform(Federation Square)

Trees and Shrubs N 200M

Forest phanerophytes evergreen Forest phanerophytes winter deciduous Forest phanerophytes winter deciduous / evergreen Forest phanerophytes coniferous Shrubby chamaephytes evergreen

Source: ABCB climate zones https://www.abcb.gov.au/Resources/Tools-Calculators/ Climate-Zone-Map-Victoria

Vegetation Layer

Terrestrial Herbaceous

Artificial Built Elements

Tall Trees

Built Structure With Vegetation Built Structure Without Vegetation Pavement With Vegetation Pavement Without Vegetation

Caespitose hemicryptophytes

Sparsely Vegetated Sand Aquatic

50M

100M

200M

One Vegetation Layer

Two Vegetation Layer

Other Surface Water Train Infrustructure Impervious Surface&Building Street & Path

Tall Shrubs and Small Trees Medium Shrub and Tall Herbaceous Plants

Small Shrub and Medium Herbaceous Plants Goundcovers and Aquatic Plants

Three Vegetation Layer

50M

100M

200M

URBAN

The Conflict

Cities have an enormous impact on ecological function at multiple levels. Numerous studies have documented that urbanization “fragments, isolates, and degrades natural habitat; simplifies and homogenizes species composition; disrupts hydrological systems; and modifies energy flow and nutrient cycling.” (Alberti 2005, 169).

Landscape As Process

NATURAL

Energy Flow

Stable Habitat

Landscape As Picture Sociability

Uses & Activity

Remaining Cover

Perforation

Intact

Access & Linkages

Comfort & Image

Ecological Design Approach Climate

Spatial Process

Dissection Fragmentation Shrinkage

Variegated

Topography Geology

Attrition

60%-90%

Low-High

10%-60%

Low-High

10%

Mostly High

“ Habitat Stability

Species Richness Boundary Flows Dispersal Diffusion

Abiotic factors

Composition

Structure

Low

Succession

Relictual

(Soil type and depth, water table) Vegetation richness & diversity Native Flora Species Habitat for Fauna

>90%

Fragmented

(Moisture, sunlight, temperature, wind) (Mountains, rivers)

Disturbance

Level of Modification

“ ”

Landscape Process

Population Dynamics Nutrient Cycling Predator-prey interactions Disturbance events

Ecological Processes

”

Landscape Patten

Spatial Heterogeneity Patch-Corridor-Matrix Model Vegetation Vertical Structure

Opportunity & Constrain The Confluence of Ecological Corridor&Public Destination Flinders Station

3.3 Hectare Urban Large park But need careful load bearing consideration for canopy tree

Railway Structure

Site

Carpark Art Precinct

Sports Precinct Parkland

0M 10M

30M

70M

Master Plan “Biodiversity as an agent in Urban context”

Urban

“Program + Natural + Circulation”

Nature

Conflicts & Separation

2 14

Inspired by Alluvial Rivers Nature Landforms, which is a Urban dominated land-form of the Gippsland Plain Break the boundary to Bio-region achieve sustainability

4 5

Patch-Corridor-Matrix Model Large Patch

Wind Breaker

12 10 9

Curvilinear Edge

Section A-A’

1. Art & Culture Centre 2.Comercial Building 3.Entry Plaza 4. Meadow Hill 5.Conservatory 6.Multipurpose Space 7. Sculpture Park 8. Playground 9. Wheelchair Access Ramp 10 Amphitheatre 11. Bridge Over Yarra River 12. Exploration Woodland 13. Upper Wood land 14. The Grass Wave 15. The “Billabongs” 16.Water Feature 17.Tourist Bus Drop-off

A’

[Detail Design 1]

Understory Planting Plan Aâ&#x20AC;&#x2122;

Location Map

Rain-garden&Bioswell Wind Breaker Grassland

Recreation Lawn Grassy Woodland A

N 0m 5m

15m

35m

Spatial Heterogeneity Strategy & Vegetation Vertical Structure Mass Planting Grass Species + Non-tufted Graminoid

Grassy Woodland

0.2M

Bosque Planting Tufted Graminoid + Flowering Understorey

0.3M

Grassland

Clump Planting Medium Herb + Small Shrub

0.4M

Understorey Tree Understorey Tree + Large Shrub

1.2M

Rain-garden Habitat

SECTION A-Aâ&#x20AC;&#x2122;

[Detail Design 2]

Form Generation

2’

9Meter Drop

AMPHITHEATRE

1’

VIEW&ACCESS

Art Precinct Perspective

MCG Yarra River

Government House 3’

EDGE HABITAT

Curvilinear Edge

Culture

Nature

TERRAIN

3 1 N Location Map

Section 1-1’

0m 5m

15m

CAR PARK

35m

Section 2-2’

Section 3-3’

DESIGN FOR THERMAL COMFORT

EXISTING THERMAL LEVEL

New Student Precinct, UniMelb, Victoria, AU SURFACE T EMPER A T UR E

Campus Climate Performance Data & Simulation The project explores how the climate factors and digital technologies & data simulation can reshape our design responses. It is a collaboration project between architecture and landscape architecture students. Building upon the competition winner(ASPECT Studio)’s experiences, our team started with a rigorous study of the site’s existing thermal performance. In responding to the challenge of 4 meters level drop and requirement for accessibility, the concept of Climate ‘Hemispheres’ provides thermal comfort for different program space at different time of a day and through out seasons. The selection of materiality and planting as well as the design of surrounding buildings all contributes to the design of surface temperature and wind performance.

1PM 11/20 /2017 1PM 10/16 /2017

St one Ti l e

Timber

L aw n

Br i c k

Measured Temperature

C onc r e t e

Co n c re t e

La w n

Wind Direction Along Major Transect

P o in t 3

SURFACE T EMPER A T UR E

P o in t 1

SITE PLA N

1 PM Oct . 16t h 2017

Radiant Heating

P o in t 5

Co o l

Humidity H um i d

P o in t 2

Co n c re t e

P o in t 4

1 PM Nov . 20t h 2017

H ot

Tile

Poi nt 10

TRANSECTION 3

Poi nt 8 TRANSECTION 3

Poi nt 9

Dry

P o in t 7 P o in t 6

Academic Project Instructor: Dr. Jillian Walliss Group Project (Landscape Architect: Wenjin Wang, Bonnie Gordon,Yuyan Huang, Architect: Jiqi Chen,Ruijun Li)

Tile

APPARENT TEMPERATURE(How do You Feel)

MATERIALS

Apparent Temperature Equation: AT=T+0.33e-0.7|U|-4 Data Collected on 21/11/2017

Specific Heat Capacity(J/kg K) The Higher = The Harder to Get Hot The Lower = The Easier to Get Hot)

837

Cooler Warmer

4000

1500

780

837

1000

800

Material Colour Tone

9AM

1PM

5PM

Thermal Conductivity Water Permeability

5PM

Evaporation

1PM

AIR TEMPERATURE

9AM

(T=Dry Bulb Temperature)

28.8c° 28.5c°

29.4c°

PM IN CR +4.5 EASE 7c°

PM D

ECR

-4.89

0.00

EASE

c°

29.2c°

28.7c°

CLAY TILE MULCH

27.5c°

30.8c°

28.6c°

29.7c°

30.3c° 31.2c°

29.2c° 29.7c°

30c°

46.8% 40.3% 35.0%

RELATIVE HUMIDITY (RH)

58.0% 40.1% 28.0%

70%

9AM 1PM 5PM

21%

31.3% 27.5% 22.9%

10 AM

2 PM

(|U|=wind speed)

1.9

5.3

0.05

0.1 4.1

5.7 4.1

3.5 2.5

2.0 0.02

0.05

9 AM

1.3 5.4

3.5

0.01 0.02

7.5

6.2 0.5

1.0

0.05

0.4

1 PM

5 PM HIGH

0.05

LOW

5.4

4 PM

OPPORTUNITIES

0.02

1.25

12 AM

32.3% 26.8% 22.3%

WIND SPEED

6.0

8 AM

68.9% 54.6% 49.1%

43.8% 29.7% 21.4%

0.02

33.78

59.3% 45.0% 39.5%

40.5% 36.4% 26.1%

0.34

HIGH

43.4% 37.8% 32.8%

(e=vapor pressure derive from dew point)

1.5

LOW

SHADOW

6 AM

8.3

STONE

30.8c°

HUMIDITY

0.02

CONCRETE

29.3c° 29.6c°

2.5

BRICK

Material’s Effect on Heat Level

22.98

2.5

LAWN

28.2c°

c°

0.00 -8.18 c° c° -1 AM 4.24c° DEC REAS E

1.2

WATER

Indoor/ outdoor transitions provide opportunities to increase thermal comfort through gradual temperature change

3.5 7.5 6.0 0.1

Main areas of interest/ opportunity act on the biggest differences observed in the site with existing energy relationships. Both are transitional spaces.

N 5M 20M 0M 10M 50M

OPTIMISING LANDFORM: THERMAL PERFORMANCE CRITERIA 1

Climate ‘Hemispheres’

Morning Sun Path

Afternoon Sun Path

S h a de Sun

Shade Sun

Encourage Summer Airflow and Re-direct Winter Wind

Avoid Canyon Effect During Winter Before

After Summer Wind: 6 meter/s;SSE

Winter Wind: 7.5 meter/s;N

Seasonal Climate Space

Summer

Wind Flow Back Semi-Outdoor Building

Shade & Water Feature

Wind Breeze

Surface Reflection

Wind Breaker

Water System

Winter

Solar Heating

Rain Water Recycle

Wheelchair Accessible Stair Accessible

NORTHERN HEMISPHERE

Spot Level

SOUTHERN HEMISPHERE Program Space

SITE AXONOMETRIC 5M 0M

20M 10M

50M

CLIMATE SPACE: NORTHERN HEMISPHERE

W i nt er af t ernoon

Summer af te r noon

CLIMATE SPACE: SOUTHERN HEMISPHERE

Performative Canopy Melbourne, Victoria, AU

Project Location

Base Line

University of Melbourne Parkville Campus

PERFORMANCE CRITERIA 1: SOLAR

Parametric Design Evolutionary Computing Optimisation

Parameter 1:Relocate the Controll Point of Each Curve Upper 2 Control Points Move in XYZ Direction Lower 2 Control Points Move in XY Drection

Performative Canopy Project takes advantage of weather data and digital tools as useful design guidelines and a rational supplement to design outcome. The canopy is built with grasshopper script and 2 changeable parameters and both winter and summer sunlight hours are set up for Galapagos to run evolutionary computing. Then take the digital model into Autodesk Flow design to test the wind performance.

Surface from Loft Metro Tunnel Parkville Station

Academic Project Instructor: Dr. Dominik Holzer Individual November 2017

PERFORMANCE CRITERIA 2: WIND

• Reduction of cold wind on pedestrian • Encourage air flow in summer (Decem

New Student Precinct

Project Site

Convert to Diamond Square Surface

Sun Angle

The Coffee Kiosk and performance criteria are designed to constrain the optimization process and are designed in a way that correlated to each other, not contradict each other. Without a constrains, the computer will only calculate to a canopy that covers the entire plaza and provides 50% shading and sunlight in winter and summer, which is boring and generic. The form-finding process went through 5 different stage. After investigating the sun angle and wind flow around the site location, the first base geometry was set up. Then using Galapagos and Flow design to optimize the performance criteria. It is not letting the computer design for me, but to understand the trend and what geometry can achieve better performance. The geometry is then manually changed based on previous test and key findings and a designer’s appreciation of an appealing canopy. By going back and forth between digital optimization and design, it leads to the final canopy and gains better control of design.

• Summer (December-March) Provide Shading for the Coffee Kiosk Rest • Winter (June -September) Provide Sunshine for the area at least 80%

51.60% of sunlight hours

The Original Triangle Panel

Program

New Panel System

12.68SQM Coffee Kiosk

73.8 SQM Resting Area

Parametrer 2: Rotate the trigulate panel The Further Corner of Each Triangle Panel Move in Z Direction

Form Finding Process Canopy 1

81.08% of sunlight hours Canopy 2

(Galapagos Seeking for Maximization of Winter Sunlight hours and Minimization of Summer Sunlight hours)

(Initial curve set up based on sun direction and winter wind direction)

Canopy 3

Canopy 4

Canopy 5

(The corner that touches the ground blocks wind & provide supporting structure)

(Change from 4 curves to 6 curves to redirect winter north wind)

Wind Direction

Winter Wind Rose (Mostly from north)

Summer Wind Rose (Mostly from south)

Summer

Winter

Area for 50% of time between 12-4pm

% of the time between 8-12am

Wind Tempreture

n level in winter (June -September ) mber-March) Wind Speed Winter Wind Flow Without Canopy

Summer Afternoon (December-March)

63.41 % of sunlight hours (the entire plaza)

Strong Wind Canopy Channels Wind Direction & Reduces Wind Speed

Pedestrian Level

Winter Morning (June -September )

Higher Level

s 61.24 % of sunlight hours (the entire plaza)

Industrial Fabrication Layer Diagram Trianglar Panle

Trianglar Panle Support Structure

Secondary Waffle Supporting Structure

Primary Edge Supporting Structure Touches the Ground

Base Surface Generated

Form Finding

Section B-B

Section A-A

Physical Model(1:20) Waffle Structure With Notch For Installation

Physical Model(1:100)

Grading Skill

GIS Skill Urban Growth Area (UGA) Planning in Melbourne

´ Criteria 1 Access to public transportation

Adm_LGA Major Roads Rail PTV TRAM ROUTE PTV BUS STOP

Criteria 2 Preserve our nature environment

Legend

Adm_LGA Major Roads Rail PTV TRAM ROUTE PTV BUS STOP Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

Legend

0 10 20

Kilometers 80

Major Roads Rail

PTV TRAM ROUTE PTV BUS STOP

0 10 20

Kilometers 80

Legend

Adm_Metro Major Waterarea Conservation Land Forest Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

´ 1.16 SQKM

Adm_Metro

E Hospital Locations

# * Health&Education Precincts Schools

[ Activity Centre Park & Recreation * Sport&Recreation Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

Adm_Metro

E Hospital Locations

# * Health&Education Precincts Schools

[ Activity Centre Park & Recreation * Sport&Recreation Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

Activity Centre Residential Growth Zone Low Density Residential Zone Industrial Areas

Park & Recreation * Sport&Recreation

2.98 SQKM 3

Legend

Adm_Metro Erosion Management Overlay Vegetation Protection Overlay Flood Zone Bushfire Overlay Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

Legend

2.07 SQKM

Adm_Metro

Adm_Metro Erosion Management Overlay Vegetation Protection Overlay Flood Zone Bushfire Overlay

Activity Centre Residential Growth Zone Low Density Residential Zone Industrial Areas

´ SQKM 25.38 Legend

Legend Adm_Metro

[

[ Activity Centre

Adm_Metro

# *

[

Legend

Adm_Metro E Hospital Locations Health&Education Precincts Schools

´ Legend

Adm_Metro Major Waterarea Conservation Land Forest

Legend

Adm_Metro Major Waterarea Conservation Land Forest

Legend

Criteria 3 A dynamic and attractive city

Adm_LGA

1 Legend

Activity Centre Residential Growth Zone Low Density Residential Zone Industrial Areas

Adm_Metro Erosion Management Overlay Vegetation Protection Overlay Flood Zone Bushfire Overlay Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

eters

Criteria 4 Employment and development opportunity

Legend

Adm_Metro Major Waterarea Conservation Land Forest

Adm_Metro

E Hospital Locations

# * Health&Education Precincts Schools

[ Activity Centre Park & Recreation * Sport&Recreation Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

Metropolitan Melbourne

Adm_Metro

E Hospital Locations

# * Health&Education Precincts Schools

[ Activity Centre Park & Recreation * Sport&Recreation

Legend Adm_Metro

[

Activity Centre Residential Growth Zone Low Density Residential Zone Industrial Areas

Metropolita Activity Centre Major_Roads

Adm_Metro

[

Rail Line

Legend

Legend Activity Centre Residential Growth Zone Low Density Residential Zone Industrial Areas Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

Criteria 5 Landscape factors Legend

Urban Growth Area

Legend

Adm_Metro Erosion Management Overlay Vegetation Protection Overlay Flood Zone Bushfire Overlay

Major Waterarea

Major river Flood Zone Low Residentail Densitiy & Residential Growth Zone

Industrial Areas Park & Recreation Space Vegetation Protection Zone

Legend Adm_Metro Erosion Management Overlay Vegetation Protection Overlay Flood Zone Bushfire Overlay Esri, HERE, DeLorme, MapmyIndia, © OpenStreetMap contributors, and the GIS user community

Kilometers 40

Forest

Based on the data collected that is relevant to the 5 important criteria of spatial decision-making in urban development in Melbourne then and apply the Fuzzy Overlay tool to create a UGA map for metropolitan Melbourne. The right side showing 4 potential area that is suitable for development.

Sources: Esri, DeLorme, USG

Physical Models

Topography Study,Loess Plateau,China

Landscape History,Teotihuacan,Mexico

Hong Kong Island Urban Form Study Gain From the Model: The morphological conditions around the Central Harbour Water Front is highly compacted urban context. The site is isolated from the surrounding landmarks and underutilized, while in contrast, Kowloon side is consider as a tourist destination because of its better view of the harbour and a better space for people to stay.

Algae Treatment Installation

PLANTS ASH COCONUT COIR (Chemical Control Method) (Physical Control Method)

COCONUT FIBRE (COMPACTED)

Rotala rotundifolia Pink Rotala (Biological Control Method)

Floating Ring

Sketches

From Travel & Practice

Professional Work Diagram & Rendering

Wenjin Wang 

CONTACT +61 481 976 831 wenjin.wang@outlook.com

+ Click to View Landscape Thesis Design Website: https://wenjin.wixsite.com/landarch/thesisdesign

+ Separate Construction Documentation portfolio is available upon request