Throughout my architecture degree by Sherrie Huang

architecture design portfolio sherrie huang university of sydney

darlington & co. student housing diagrams renders plans & sections Darlington & Co. promotes a vision of co-operative housing. This method of collaborative living, otherwise commonly known as “co-housing”, encourages the facilitation of an intimate, community spirit within the university environment. As the on-campus accommodation for students at Sydney University, students are able to experience the privacy of their own living community while retaining the convenient central location within the Darlington campus, especially with the conversion of Darlington Lane into a fully pedestrianized laneway. Our vision of co-housing involves its operation on several different levels, ranging from the progression from public to private. Co-operative efforts are immediately encouraged within the premise of the site. Upon entrance, courtyards are shared by the entire residential population of Darlington & Co. This promotes interactions within the entire community to maintain the communal environment. Consecutively, sharing is divided into individual buildings within the site. 4 building blocks of 5 storeys mean that communal interactions are able to occur on a smaller, more privatised scale where each building houses its own ‘clique’ of students allowing more frequent social exchanges to occur. The living area on the ground floor is proposed to be a hub of social activities as it is our belief that happy students are the ones who interact and receive support from their peers. Progressing up to the bedroom levels, each level contains its own kitchenette and small circle of social space. Once again, an even more intimate communal interaction is instigated to provide students with the opportunity to establish closer bonds, boosting the social harmony that is essential for a co-housing vision.

d space

CIRCULATION SPACE

ROOF

Levels ONE to FOUR: Bedroom floors - Four (4) individual bedrooms per level - Two (2) shared bathrooms per level - One (1) kitchenette per level - One (1) balcony per level (social space) - Access to stairwell

LEVEL 3

PUBLIC LIVING

ty of over partment. dual units ared living pace that ial space.

Ground floor: Shared living space - Living area - Kitchen - Enlarged bedroom with ensuite (suitable for disabled access; and is available for non-disabled students at a higher cost) - Access to stairwell

Roof top: Public space - Shared space for social interactions - Access to stairwell

Proposed terrace houses (student accomodation)

LEVEL 2

Existing terrace houses (student accomodation)

LEVEL LIVING

ment

FUNCTIONS OF LEVELS :

hared space

LEVEL 1

Consecutively, sharing is divided into individual buildings within the site. 4 building blocks of 5 storeys mean that communal interactions are able to occur on a smaller, more privatised scale where each building houses its own ‘clique’ of students allowing more frequent social exchanges to occur. The living area on the ground floor is proposed to be a hub of social activities as it is our belief that happy students are the ones who interact and receive support from their peers. Progressing up to the bedroom levels, each level contains its own kitchenette and small circle of social space. Once again, an even more intimate communal interaction is instigated to provide students with the opportunity to establish closer

FUNCTIONS OF LEVELS :

BEDROOM

TOPOLOGY :

Building type: high density, low-rise apartment Number of buildings: 4 Number of storeys: 5 (inclusive of ground and roof top) Gross floor area: approx. 2300 sqm Site area: 1350 sqm Gross floor ratio: 1.7:1

Total residents: 68 Density: 503 residents per hectare Darlington & Co. has an housing density of over seven times more than a typical high-rise apartment. shared and private usage units This is Diagram achievedofby introducing individual where each unit contains one level of shared living space with four more levels of mixed space that contain both bedrooms and a smaller social space.

BATHROOM

Darlington Ln Darlington Rd : (proposed to VISION be Diagram of preliminary level allocation pedestrianised) Darlington & Co. promotes a vision of co-operative housing. This method of collaborative living, otherwise commonly known as “co-housing”, encourages the facilitation of an intimate, eal social Most importantly, social interactions are seen community spirit within the university environment. pirit while as essential to the emotional and psychological well-being of all students. This is enabled by the As the on-campus accommodation for students at provision of areas of shared spaces. Different Sydney University, students are able to experience bedrooms levels of interactions are catered through the the privacy of their own living community while or private large living room on the ground level and roof retaining the convenient central location within the top. Subsequently, more intimate shared spaces Darlington campus, especially with the conversion are provided on each level to encourage the of Darlington Lane into a fully pedestrianized oor area; development of more tight-knit relationships. laneway. chen and Kitchen and oflaundry are involves shared between all Our vision co-housing its operation students within the same block of building to on several different levels, ranging from the equired is further reinforce the co-housing vision byCo-operative instigating progression from public to private. collaborative of independent living.within the efforts are efforts immediately encouraged premise of the site. Upon entrance, courtyards are shared by the entire residential population of Darlington & Co. This promotes interactions within the entire community to maintain the communal environment.

Roof top: Public space - Shared space for social interactions - Access to stairwell

Proposed terrace houses (student accomodation) Existing terrace houses (student accomodation)

Roof top: shared space

Bedrooms

Bathrooms

Kitchenette

Balcony Ground floor: shared space

Rose St

Darlington Ln (proposed to be pedestrianised)

Darlington Rd Diagram of preliminary level allocation

SPATIAL ARRANGEMENT : Our proposal focuses on providing an ideal social environment to foster the communal spirit while

Most importantly, social interactions are seen as essential to the emotional and psychological

As the on-campus accommodation for students at Sydney University, a co-housing vision is created to foster and further enhance a community spirit while adopting a sustainable approach in the design process. One module of design is repeated and staggered across the site where various levels of social interactions are encouraged to occur. The shared entrance courtyards between buildings allow all residents the opportunity to meet and greet while also welcoming the pedestrian flow from the pedestrianized Darlington Lane. Progressing to the living rooms on the ground floor of each building, students are allowed exclusivity on the basis of each block created by the elevated ground levels. Three storeys are dedicated to bedrooms in each building with four individual rooms present on each floor while each level is also equipped with a kitchenette, sink, and common balcony space to further strengthen the bond between students on the basis of a smaller community. Although the roof-top is dedicated to the community of each block, the glass railings bring all residents back into a broad community environment where students can interact across buildings while being elevated from the pedestrian traffic on the ground.

Darlington & Co. Site Plan

1 2 3 4

Shared

N N

Private

The staggered layout across the site maximises daylight penetration into each building. Sunlight is the key for creating a welcoming space. With the full glass northern living room façade and sloped roof, natural lighting pours into these communal spaces making them ideal places of gathering and social interactions. The sunlight-drenched common living spaces are complimented by the use of concrete flooring as a thermal mass; warming in Winter and cooling in Summer by drawing curtains across the glass façades. Structurally insulated panels (SIP) are used as walling material for a cost-efficient way of sustainably creating an ideal living environment. Spotted gum clads the exterior of the buildings to initiate a visual dialogue with the greenery of the site’s surroundings while also being an environmentally friendly option with its recognition from the Forest Stewardship Council Australia (FSC-AU). The implementation of stack ventilation through a wind catcher provides ample ventilation for the bedroom levels where fresh air is most needed. Major benefits of the scheme include: -Shared facilities and communal areas encourage social interaction and collaboration -Reduced reliance of energy usage through implementation of a wind chimney to provide ample

Floor Plans

rlington & Co. Darlington & Co. R R

1 N

Site Plan

1 2 3 4

Sherrie Huang 311246214 mpus accommodation for students at Sydney University, a Bronwyn Lee 311243290 Site Planenhance a community vision is created to foster and further Anne Qin 311182712 adopting a sustainable approach in the design process. One As the on-campus students at Sydney University, a esign is repeated and staggeredaccommodation across the site for where co-housing are vision is createdtotooccur. fosterThe andshared further enhance a community s of social interactions encouraged spirit buildings while adopting a sustainable approach in the design process. One urtyards between allow all residents the opportunity of designthe is pedestrian repeated and staggered greet while module also welcoming flow from theacross the site where Shared various of social interactions are encouraged to occur. The shared ed Darlington Lane. levels Progressing to the living rooms on the entrance courtyards between buildings allow of each building, students are allowed exclusivity on the all residents the opportunity to meet and greet while also welcoming pedestrian flow from the h block created by the elevated ground levels. Three the storeys pedestrianized Darlington Lane. Progressing d to bedrooms in each building with four individual roomsto the living rooms on the ground are allowed exclusivity on the ach floor while eachfloor levelofiseach also building, equippedstudents with a kitchenette, basis of each block created by the ground levels. Three storeys mmon balcony space to further strengthen the elevated bond between dedicated to bedrooms in each the basis of are a smaller community. Although the building roof-topwith is four individual rooms present on each floor level is also the community of each block, thewhile glasseach railings bring all equipped with a kitchenette, sink, and common balcony space to further the bond between ck into a broad community environment where studentsstrengthen can on the basis from of a smaller community. Although the roof-top is ss buildings students while being elevated the pedestrian traffic dedicated to the community of each block, the glass railings bring all nd. The where staggered students layout across can the site maximises daylight penetration into each building. Sunlight is the residents back into a broad community environment key for creating a welcoming space. With the full glass northern living room façade and sloped roof, Private interact across buildings while being elevated fromnatural the lighting pedestrian traffic pours into these communal spaces making them ideal places of gathering and social interactions. The sunlight-drenched common living spaces are complimented by the use of concrete on the ground.

ventilation throughout the development -Close proximity to nearby shops and university -Bike parking spaces provided to encourage “clean” modes of transportation

Site Section

flooring as a thermal mass; warmingThe in Winter and cooling in Summer by maximises drawing curtains across the staggered layout across the site daylight penetration into each building. Sunlight is the glass façades. Structurally insulated panels are aused as walling material cost-efficient wayliving of key for (SIP) creating welcoming space. With for the afull glass northern room façade and sloped roof, sustainably creating an ideal living environment. Spotted exterior spaces of the buildings to ideal places of gathering and social natural lighting poursgum into clads thesethe communal making them initiate a visual dialogue with the greenery of the The site’ssunlight-drenched surroundings while also being anspaces environmentally interactions. common living are complimented by the use of concrete friendly option with its recognition from the Forest Stewardship Australia (FSC-AU). The in Summer by drawing curtains across the flooring as a thermal mass;Council warming in Winter and cooling implementation of stack ventilation through a wind Structurally catcher provides ample ventilation for the glass façades. insulated panels (SIP) are usedbedroom as walling material for a cost-efficient way of levels where fresh air is most needed. sustainably creating an ideal living environment. Spotted gum clads the exterior of the buildings to initiate a visual dialogue with the greenery of the site’s surroundings while also being an environmentally Major benefits of the scheme include:friendly option with its recognition from the Forest Stewardship Council Australia (FSC-AU). The -Shared facilities and communal areas encourage social interaction and through a wind catcher provides ample ventilation for the bedroom implementation of stack ventilation collaboration levels where fresh air is most needed. -Reduced reliance of energy usage through implementation of a wind chimney to provide ample Major benefits of the scheme include: ventilation throughout the development facilities and communal areas encourage social interaction and -Close proximity to nearby shops-Shared and university -Bike parking spaces provided to collaboration encourage “clean” modes of transportation -Reduced reliance of energy usage through implementation of a wind chimney to provide ample

Site Plan

Floor Plans Floor Plans

ventilation throughout the development -Close proximity to nearby shops and university -Bike parking spaces provided to encourage “clean” modes of transportation

RSite Plan

Flo

Site Section Site Section

Sherrie Huang 311246214 Bronwyn Lee 311243290 Anne Qin 311182712

Shared

The staggered layout across the site maximises daylight penetration key for creating a welcoming space. With the full glass northern livin natural lighting pours into these communal spaces making them ide interactions. The sunlight-drenched common living spaces The staggered layout across theare sitecomp max flooring as a thermal mass;key warming in Winter and cooling in Summ for creating a welcoming space. With glass façades. Structurally insulated panelspours (SIP) into are used walling natural lighting theseas commun sustainably creating an ideal living environment. Spotted gum clads interactions. The sunlight-drenched comm initiate a visual dialogue with the greenery of themass; site’s warming surroundings flooring as a thermal in W friendly option with its recognition from the Forest Stewardship Cou glass façades. Structurally insulated pane implementation of stack ventilation through a wind catcher provides sustainably creating an ideal living enviro levels where fresh air is most needed. initiate a visual dialogue with the greene friendly option with its recognition from t Major benefits of the scheme include: implementation of stack ventilation throu -Shared facilities and communal levels areas whereencourage fresh air issocial mostinteraction needed. a collaboration benefits ofimplementation the scheme include: -Reduced reliance of energyMajor usage through of a win -Shared facilities and communal areas en ventilation throughout the development collaboration -Close proximity to nearby shops and university -Reduced of energy usage throu -Bike parking spaces provided to reliance encourage “clean” modes of

Private

Floor Plans Floor Plans

Sherrie Huang 311246214 Bronwyn Lee 311243290 Anne Qin 311182712 Sherrie Huang 311246214 Bronwyn Lee 311243290 Anne Qin 311182712

ventilation throughout the developme -Close proximity to nearby shops and -Bike parking spaces provided to enc

Site Se

bexley north basketball hall multipurpose scout hall sustainable long distance spanning technical detail drawings As part of our Technologies project, we were to redesign a current existing scout hall. Bexley North scout hall is currently sited on a small area of flat parkland adjacent to a railway line. Whilst perfectly functional and satisfactory, its appearance deems it out-dated and prone to damage. Our site has a true North orientation. The proposed Bexley North Basketball Hall aims to maximise cooling capacities by creating unobstructed North-South ventilation through operable louvres. The detached amenities blocks on the north act as a buffer which relieves some of the harsh glares and heat caused by the northern sun. Diffused daylight is brought into the basketball hall throgh a northern transluscent skylight and the full-length glass facade on the south. Likewise, the harsh glares of the afternoon sun can be adjusted via the operable vertical blades on the eastern and western facades. The basketball hall is not insulated due to our desire for optimised cooling capabilities.

SITE ANALYSIS

Block out harsh Northern sun in conjunction with noise maintenance

Site is adjacent to railway track towards the North

Largely open, unobstructed area Adjacent to community centre

Disruptive noise levels

Freedom of design Ample sunlight

Ability to share services/utilities such as plumbing

Suburban area with many houses in close proximity Attention to acoustics as noise levels must be maintained

Our site ha maximise c operable lou some of the into the bas on the south

Likewise, th blades on t desire for op

1:1000 strengths weaknesses opportunities threats SITE

SITE ANALYSIS ANALYSIS Largely open, unobstructed area Adjacent to community centre Block out harsh Northern sun Largely open, unobstructed area in conjunction with noise Freedom of design Ability to share services/utilities Adjacent to community centre Block out harsh Northern sun maintenance asservices/utilities plumbing Ample sunlight in conjunction with noise Freedom of design Ability tosuch share

Site is adjacent to railway Disruptive noise levels maintenance Ample sunlight track towards the North Site is adjacent to railway Disruptive noise levels track towards the North

such as plumbing

STRUCTURAL STRATEGY INITIAL STRUCTURAL STRATEGY

Progression Of Ventilation Design

Basing our structural system on a portal frame, we decided to place the outer legs joints to allow for even distribution of weight after the addition of the extended cantile ceiling beam to allow for a large Southern facing window. However, the pin joints p to be too unstable due the extended window, which was not only unecessarily larg caused the structure to be thrown off balance. Size of members were based upon MOTAT’S Aviation Display Hall to ensure that structurally sound.

Roofing beams meet at centre of structure

Extended cantilevering LVL beam

Southern facing window N

Pin joints

Precent study: MOTAT Aviation Hall PRECEDENT STUDY: MOTAT AVIATION DISPLAY

HALL

Strategy #1 - High openings on North and South facade

The portal used in MOTAT’s Studpac’s Aviationframe Display Hall is a large 2,850m2 shedAviation that is directlyDisplay attached toHall a preexisting hangar forming a common internal space housing many of the historic aircraft was a structural system used to base our design on.in MOTAT’s collection. It was clearly used t withstand high forces due to the The structural system employed is a series of substantial radiata LVL box portals spanning planes hanging offonoftwothe beams the just over 40m and supported separate legs at of either end.ceiling. These double legs of the

Lack of air flow at ground level of courts where the players are. Would become heated and uncomfortable.

portal frame expose the veneers of the LVL, creating secondary spaces within the bays to allow for people to walk through.

Progression Of Structural Design

FINAL STRUCTURAL STRATEGY

From the outside, the portal legs, girts, braces and all, are all open to view.

Our final structure became that of a post and beam. The posts are double-posted an N bolted to the beams at the top. Steel struts are placed within the double-posts so tha will not buckle. Steel plates are attached to the bottom of the posts to connect to the co slab to guarantee stability.

Stiff joints connected

stiff joints connected to concrete slab to concrete slab

asymmetrical roofing beam structure

Asymmetrical roofing beam structure

Stiff joints connected to concrete slab with metal plates

Southern facing window

Strategy #2 - Low opening on South side + both low and high openings on North side N

The portal frame used in MOTAT’s Aviation Display Hall was a structural system we agreed to base our design on. Used to hang planes off of the beams of the ceiling, it was clearly engineered to withstand high forces upon the building and would therefore be structurally sound to span long distances needed for a basketball court.

Roofing beams meet at centre of structure Pin joints

Extended cantilevering LVL beam Southern facing window

Increase in air flow along ground level and through the building and amenities however, there is a a lack of air circulation at the top of the building. N

Stiff joints connected to concrete slab with metal plates

Southern facing window

Strategy #3 - Low opening on South side, both low and high openings on North side + opening at the top Negative pressure at the opening in the roof allows for air to be sucked out, taking away stale air and aerating smells.

FINAL DESIGN PROPOSAL FINAL DESIGN PROPOSAL

02 A 02

300x120 lvl double posts 300x120 lvl double steel bracket joint posts steel bracket joint Reinforced concrete wall poured in-situ Reinforced concrete wall poured in-situ

600x120 lvl double posts 600x120 lvl double steel bracket joint posts steel bracket joint 450x15 louv res screw fixed 450x15 res screw fixed to timberlouv frame to timber frame

24000x6000 translucent Danpalon 24000x6000 translucent skylight dotted overheadDanpalon skylight dotted overhead fixed in zincalume frame to manu. spec. fixed in zincalume frame to manu. spec.

Glass window facade Glass window facade 600x120 lvl double posts 600x120 lvl double steel bracket joint posts steel bracket joint 300x120 lvl double posts 300x120 lvl double steel bracket joint posts steel bracket joint

Plan Plan

01 01

ABS

N N

ABS WILKINSON BUILDING 148 City Rd, Darlington NSW 2050 WILKINSON BUILDING 148 City Rd, Darlington NSW 2050

02 A 02

CONSTRUCTION DRAWING CONSTRUCTION DRAWING

1:200

1:200 0m

1:200 1:200

Steel capping

Bexley North Scouts Hall Bexley North Scouts Hall Plan Plan

SCALE

DRAWN

DATE

PROJECT

DRAWING

REVISION

1:100 @ A2 SCALE 1:200 @ A3 1:100 @ A2 1:200 @ A3

AutoCAD DRAWN

10th Oct 2013 DATE

PROJECT

01 01

REVISION

10th Oct 2013

01 01

DRAWING

AutoCAD

Corrugated colorbond steel roof nailed to 120 x 80 timber battens 120 x 80 timber battens screw fixed to 650 x300 timber beam Flashing over skylight frame

600x120 lvl double posts

24000x6000 translucent Danpalon skylight dotted overhead fixed in zincalume frame to manu. spec.

300x120 lvl double posts 600 x 90 steel gutter nailed to 600 x 90 timber beam

Silicon holding polycarbonate skylight 200 x 90 timber skylight frame 100 x 50 recycled hardwood cladding with polyurethane finish screw fixed to plywood battens 450 x 15 louvres screw fixed to timber frame Reinforced concrete wall poured in-situ

Steel capping 120 x 12 timber flooring with polyurethane finish nailed to 45 x 45 timber battens PVC wear-resisting coat Fiber-glass reinforced layer PVC foaming buffer layer

400 x 200 timber beam 400 x 200 timber beam 150mm reinforced concrete slab with pad footings poured in-situ

150 x 8 operable glass louvres from ground level Glass window facade 02

Section AA Scale - 1:100

ABS WILKINSON BUILDING 148 City Rd, Darlington NSW 2050

CONSTRUCTION DRAWING 1:100 0m

Bexley North Scouts Hall

Section AA

SCALE

DRAWN

DATE

PROJECT

DRAWING

1:50 @ A2 1:100 @ A3

AutoCAD

10th Oct 2013

REVISION

0.55mm GALVANISED FLASHING NAILED TO AND FOLDED OVER STANDING SEAM TO HOLD DANPALON SKYLIGHT

ALUMINIUM CONNECTOR FOR 4mm COMPACT DANPALON

1.6mm SPACER SCREW FIXED TO 120 x 80mm DRESSED TIMBER PURLIN

SILICON GAP FILLER

120 x 80mm EXPOSED TIMBER FRAME FOR SKYLIGHT

600 x 65mm DRESSED LVL PURLINS BOLTED TO OTHER BEAM TO FORM SINGLE PURLIN

SCALE

1:5 at A3 0m

0.1

0.2

0.3

0.4

0.5

4mm COMPACT DANPALON AS SKYLIGHT 0.55mm GALVANISED STEEL FLASHING NAILED TO AND FOLDED OVER STANDING SEAM TO LEAD WATER INTO GUTTERING FOR SKYLIGHT

120 x 80mm DRESSED TIMBER PURLIN

1.2mm CORRUGATED COLORBOND STEEL ROOFING NAILED TO 120 X 80mm TIMBER PURLINS

60 x 85mm ZINCALUME GUTTER NAILED TO DOUBLE 90 x 45mm TIMBER BEAMS BELOW

90 x 45mm DRESSED TIMBER BEAM SCREW FIXED TO 120 x 80mm TIMBER FRAME FOR SKYLIGHT

650 x 200mm DRESSED TIMBER RAFTER

SA 01

TITLE

Detail - Skylight

1:5

Detail - Section

DRAFTED BY

Sherrie Huang [ 311246214 ]

PROJECT

Basketball / Scout Hall

SITE ADDRESS

56A Shaw St, Bexley North NSW 2207

CLIENT

The University of Sydney

DATE

07/11/2013

REVISION NO.

PAGE

DRAWING NO.

2 of 5

27 darley st, newtown da application site study plans, sections & elevations shadow diagrams The project for our Professional Practice course centred on the design of a simple residential extention and preparation of the necessary documentation for submission of a Development Application. Marrichville Council was the consent authority. The clients were a young professional couple and were open to a variety of options for alternative uses but would like adventurous architectural additions to the existing dysfunctional building. By the end of this project, I was well aware of the process that must be undertaken before construction and actual realisation of a design.

CR FRO AFT N M N OISE EAR DIR E BY AIP CTIO OR N T

S ZE EE ER R TB M AN SUM TER S IN EA IN PL OL IN W CO RM WA

WINTER SUNRISE

AIR

ST BE

CT ALL YEAR E P S ER A H AT E W

POTENTIAL FOR OVERLOOKING

POTENTIAL FOR OVERSHADOWING

ACCESS ACCESS

DEC 21

R ME UM TER S IN IN DS IN W N I S T W ND HO L WI O CO

SEPT 1 2

JUNE 22

ACCESS

YE L L TA C E P WORST WEATHER AS

WINTER SUNSET

SUMME SUNSET

STRON

LY WIN

G WES TER

34220

SINGLE STOREY BRICK RESIDENCE METAL & TILE ROOF No.25

S WIND AY ILING W PREVA TO DRIVE ER IN GATH

SUMMER SUNRISE

ACCESS

AIR C AC RAFT RO SS NOISE ENT IRE GOES SIT E

8435

ACCESS

332째10' ONE & TWO STOREY CEMENT RENDERED RESIDENCE TILE ROOF No.29

R EA

ER T SHERRIE HUANG

Alterations and Additions for 27 Darley St, Newtown

WILKINSON BUILDING 148 City Rd, Darlington NSW 2050 SID 311 214 216 E huangsherrie@hotmail.com

Site Analysis Plan

NOT FOR CONSTRUCTION SCALE

DRAWN

DATE

PROJECT

DRAWING

1:50 @ A2 1:100 @ A3

AutoCAD

16th Oct 2013

REVISION

Double-hung sash windows to eng spec.

SB 21.875

L A N E

DP W06 D07

KITCHEN

D A R L E Y

FFL17.93m Porcelain tile finish

A MD.06

FW SW

W07

D06

FF Timbe

SB 3

Permeable timber decking with polyurethane finish

GENERAL NOTES

JOINERY NOTES

LEGEND

Verify dimensions on site prior to commencement of work. Check existing RLâ&#x20AC;&#x2122;s on site. Advice Architect of any discrepancies before commencement. Allow for adjustments to suit discrepancies. Comply with relevant authorities requirements. Comply with Building Code of Australia requirements. Comply with relevant Australian Standards for materials and construction practice. Comply with Basix Certificate. Do not scale from drawings.

In accordance with specification, workshop drawings of complete joinery assembly are to be submitted to the Architect prior to fabrication. Prior to painting, staining or oiling and prior to Installation on site, all fittings, fixtures, and appliances are to be assembled in completed joinery units for review by architect during workshop inspection submission.

DP DW EL FW GM HW R SB SW TEL WT

N 0m

0.5m

Downpipe Dishwater Space ELectrical Meer Board Floor Waste Gast Meter Hot Water System Refrigerator Space Site Boundary Sewer Inspecion Opening Telstra Pit Water Meter

5700

SINGLE STOREY BRICK RESIDENCE METAL & TILE ROOF No.25

S T R E E T

TEL

1500

SB 12.305

14 13 12 11 10

HALLWAY

FFL17.37m Timber floor finish

D02

D03 W04

EL GM WT

W03

W05

W02

DINING

D A R L E Y

8435

FFL17.93m Porcelain tile finish

W01

D04

D05 LAUNDRY

ANTRY

FFL17.93m Porcelain tile finish

FL17.93m er floor finish

LIVING ROOM

FFL17.37m Travertine tile finish

2100

EXTERIOR COURTYARD

FFL17.37m Timber floor finish

D01

POWDER ROOM

FFL17.93m Porcelain tile finish

34.22 Fixed windows to eng spec. Fixed windows to eng spec.

Fixed windows to eng spec.

ONE & TWO STOREY CEMENT RENDERED RESIDENCE TILE ROOF No.29

Fixed windows to eng spec.

MD.06

01 FOR NEW CONSTRUCTION

KEY Denotes demolition

Brickwork

Denotes site boundary

Timber

Neighbouring properties

Glass Windows

Denotes existing structure

Natural Stones

Native grass planting

Rocks And Pebbles Artificial Stones Steel Concrete

Ground Floor Plan 1:100

SHERRIE HUANG

Alterations and Additions for 27 Darley St, Newtown

WILKINSON BUILDING 148 City Rd, Darlington NSW 2050 SID 311 214 216 E huangsherrie@hotmail.com Tutor: Ben Gutherie

Ground Floor Plan

NOT FOR CONSTRUCTION SCALE

DRAWN

DATE

PROJECT

DRAWING

1:50 @ A2 1:100 @ A3

AutoCAD

16th Oct 2013

01/08

REVISION

GENERAL NOTES

JOINERY NOTES

LEGEND

DP DW EL FW GM HW R SB SW TEL WT

0.5m

FINISHES Downpipe Dishwater Space ELectrical Meer Board Floor Waste Gast Meter Hot Water System Refrigerator Space Site Boundary Sewer Inspecion Opening Telstra Pit Water Meter

Exterior timber cladding - Silvertop Ash Window framing - black painted steel Parapet - Concrete cladded with black painted steel

existing parapet retained rl +27.06

proposed rl +23.93

proposed first floor ffl +21.00 existing first floor ffl retained +20.77

proposed ground floor ffl +18.15

existing ground floor ffl retained +17.43

South Elevation

04 FOR NEW CONSTRUCTION

KEY Denotes demolition

Brickwork

Denotes site boundary

Timber

Neighbouring properties

Glass Windows

Denotes existing structure

Natural Stones

Native grass planting

Black Painted Steel Artificial Stones Steel Concrete

1:100

SHERRIE HUANG WILKINSON BUILDING 148 City Rd, Darlington NSW 2050 SID 311 214 216 E huangsherrie@hotmail.com Tutor: Ben Gutherie

NOT FOR CONSTRUCTION

Alterations and Additions for 27 Darley St, Newtown South Elevation

SCALE

DRAWN

DATE

PROJECT

DRAWING

1:50 @ A2 1:100 @ A3

AutoCAD

16th Oct 2013

04/08

REVISION

D A R L E Y

L A N E

D A R L E Y

L A N E

SB 21.875

DP SB 34.22

SB 34.22

SVP/DP DP

SB 12.305

SB 12.305 DP

DP DP

D A R L E Y

S T R E E T

D A R L E Y

S T R E E T

EXISTING SHADOW LINE KEY

Existing shad

New shadow

SHERRIE HUANG

Alterations and Add for 27 Darley St, New

WILKINSON BUILDING 148 City Rd, Darlington NSW 2050 SID 311 214 216 E huangsherrie@hotmail.com

03 EXISTING SHADOW DIAGRAM 12 NOON

D A R L E Y

04 PROPOSED SHADOW DIAGRAM 12 NOON

L A N E

NOT FOR CONSTRUCTION DRAWN

DATE

PROJECT

DRAWING

1:100 @ A2 1:200 @ A3

AutoCAD

16th Oct 2013

02/03

L A N E

D A R L E Y

Shadow Diagram fo June 21 at 12PM

Tutor: Ben Gutherie

SCALE

SB 21.875

EXISTING SHADOW LINE

DP SB 34.22

SB 34.22

SVP/DP DP

SB 12.305

SB 12.305 DP

DP DP

D A R L E Y

S T R E E T

01 EXISTING SHADOW DIAGRAM 9 AM

D A R L E Y

S T R E E T

KEY

02 PROPOSED SHADOW DIAGRAM 9 AM

Existing shadow New shadows

SHERRIE HUANG

Alterations and Addit for 27 Darley St, New

WILKINSON BUILDING 148 City Rd, Darlington NSW 2050 SID 311 214 216 E huangsherrie@hotmail.com

Shadow Diagram for June 21 at 9AM

Tutor: Ben Gutherie

NOT FOR CONSTRUCTION SCALE

DRAWN

DATE

PROJECT

DRAWING

1:100 @ A2 1:200 @ A3

AutoCAD

16th Oct 2013

01/03

film study of ‘the passenger’ blurring & merging materiality painting experimentations further diagramatic explorations Throughout “The Passenger”, Antonioni uses urban spaces and landscapes to shape the presence of characters on screen, objects, shapes and emotions through minimal camera movement. His scene compositions take advantage of the quieter moments, highlighting the fact that absence is just as important as presence and the negative space that we don’t see is just as significant as the positive. The idea of what we don’t or can’t see was of particular signifcance, raising questions such as “what does one generally do when there is an object or sight that is specifically hidden from you?”.

MASKING & REVEALING

BLURRING & OBSCURING

Balsa frame + hole-punched trace

String wrapped around water balloon + PVA and food dye

Experimentation of how water diluted acrylic paint blends together on unstretched canvas

Experimentation of water diluted acrylic paint on unstretched canvas

The string represents the the stolen identity David has wrapped around himself. In his attempt to start a new life, he indirectly locks himself into his own cage of death.

Using materials of different opacities to explore the idea of diluting and controlling what one is able to see.

PVA glue was used to create an exterior skin that slightly masked the interior object. This idea of ambiguity much related back to the locations David Locke travels to throughout the film. We are more often than not unsure of where he is and what his purpose for being there is.

This idea of a labyrinth maze relates back to the fact that no one can escape from their past. You can try run away all you want, but eventually, after a continuous cycle trip, it all comes back to the start of who you were. The different forms of framing and covering show that one cannot see directly into their future to determine their fate.

a glimpse into an art gallery architectural fragment model photographs diagramatic explorations renders Focusing on the architecture that frames the characters within “The Passenger”, it was noted it was very geometric in nature and tended to frame exactly what Antonioni wanted you to see. Taking the very essence of this geometry, the shapes within the film stills were broken down to their simplest form to explore how the geometry creates a frame. What captured my interest the most in my prototype models were the opportunity that arose from all the concave and convex surfaces. Taking advantage of the this characteristic, I created voids that were framed by this irregular geometry. The fragmented nature of the architecture I have designed is reminiscent of Antonioni’s exploration of identity, existence and human isolation. The connecting passageways essentially provide contact with the outside world, offering you a means to escape from what you begin to become familiar with in that particular gallery space. Various small openings veil and unveil particular areas within the space that are like a preview of what to expect within, and sparks one’s curiosity for that which they can’t. Nothing would ever be seen in its entirety. In the end, a glimpse is all we need to begin our own journey in the projection of our imagination to escape reality, even if it is just for a little while.

Diagrams of extrusions into three-dimensional spaces (hand drawings)

exterior perspective

view from across the waters

interior #1

snaking stairwells

interior #2

whatâ&#x20AC;&#x2122;s he looking at?

exterior #1

walking at ground level

exterior #2

passageways above ground

physical & phenomenal transparency disorientation model photographs renders process diagrams Transparency is the quality of a material that is inevitably disorientating due to its simultaneous refractive and reflective properties. Such characteristic exists without formal limits. With the aim of achieving disorientation with minimal manipulation of form, a single plane of glass s segmented, rotated, shifted, then rearranged. A singular perspective warps into a myriad of reflected and refracted mirages. Disorientation is made by the inherent essence of transparency.

the fold doorways interaction plan model photographs renders Folding is not only the physical action of connecting but should become an experience and an interactive process. This process then becomes one of discovery through intangible space. Informed by Deleuze, folding is the threshold that separates the interior from the exterior as created by the dialogue between the ‘monad’ and the ‘façade’. These worlds, although separate, are in fact joined by doorways which embody ‘the fold’. The fold thereby becomes the interaction that blurs the boundary between interior and exterior by changing the doorway. As each viewer makes their way through the installation space, they will inevitably rotate the doors to access other spaces. This becomes the act of opening up new worlds as a new space emerges by altering the existing formation of the installation. Each individual trail will continually shift and alter the space for the next viewer; thus initiating the fold to occur as a process.

technical drawings autocad illustrator plans & sections axonometric detail

Case study of Ballast Point amenities blocks gave me noteworthy pointers to incorporate into our own toilet designs. An axonometric detail of how my final design was to be constructed is also included in the following.

art, graphics & models bits & bobs model photographs diagramatic explorations renders A colletion of projects completed throughout my university degree.

The Mad Hatter (acrylic on canvas)

Series of nudes (acrylic on paper)

Structure model (balsa)

Conceptual model (skewers, timber + perspex)

Mac book model (timber)

Conceptual model (laser cutting + balsa)

thank you