Wan Amirul Izat Razali by Wan Amirul Izat

SLIGHTLY BUT DIFFERENT.

FACTORING X SELECTED WORKS BY

WAN AMIRUL IZAT M.ARCH , 24 UNIVERSITY OF ADELAIDE, 2017

TABLE OF CONTENTS

1. CV

4-5

2. RETHINKING AUSTRALIAN PRIVACY

6-9

3. SPIRIT OF THE LOCALITIES

10-15

5. SURREAL MORPHOGENESIS

14-15

6. STUDENT COOP

16-21

7. RECONSTRUCTING THE INEFFABLE

22-29

8. THE COMEDY CULT

30-35

WAN AMIRUL IZAT

Introduction

amirulizatraza

Personal Interests

Malaysian-born Wan Amirul Izat holds Master degree from University of Adelaide and known for his design flair and taste. He holds experience in both theoretical and practical projects and recognized by his peers and clients for finding the balance between these two. His works have been regularly selected for his school exhibition. In addition to his school projects, he has also involved in the architecture projects such as the residential buildings in Kuwait and BCB Hongqiao restaurant in China.

Achievements

He looks forward to share his passion with the architectural firms in Malaysia and determined to pave his way in becoming an influential designer in the architectural field.

Second Prize Winner Lesley Lynn Affordable Housing Competition School of Architecture 2017 For the project titled “The Student Coop”

Personal Philosophy

High Distinction for Final Architecture Project School of Architecture 2016 For the project titled “The Comedy Cult”

Coming from a humble background, the words from the movie Ratatouille ‘not everyone can become a great artist, but an artist can come from anywhere’ have always inspired him to push the future boundaries in architecture forward while still maintaining his roots.

Education Australian Matriculation Programme (AUSMAT) KBU International College 2010-2011 Bachelor of Architecture University of Adelaide 2012-2014 Master of Architecture University of Adelaide 2015-2016

Artist Profile On Dit Magazine University of Adelaide 2016 Artworks are being extensively featured in school magazine. Winner of All-In Poster Competition School of Architecture 2014 Winner of university’s All-In Poster for exhibition. Golden Key International Honors Society Golden Key Society 2013 Ranked top 15% in the class. JPA Scholarship Malaysian government 2010 Scholarship awarded to top Malaysian students. First Place Portrait Competition MRSM 2009 Won first place in nationwide portrait competition. Second Place National Landscape Painting Competition MRSM 2007 Placed second overall in the landscape painting open competition.

ali

izataichou@yahoo.com

B 205 Taman Setia, Bandar Al-Muktafi Billah Shah, 23400 Dungun, Terengganu.erengganu.

019-9736306

Technical Abilities Strength

Autodesk AutoCAD Autodesk Revit Adobe Photoshop Adobe Illustrator Adobe InDesign Rhinoceros (4,5)

Part-time Graphic Designer Bellagio Limousines December 2014- February 2015 (2 months ) Task: • Produced graphic works for the limousine company based in Perth including overseeing the images on the company’s website and preparing the catalogue to be presented to the clients Part-time Assistant Cook Roshans Noodle Bar February 2014-December 2014 (9 months ) Task: • •

Helped the chefs to prepare the vegetables and meat Required to be well-presented and having good conversation skill to wait the counter

Autodesk 3ds Max (2013-15) IESVE

Working Experience Freelance Designer, Visualizer and Illustrator Freelancer.com December 2014- March 2015 ( 4 months ) Tasks: • Interpreted clients’ requirements and made sure the tasks were done under the given time and cost. • Worked for the architectural designers to realistically visualize the buildings to be presented to the clients • Documented the projects in Autodesk Revit and AutoCAD for the construction purposes Projects involed: • Residential houses in Riffa, Bahrain • BCB Hongqiao in Shanghai, China • French House in Sydney, Australia

Referees Dr Urs Bette Senior Lecturer School of Architecture and Built Environment The University of Adelaide SA 5005 Australia Phone :+61 8 8313 4590 E-mail:urs.bette@adelaide.edu.au Mirai Morita Lecturer School of Architecture and Built Environment The University of Adelaide SA 5005 Australia Phone :+61 8 8313 4588 E-mail:mirai.morita@adelaide.edu.au Professor Julian Worrall Associate Professor School of Architecture and Built Environment The University of Adelaide SA 5005 Australia Phone :+61 8 8313 4036 E-mail:mirai.morita@adelaide.edu.au

RETHINKING AUSTRALIAN PRIVACY

How much privacy is enough for Australians?

to allow for public urban activities to take place on the ground level.

The design research explores the potential of infiltrating the agreeable amount of privacy among the Australian residents.

The houses are finished with minimal look of finished concrete and timber cladding, while the timber deck invites urban activities to unfold.

Sited in a very urban space, the houses are arranged in such a narrow arrangement not only to bring new wave of thin and carefully thought spaces a la Japanese but

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Second Level Plan

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Third Level Plan PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODES

K EDUCATIONAL PRODUCT

SK EDUCATIONAL PRODUCT

Section A-A’

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Section B-B’

Section C-C’

PRODUCED BY AN AUTODE

SPIRIT OF THE LOCALITIES

Based on a study of aggregation, the project aims to break the archetypical building blocks guided by the need of maximizing profit. The aggregation, while understandably results in floor spaces not maximized, allows for unique architectural spaces and increase the real estate value. The aggregation allows benefit the buildings through the sunlight penetratation and wind circulation through removal of certain blocks that improve greatly the quality of building.

The project consists of University of Adelaide student housing, whose targets are well-off students who can afford the luxurious student apartments strategically located within city campus. 200 individual units and 25 family apartments make up the majority of the spaces, while the rest are rooms and functions that support the system.

DESIGN ELEMENTS

Lift cores and light tunnels

Timbe r deck structures

Single unit types

Bathrooms

Common spaces

External circulation

Single units

Apartments

Ground level common spaces

Apartment unit types

apartment apartment exercise room with locker

room

apartment

room

active lounge

room

housekeeping servie

room multipurpose study hall

storage

B lobby

directors apartment

room room

room

study lounge

apartment

outdoordining area

room

apartment

bathroom

dining area

cafe storage

room room

GROUND PLAN 1:500

room

bathroom

room apartment

study lounge

room

apartment room

room

bat hroo m

room

active lounge

room

acti ve loun ge

apartment

room

room apartment apartment

room

apartment

TYPICAL FLOOR PLAN 1:500

room

room apartment

room

bath room

room

bathroom room

room

study lounge

computer room and study lounge room

apartment

room

acti ve loun ge

room

apartment

BLOW UP OF TYPICAL FLOOR PLAN SHOWING DETAIL 1:100

SURREAL MORPHOGENESIS





   



15 

RECONSTRUCTING THE INEFFABLE

We always revolve around some-

MEETING PLANNING MEETING PLANNING REQUIREMENTS REQUIREMENTS

thing than a constant We always revolve aroundbigger something bigger than usus at DESIGN IDEATION as a constantreminder reminder there arethere forces beyond our are forces beyond control in this universe. It is a universal cosmic belief, control in and Unitingour House International portrays this this universe, it phenomenon through architecture. is a its universal cosmic belief, and

Corner Treatment

Uniting Internatinal portrays Can we mantain this identity inHouse order to construct a new one? With the growing number of irreligious this phenomenon through its archipeople, bringing a sacred quality into architecture that people tecture, often use will revitalize the waning faith among the public.

Meeting Planning Requirements

Curved corner treatment

Core

2-hour residential sunglight

External Circulation

Corner Treatment

North

MAIN STRUCTURE & Car park access MAIN STRUCTURE MATERIAL AND MATERIAL

Varying Space Proportion

Awning Widow

Opening up Penaluna Place

Concrete Structure forround pedestrian with columns

UNITING COMMUNITIES REDEVELOPMENT

GREEN

APPROACH Curved GREEN corner APPROACH treatment Shading device Proposed Building height =56m

Minimum Building height in CBD=23m Project Adress

Corner of Franklin and Pitt streets, AdelaideRamps SA 5000 Sheet Name

esign Intent

Concrete Stud Wall

Programs Unnamed

16 Date

26/5/2016

Cir

Gene

OKING SPIRITUAL URNEY Project

Car park access

Apartments

Arium

FLOOR

he building is a mixed-use building located in the heart of delaide CBD, South Australia. Commissioned by Uniting ommunity, the building serves as social spot with funcons include retail, office , residential and social hub. The mperate climate zone the building is subjected to expeenced hot summer season during December-February nd relatively cold winter during June-August.

Opening up Penaluna Place for pedestrian use

FLOOR

Can we maintain this identity in order to constructNo. a new one? WithDate Description Reconstruction of the Ineffable the growing number of irreligious Architectspeople, bringing a sacred wuality into architecture that people often use will revitalize the waning ocation faith among the public.

EVO JOUR

Circulation General circulation

Forms of circulation

Lift core stairs

Stairs in ht function space

Ramps

Zoning

North

We always revolve around something bigger than us as a constant reminder there are forces beyond our control in this universe. It is a universal cosmic belief, and Uniting House International portrays this phenomenon through its architecture.

DESIGN IDEATION

MEETING PLANNING REQUIREMENTS

Corne

Can we mantain this identity in order to construct a new one? With the growing number of irreligious people, bringing a sacred quality into architecture that people often use will revitalize the waning faith among the public.

Opening up Penaluna Place for pedestrian use

Car park access

Core

EVOKING SPIRITUAL JOURNEY

2-hou sungli

MAIN STRUCTURE AND MATERIAL Varying Space Proportion

Awning Widow

GREEN APPROACH

Concrete Structure with round columns

Shading device North

Ramps

Concrete Stud Wall

Arium

FURRING CHANNEL AND CLIP BASE ANGLE FIXED TO SLAB HEX HEAD SCREW STEEL STUD FRAMING SYSTEM 10MM PLASTERBOARD

137

137MM CONCRETE SLAB STEEL TRACK

SEALANT AND BACKING ROD

BACKING ROD AND SEALANT WOOD SUPPORT SEALANT

STUDwall WALL DETAIL Stud detail

STEEL STUD FRAME 75 MM PRECAST CONCRETE FIBRE CEMENT SHEET GALVANIZED STEEL CAPPING TOP HAT CHANNEL

Recycled steel stud frame Reconstrituted precast concrete

PARAPET DETAIL 1 PARAPET DETAIL

75MM PRECAST CONCRETE COATING FINISH

92MM STEEL STUD

FUNCTION SPACE MATERIAL Function Space Materials In order to evoke the traditional feeling inside the function space where people gather,reused materials are extensively used.

187

72 LIME CONCRETE Potential TERRACING

Green Star

WATERPROOFING MEMBRANE

COATING SYSTEM

Glass Roof

2 ROOF DETAIL

Reused timber

COATING SYSTEM TOP HAT CHANNEL 10 X 100MM BUGLE HEAD SCREW 75MM PRECAST CONCRETE RIGID INSULATION STEEL STUD WALL FRAMING SYSTEM WATERPROOF MEMBRANE Reused WALL TAPE 140MM CONCRETE EDGE BEAM REINFORCEMEN T BAR BETWEEN EDGE BEAM AND SHADING DEVICE DOUBLE GLAZING SYSTEM (2 X 3MM CLEAR GLASS FLOAT AND 6MM ARGON AIR GAP

3 EXTERIOR WALL TO SHADING DEVICEDETAIL

concrete aggregate as wall the evoke the rough texture Reused stressed concrete

Mat. 5 Concrete = 1 Point

Franklin St

GROUND PLAN 1:500

GROUND PLAN 1:500 . REF

REF.

. REF

REF. . REF

REF.

. REF

REF.

15F

GROUND PLAN 1:500 60000 14F

NGLE FIXED TO SLAB

56000

REF.

G CHANNEL AND CLIP

13F

AD SCREW

52000

TUD FRAMING SYSTEM

LASTERBOARD

12F 48000

CONCRETE SLAB

RACK

GROUND PLAN 1:500 11F

44000 10F

40000 9F 36000

T AND BACKING ROD

8F 32000 7F

ONCRETE SLAB

28000

WALL

6F 24000 5F 20000

MM PRECAST ONCRETE

4F 16000

OATING FINISH

3F 12000

MM STEEL STUD

LIME CONCRETE

ERRACING

8000

ATERPROOFING EMBRANE

4000

Ground Floor 0

OATING SYSTEM

UG1 -6000

L UG2

LONG SECTION 1:500

-12000

HVAC SYSTEM

HVAC System The design used Centralized Plant Room on top of both buildings, one servicing one tower for efficiency. The plant room size used is 150m2 for both since the floor area of serviced region is 1350m2 and 1575m2. Potential Green Star Potential Green Star

FAN COIL UNIT SYSTEM Fan Coll System

IEQ 1 Ventilation Rates = 3 Points IEQ 2 Air Change Effectiveness = 2 points

Plant Room =150m2 =4.7m

---

Plant Room

Carpark Ventilation

Adjacent Building

Cark park supply 4m

Carkpark

Ceiling suspended Fan Coil Unit Carkpark

Supply Air duct Return Air Duct Cold Water Hot Water

NOISE REDUCTION STRATEGY

Noise Pollution

Reconstruction of the Ineffable

Noise Reduction Strategy Noise Pollution

Noise Level Noi

<=50

<=55

<=60

<=65

Noise Level Noise in DB Level in DB

Through Distancing

<=50

<=55

<=60

<=65

<=75

35DBa 40 DBa 40 DBa Franklin Street

<=50

50 DBa 55 DBa

$FFRUGLQJ WR WKH

noisy place of site

St and Pitt St. Stro

WUDIÂ¿F RQ )UDQNOLQ

site also contribute

+LJKHVW QRLVH OHYH

/RZHVW QRLVH OHYH

It is essential to h

WKLV VLWH HVSHFLDOO

35DBa $FFRUGLQJ WR WKH $GHODLGH QRLVH PDS WKH PRVW noisy place of site is the junction between Franklin St and Pitt St. Stronge noise comes from the heavy WUDIÂ¿F RQ )UDQNOLQ 6W +XPDQ DFWLYLWLHV DURXQG WKH site also contribute to the noise level.

+LJKHVW QRLVH OHYHO '% )UDQNOLQ 6W

Through Material /RZHVW QRLVH OHYHO '% 3LWW 6W

Materials use need to withstand the noise of 28DB for the residentials is essential to have noise decreasing design on along Pitt Street while the ones facing Franklin StreetItWKLV VLWH HVSHFLDOO\ WKH QRUWK VLGH needs to be able reducing noise by 18DB.

Potential Green Star

REF. REF.

IEQ 12 Internal Noise Level = Point

REF. REF.

Intertenancy Wall Exterior wall Internal Wall

THE COMEDY CULT

B B

THE STUDENT COOP

FORM GENERATION

MAXIMIZING SOCIAL POTENTIAL

INTRODUCING NEW VOLUME PROTOTYPE FOR FLEXIB-

Our design strength lies on three major strategies, i.e. social, environmental and economical.

COOP

CONCEPT DIAGRAM

Existing connections Single unit prototype allows The architecture of chicken Adding more In terms of social, the spatial poimproved before plan for spatial flexibility in terms volumes to the sides of coop is studied tential of chicken coop is studied as of arrangement social space it is one of the most well known anFo imalOurarchitecture. Itthree also a social, environmental design strength lies on majorbecomes strategies, i.e. metaphorical and economical.union between human and Social animal, a relationship that manifests space CONCEPT DIAGRAM In terms the spatial potential of chicken coop itself asof social, a mutualistic symbiosis on is studied as it is one of Existing connections are Single unit prototype allows The architecture of chicken Adding more Social space the most well known The animalprivate architecture. It also becomes a metaphorical union Roseworthy site. and social improved before planning for spatial flexibility in terms volumes to the sides of CONCEPT DIAGRAMcoop is studied of arrangement social Energy Analysis Report Existing connections are In order to m Singlespace unit prototype allows The architecture of chicken Adding more between humanthat and animal, compartments area relationship common that inmanifests the itself as a mutualistic improved before planning on the narro volumes to the sides of for spatial flexibility in terms is studied on Roseworthy The privatehousing. and social compartmentscoop that are of arrangement and single vo social space coopsymbiosis are adapted intosite. student Footpath Ourcoop design strength liesinto on student three major strategies, i.e. social, environmental while allowin common in the are adapted housing. The materialandof chicken coop which is take place economical. Footpath Ourwire design strength lies on three major strategies, i.e. social, environmental cage is translated into architecand economical. The materialInofterms chicken coop which is wire cage is translated into architecture of social,as the spatial potential chicken coop is studied as it is one of ture as wire mesh, means of ofproSocialunion New volumes Social as wire mesh,the asmost means protecting whileIt allowing visual connectivity Social Social space space wellof known animal privacy architecture. also becomes a metaphorical Social space of New volumes tecting privacy while allowing visual In terms of social, the spatial potential of chicken coop is studied as it is one of chickens of the inside.between human and animal, a relationship that of space manifests itselfspace as a mutualistic Social space the inside. the connectivity most well known animalof architecture. It also becomes a metaphorical union symbiosis on Roseworthy site. The private and social compartments that are

COOP COOP

Energy Analysis Report

between human and animal, a relationship that manifests itself as a mutualistic Energy Analysis Report common inwhich the coop are adapted into student housing. The second strategy, isand environmental, thermally efficient prefabricat- ROSEWORTHY CAMPUS WIND ANALYSIS symbiosis on Roseworthy site. The private social that are The ed second strategy, which iscompartments environEnergy Analysis Report panels are proposed the main construction system of the whole design. ROSEWORTHY CAMPUS WIND ANALYSIS MONTHLY WIND ROSE common in the coop are adapted intoas student housing. The material ofischicken coop which is wireand cagesustainable is translatedfor into architecture mental, thermally prefabriStructural insulated panelefficient eco- friendly, efficient economas wire mesh, as means of protecting while allowing visual connectivity Social space of panels are proposed ashousing. theprivacy New volumes Social space icalofyet extremely comfortable student Thecated material chicken coop which is wire cage is translated intomain architecture Annual Wind Rose (Frequency Distribution) chickens of the inside. construction systemprivacy of while theallowing whole as wire mesh, as means of protecting visual deconnectivity Social space of New volumes Social space chickens of the inside. sign. Structural insulated panel isglazing The orientation slightstrategy, north -eastern facing units, calculations The of second which is environmental, thermallysize efficient prefabricat- ROSEWORTHY CAMPUS WIND ANALYSIS Energy Analysis Report arrangement ofefficient the buildingsasare suited to maximise during eco-andfriendly, and sustained panels are proposed theall main construction systemsunlight of the whole design. MONTHLY WIND ROSE The second strategy, which is environmental, thermally efficient prefabricat- ROSEWORTHY CAMPUS WIND ANALYSIS Structuralnatural insulated panel is ecofriendly, efficient and sustainable for economfacilitate ventilations during summer. ablewinter forand economical yet extremely comEnergy Analysis Report ed panels are proposed as the main construction system of the whole design. MONTHLY WIND ROSE ical yet extremely comfortable student housing. Annual Wind Rose (Frequency Distribution) fortable housing. Structural insulated student panel is eco- friendly, efficient and sustainable for economThe goalcomfortable is to celebrate simple and sustainable design housing and by learning ical yet extremely student housing. Annual Wind Rose (Frequency Distribution) The orientation of slight north -eastern facing units, glazing from the basic construction of animal shelter, it is possible to live onsize thecalculations earth and arrangement of the buildings are all suited to maximise sunlight during gentlyof forming a responsible part of the ecosystem The orientation slight north -eastern facing units, glazing size calculations winter and facilitate natural ventilations during summer. and arrangement of the buildings are all suited to maximise sunlight during winter and facilitate natural ventilations during summer. The goal is to celebrate simple and sustainable design housing and by learning Monthly Wind Roses from the basic construction of animal shelter, it is possible to live on the earth The goal is to celebrate simple and sustainable design housing and by learning gently forming a responsible part of the ecosystem from the basic construction of animal shelter, it is possible to live on the earth gently forming a responsible part of the ecosystem

Footpath/ minimal vehicular access

SUN TESTING

SUN TESTING INTERIOR

WINTER

SUMMER

TESTING SUN TESTING:SUN INTERIOR INTERIOR SUN TESTING SUMMER INTERIOR

Monthly Wind Roses

Prevailing winds comes from South West during summer months Monthly Design Data

Monthly Wind Roses

SUN SUNTESTING TESTING: EXTERIOR 5

SUN TESTING WINTER

SITE

Prevailing winds comes from South West during summer months Monthly Design Data

SITE

WINTER

SUMMER

SITE

Prevailing winds comes from South West during summer months 5

Monthly Design Data

Annual Temperature Bins

Biosw

Annual Temperature Bins Annual Temperature Bins

Bioswales

9AM

Bioswales 6

9AM

Existing Carpark

SUMMER SHADOW

9AM

The north-facing are shaded during summer SUMMER walls SHADOW

9AM

The north-facing walls are shaded during summer

SUMMER SHADOW

The north-facing walls are shaded during summer

9AM

12PM

4PM

12PM

4PM

12PM

4PM

Prevailing winds

4PM

12PM 12PM 12PM

4PM 4PM

4PM

1 UNIT STUDY- ENVIRONMENTAL RESPONSE

North ENVIRONMENTAL glazing size was determined by calculation using ‘Glass 1 UNIT STUDYRESPONSE to thermal mass ratio’ . This is to avoid overheating of the

WINTER SHADOW

The north-facing walls are not shaded during winter (shadows form on units does not affect adjacent buildings due9AM to arrangement)12PM WINTER SHADOW WINTER SHADOW The north-facing walls are not during winter form during winter (shadows form Theshaded north-facing walls(shadows are not shaded on units does not affect adjacent buildings due to arrangement)

9AM 4PM 9AM

on units does not affect adjacent buildings due to arrangement)

All units are orientated 15 degree to north east to maximize winter morning sunlight’s penetration to to ease ventilation during summer as All units 12pm are orientated 15 degree meanwhile to north east

12PM

SITE PLAN | 1: 4PM

SITE PLAN | 1:1000

SITE PLA

nit prototype allows al flexibility in terms gement

Existing connections are improved before planning

IMPROVING EXISTING CONNECTIVITY Social space

The houses are connected by trails that lead to common spaces, allowing efficient flow of movement

In order to maximize the land use, especially on the narrower part of site, the mix of double and single volumes allow optimised land use while allowing environmental strategies to FORM take place

Footpath

OVERALL AXONO

EASED CIRCULATION

GENERATION

Footpath Footpath/ minimal vehicular access

Social space

Common space

Footpath/ minimal vehicular access

Common space

Garbage Collection Point

West during summer months

Access to North Carpark

Permeable paving

1 UNIT CLUSTER

BBQ Area

Limited vehicle access Bioswales

Native vegetation landscape

Sh a

re d

Hub 6

MUDLA WIRRA ROA

Existing Carpark

Prevailing winds 12PM

4PM

DETAIL PLAN 1 UNIT CLUSTER Hub

BBQ Area

Garbage Collection Point

Access to South Carpark

12PM

4PM

SITE PLAN | 1:1000

1:200

Native 4PM

vegetation landscape

Sh ar ed

Ac c

Hub 6

1 UNIT CLUSTER

2 STOREY UNIT CLUSTER Prevailing winds

9AM

12PM

D MUDLA WIRRA ROA

EVRIONMENTAL AND ECONNOMICAL 1 UNIT STUDY- ENVIRONMENTAL RESPONSE RESPONSES

Existing Carpark

North glazing size was determined by calculation using ‘Glass to thermal mass ratio’ . This is to avoid overheating of the unit

4PM

1 unit cluster are a shared small kitch

2 storey unit clust DETAIL with a shared kitc cess by a staircase 1 UNIT case used as garb Hub Source: Baggs & Mortenson 2006 Glass to mass ratios in Australian cities.

12pm

For Adelaide’s temperate climate, double glaze glass will be Area 17% of the floorBBQ area. 1220 X 2134 m glazing were installed Garbage Collection on the North wall according to calculation Point

9AM

12PM

winter sun path

1:200

1 UNIT CLUSTER

lestory w

There were 3 stu rooms, public toil Winter

Access to South Carpark

DETAIL PLAN

air rc Family unitHot is the leased th en are not needed

2 STOREY UNIT CLUSTER 4PM

SITE PLAN | 1:1000

STRUCTURAL INSULATED PANEL

Concrete slab floor act as therm mass to store heat during winte

STOREY UNIT CLUSTER

nt through gutter nk

COMMON

LEVEL 2

Hot a celes

Wiremesh act as privacy screen f balcony yet still allow 98% winte sun’s penetration, the pole is use support the overhang roof

LEVEL 1

gree to north east to light’s penetration n during summer as outh West

successfu

FLEXIBILITY Unit types are va space arrangemen arranged in the ea shadow casted on light for all cluster

6 ROOM 4 16 m²

SIP roof /floor stacked on SIP wall

7 m² ROOM 5

TOILET

WARDROBE 12 1 m²

TOILET

ATRIUM

4 m²

15 4 m²

WARDROBE

4 m²

16 m²

1 m²

EXPLOD 1 unit cluster are arranged in three unit, each cluster consist of shared small kitchen and lounge.

Gutter southern view for social interaction front and back of housing Openable 30% lower awning of double glaze window

en by 50t, sustain-

2 STOREY UNIT CLUSTER

2 storey unit cluster consist of 4 units room SIP iskitchen prefabricated moduleslounge. that reduce construction with a shared and mezzanine The level 2 ac- time taken by 50SECTION 1:250 70% of conventional building framing system. cess by a staircase in each|cluster. Small space under the They stair- are efficient, sustainable and eco-friendly case used as garbage collection point. Wall Thickness: 215 mm - (11mm OSB , core Polystrene -EPS) : 5.784 Family unitR-Value is the cluster of double 2 storey units. Shared kitchen are not Indoor needed.Air Quality : SIP does not contain VOC, adhesive use for joining is not from formaldehyde. value : Airtight construction SIP contributes to excellent There wereAcoustic 3 student hubs that has meeting of rooms, study sound absorbing properties rooms, public toilets, student lounge, co-op and laundry. Thermal Efficiency: Big reduction in thermal bridging compared to conFLEXIBILITYventional construction : long term energy cost offset,the speedy easy construction conUnit types Cost are varied by level to maximise site’sand narrow tribute toand huge labour. 1cost space arrangement to reduction maximise of sunlight level units are efficiency minimises off-cut, surplus or arranged inMaterial the eastern site so:itPrefabricated would reduceplanning winter morning wasteonmaterials. This reduces impact on landfillsunand the environment. shadow casted units at western site thus maximising light for all clusters. Thermal Efficiency of SIP compared with traditional timber framing system

Prevailing wind from south west

Timber framing R-rating 2.5

Fresh cool air drawn from openable lower window facing south west

joining is

LEVEL 1

concrete slab

Underground water tank for rainwater collection, rainwater used for toilet flusing system

llent

weather membrane plasterboard

d to con-

Wiremesh screen

on con-

urplus or nits that renment. er sun on small e ventilation) as

SIP (Structural insulated panel) Timber weatherboard cladding

W COMMON

LEVEL 2

ROOM

4 WARDROBE

4 m²

1 m²

TOILET ATRIUM

4 m²

WARDROBE

16 m²

14 1 m²

ting 2.5

SIP R-rating 4.0 Thermal efficiency as they are less thermal bridging due to way SIP constructed

5 TOILET

Every frame member contribute to ‘Thermal Bridging’

7 m²

ROOM 16 m²

Heat Loss Heat Gain

Source: https://www.sipsindustries.com.au/

2 STOREY

WINTER SHADOW

The north-facing walls are not shaded during winter (shadows form on units does not affect adjacent buildings due to arrangement)

12pm

9AM

12PM

4PM

SITE PLAN | 1:1000

STRUCTURAL INSULATED PANEL

All units are orientated 15 degree to north east to maximize winter morning sunlightâ&#x20AC;&#x2122;s penetration meanwhile to ease ventilation during summer as prevailing wind comes from South West Rain drops on slanted roof went through gutter and stored in underground tank

SIP stac

summer sun path

Summer sunlight shaded by overhang roof

SIP is prefabricated m 70% of conventional b able and eco-friendly Wall Thickness: 215 m R-Value : 5.784 Indoor Air Quality : SI not from formaldehy Acoustic value : Airtig sound absorbing prop Thermal Efficiency: Bi ventional constructio Cost : long term ener tribute to huge reduc Material efficiency : P waste materials. This

rises up to ceiling rehrough openable cewindow

sunlight penetrates ully on level 1 and 2

Gutter southern view for social interaction front and back of housing Openable 30% lower awning of double glaze window

air released through story window

for er e to

Thermal Efficiency of SIP c

Prevailing wind from south west Fresh cool air drawn from openable lower window facing south west Underground water tank for rainwater collection, rainwater used for toilet flusing system

mal er

W Timber panels are added to certain units that requires shading device to shade summer sun on small western window (function to facilitate ventilation) as well as eastern window

EXPLODED STRUCTURE AND MATERIAL 1 unit cluster are arranged in three unit, each cluster consist of shared small kitchen and lounge. 2 storey unit cluster consist of 4 units room with a shared kitchen and mezzanine lounge. The level 2 access by a staircase in each cluster. Small space under the staircase used as garbage collection point. Family unit is the cluster of double 2 storey units. Shared kitchen are not needed.

2 STOREY UNIT EXPLODED DIAGRAM

Source: https://www.sipsindustr

corrugated steel deck

timber batten

There were 3 student hubs that has meeting rooms, study rooms, public toilets, student lounge, co-op and laundry. FLEXIBILITY Unit types are varied by level to maximise the siteâ&#x20AC;&#x2122;s narrow space arrangement and to maximise sunlight . 1 level units are arranged in the eastern site so it would reduce winter morning shadow casted on units at western site thus maximising sunlight for all clusters.

concrete slab weather membrane plasterboard Wiremesh screen SIP (Structural insulated panel) Timber weatherboard cladding

CONCEPT DIAGRAM The architecture of chicken coop is studied

Existing connections are improved before planning

Single unit prototype allows for spatial flexibility in terms of arrangement

Adding more volumes to the sides of social space

Footpath

gn strength lies on three major strategies, i.e. social, environmental omical.

of social, the spatial potential of chicken coop is studied as it is one of well known animal architecture. It also becomes a metaphorical union human and animal, a relationship that manifests itself as a mutualistic s on Roseworthy site. The private and social compartments that are in the coop are adapted into student housing.

The houses are connected by trails that lead to common spaces, allowing efficient flow of movement

In order to maximize the land use, especially on the narrower part of site, the mix of double and single volumes allow optimised land use while allowing environmental strategies to take place

OVERA

Social space Energy Analysis Report

Footpath/ minimal vehicular access

erial of chicken coop which is wire cage is translated into architecture mesh, as means of protecting privacy while allowing visual connectivity side.

Social space of chickens

New volumes

Social space

Common space

ROSEWORTHY CAMPUS WIND ANALYSIS

nd strategy, which is environmental, thermally efficient prefabricats are proposed as the main construction system of the whole design. al insulated panel is eco- friendly, efficient and sustainable for economxtremely comfortable student housing.

Energy Analysis Report

MONTHLY WIND ROSE

Annual Wind Rose (Frequency Distribution)

ntation of slight north -eastern facing units, glazing size calculations ngement of the buildings are all suited to maximise sunlight during nd facilitate natural ventilations during summer.

is to celebrate simple and sustainable design housing and by learning basic construction of animal shelter, it is possible to live on the earth rming a responsible part of the ecosystem

Monthly Wind Roses

SUN TESTING

TESTING

SITE

WINTER

SUMMER

Garbage Collection Point

Prevailing winds comes from South West during summer months

Access to North Carpark

Monthly Design Data

Permeable paving

1 UNIT C

BBQ Area

Limited vehicle access

Annual Temperature Bins

Bioswales

Native vegetation landscape

9AM

ar ed

Hub 6

MUDLA WIRRA ROAD

Existing Carpark

Prevailing winds

SUMMER SHADOW

The north-facing walls are shaded during summer

9AM

12PM

4PM

DETAIL P

12PM

1 UNIT C Hub

BBQ Area

Garbage Collection Point

Access to South Carpark

4PM

WINTER SHADOW

The north-facing walls are not shaded during winter (shadows form on units does not affect adjacent buildings due to arrangement)

9AM

12PM

4PM

SITE PLAN | 1:1000

STUDY- ENVIRONMENTAL RESPONSE

ng size was determined by calculation using ‘Glass mass ratio’ . This is to avoid overheating of the

12pm

STRUCTURAL INSULATED PANEL

All units are orientated 15 degree to north east to maximize winter morning sunlight’s penetration meanwhile to ease ventilation during summer as prevailing wind comes from South West Rain drops on slanted roof went through gutter and stored in underground tank

SIP roof /floor stacked on SIP wall

summer sun path

Summer sunlight shaded by overhang roof

e’s temperate climate, double glaze glass will be floor area. 1220 X 2134 m glazing were installed th wall according to calculation

SIP is prefabricated modules that reduce construction time taken by 5070% of conventional building framing system. They are efficient, sustainable and eco-friendly Wall Thickness: 215 mm - (11mm OSB , core Polystrene -EPS) R-Value : 5.784 Indoor Air Quality : SIP does not contain VOC, adhesive use for joining is not from formaldehyde. Acoustic value : Airtight construction of SIP contributes to excellent sound absorbing properties Thermal Efficiency: Big reduction in thermal bridging compared to conventional construction Cost : long term energy cost offset, speedy and easy construction contribute to huge reduction of labour cost Material efficiency : Prefabricated planning minimises off-cut, surplus or waste materials. This reduces impact on landfill and the environment.

Hot air rises up to ceiling released through openable celestory window

& Mortenson 2006

ratios in Australian cities.

12pm

Winter sunlight penetrates successfully on level 1 and 2

winter sun path

Gutter southern view for social interaction front and back of housing Openable 30% lower awning of double glaze window

Hot air released through celestory window

Wiremesh act as privacy screen for balcony yet still allow 98% winter sun’s penetration, the pole is use to support the overhang roof

Thermal Efficiency of SIP compared with traditional timber framing system

Prevailing wind from south west

Timber framing R-rating 2.5

Fresh cool air drawn from openable lower window facing south west

Heat Loss Heat Gain

Underground water tank for rainwater collection, rainwater used for toilet flusing system

Concrete slab floor act as thermal mass to store heat during winter

Every frame member contribute to ‘Thermal Bridging’

W Timber panels are added to certain units that requires shading device to shade summer sun on small western window (function to facilitate ventilation) as well as eastern window

SIP R-rating 4.0 Thermal efficiency as they are less thermal bridging due to way SIP constructed Source: https://www.sipsindustries.com.au/

ON | 1:250

ALL AXONOMETRIC VIEW

CLUSTER

PLAN

CLUSTER

2 STOREY UNIT CLUSTER

2 STOREY UNIT EXPLODED DIAGRAM

corrugated steel deck

timber batten

There were 3 student hubs that has meeting rooms, study rooms, public toilets, student lounge, co-op and laundry. FLEXIBILITY Unit types are varied by level to maximise the site’s narrow space arrangement and to maximise sunlight . 1 level units are arranged in the eastern site so it would reduce winter morning shadow casted on units at western site thus maximising sunlight for all clusters.

1:200 2 STOREY UNIT CLUSTER

LEVEL 1

concrete slab weather membrane plasterboard Wiremesh screen SIP (Structural insulated panel) Timber weatherboard cladding

COMMON

LEVEL 2

7 m²

ROOM

4 16 m²

5 TOILET WARDROBE

4 m²

1 m²

TOILET ATRIUM

4 m²

WARDROBE

16 m²

14 1 m²

FIN