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THESIS STUDIO - MARC6000
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WATERLOO RENEWAL- MARC4001
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8THE AUSTRALIAN ART MUSEUM- BAEN 3002 BDEAS2013 Architectural Techno 10THE CRESCENT SPORTS CENTRE- BDES 2013 12 -
SUSTAINABLE STUDENT HOUSING- BAEN2002
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A Lure fo r Fe e l i n g , Fo rt D e n i s o n Pu bli c Bat hs , M A RC 600 0 Th e s is St udio
We as humans all unconsciously accumulate ‘data’ from the real world which act as the subliminal seeds of ideas and perceptions, affecting one mentally and physically. These subliminal moments have been described as intuition, a gut feeling or as philosopher Alfred North Whitehead termed it, prehension. The baths are designed to strip away the preconceived notions we have of architecture and bathing areas by manipulation of the architectural element. Keeping the occupant within a realm of intuitive experience, slows down the exploration of the Esher-like baths and turns their focus inward and to the present rather than the constant and tiring distractions of the busy outside world. This project is the adaptation of Fort Denison into a Public bath for Sydneysiders to enjoy and explore.
30m Jurong Lake
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140m Food outlet
5. 1.
120m High rise residential
5.2km Jurong Island SSW
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150m
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1. Entry to shelter. 2. Ramp down to Zone 2 3. Ramp down to Zone 3 . 4. Cool zone 2 - Adaptable performance space/ garden sanctuary. 5. Stepped Seating 6. Cool Zone 3 - Pop-up Medical Station
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Ha ze S he lte r M A R C40 0 2 S u sta i n a b le St udi o
Metres 0
This group project researched the current and predicted issues that threaten South East Asia in the next 100 years. Focusing within Singapore, we developed a shelter in response to the suffocating haze and air pollution problem. The 3- layered web structure acts as a filtering system, covered in TiO2 coating. This compound is able to sanitize, remove odor and breakdown harmful organic compounds. Passive design is also implemented to cool the internal space to stabilize the humidity from the hot sticky Singapore climate. This was a group project with Hannah Lupton and Felicia Perrino.
40mm dia North facing side
Physical model slice visible in above photos taken from this region
75-90mm dia
Pollution Control Inner Layer - Highest density, and surface area
Zone 3
Layer and Zone breakdown
Zone 2
Zone 1
125-150mm dia
Air Flow/Ventilation Control Middle Layer - Variation in density and opening size responsive to site analysis
Solar Radiation Control Outer Layer - Variation in density and opening size responsive to site analysis
40mm dia
North facing side
NORTH
WEST
Physical model slice visible in above photos taken from this region
EAST
75-90mm dia
Solar radiation studies on the zones as individuals informed the placement and shape of such forms. The larger Zone 1 was used in consideration of shade patterns and internal circulation space. The role of each zone’s tower, being evaporative or solar heat stack in method of drawing air, additionally dictated their form and placement in relation to the other zones.
SOUTH
EQUINOX
SUMMER SOLSTICE
WINTER SOLSTICE
0°
0°
125-150mm dia
0°
Pollution Control Inner Layer - Highest density, and surface area
Zone 3
Layer and Zone breakdown
Zone 2
Zone 1
COOLING TOWER ONE
0°
0°
Air Flow/Ventilation Control Middle Layer - Variation in density and opening size responsive to site analysis
0°
Solar Radiation Control Outer Layer - Variation in density and opening size responsive to site analysis
High solar impact
Moderate solar impact
EAST Solar radiation studies on the zones as individuals informed the placement and shape of such forms. The larger Zone 1 was used in consideration of shade patterns and internal circulation space. The role of each zone’s tower, being evaporative or solar heat stack in method of drawing air, additionally dictated their form and placement in relation to the other zones.
SOUTH
EQUINOX
SUMMER SOLSTICE
WINTER SOLSTICE
0°
0°
Zone 3
COOLING TOWER ONE ZnO
ZnO
0°
0°
0°
High solar impact
North facing side Zone 1
Low solar impact
Zone 1 Zone 2 WEST
Zone 2
OK solar impact
NORTH
COOLING TOWER TWO
COOLING TOWER TWO
Zone 2
Zone 3
Zone 3 Zone 1
Zone 1 Zone 2 Zone 3
Moderate solar impact
OK solar impact
Evaporative cooling tower draws air into Zone 2 and Zone 3. Water evaporates at the top of the tower into the external hot environment, condenses onto water molecules and falls, creating, with the air of fan units a downward pull in Zone 2 and 3. Hydrogel absorbs moisture from the air within the two smaller zones lightening the molecules as it flows into Zone 1. Solar radiation heats air in the upper region of Zone 1, and as the air 0° heats it rises, pulling air through the form and out the top of the tower. A fan is used in this process as well, to ensure adequate air flow of days impractical humidity levels. Utilising these two different tower technologies creates an internal air circulation pattern that function independently to outside conditions. The system does not rely on cross ventilation or unreliable natural breezes in order to increase internal thermal comfort levels and cool occupants. This independence form outside air patterns also limited the contamination of internal air with that of external pollutants. Low solar impact
Zone 1 Zone 2
Evaporative cooling tower draws air into Zone 2 and Zone 3. Water evaporates at the top of the tower into the external hot
Wate r Lo o Rene wal MA R C4 0 01 U r ban St udio
The Waterloo Precinct renewal project was a multi- precinct redevelopment in response to the City of Sydney master-planning for the area. The strategy was to improve the quality of living for the residents of social housing in the area by improving outlook, accessibility for all abilities and community spaces for all residents. The project was to encourage community inclusiveness and draw new people to the area. This was a group project with Hannah Lupton and Jake Boydell
on ore ecti in C nn Ma al Co c i t Ver
ne Zo pace on ati ion S t cul Cir d Op are Sh
+M2
Precinct Four render ck Sta
Proposed Floor-plate extension- New balcony space
Existing Floor-platenew layout- all accessible
Existing Hall space Services
Precinct Two render
CoreUpdated Lift Shaft
Existing Hall space
Existing Floor-platenew layout- all accessible
le du Mo
Proposed Floor-plate extension- New balcony space
Services
Precinct One Towers 4 Stack Floor Plate 1:75 @ A3
T h e Au st ral i a n A rt Museu m B AE N 3 0 0 2 D e s i g n I nteg rat i o n L a b : C apsto ne
The concept behind this museum is to connect the rich Australian history and heritage of its amazing range of artists together. The lines that cut through the site to organise the pathways and spaces within were created by lines that are derived from significant locations in their life and career. These artists were chosen for their diversity in portraying different aspects of Australian culture influenced through life experiences and the time in which these artist were or are prominent.
AD- ADMINISTRATION: 135 SQ. M VS- VISITOR SERVICE: 120 SQ. M VE- VISITOR EDUCATION: 610 SQ. M WS- WORKSHOP: 320 SQ.M PC- PERMANENT COLLECTION: 1625 SQ. M TC- TEMPORARY COLLECTION: 790 SQ. M ML- MUSEUM LOGISTICS: 450 SQ. M A- AMPITHEATRE : 235 SQ. M IE- INTERACTIVE EXHIBITION: 192 SQ.M GS- GREENSPACE: 1000 SQ. M ROOF 3000 SQ. M OUTDOOR C- CAFE: 160 SQ. M W- BATHROOMS: 45 SQ. M L- LIFT
SUNpath
PROGRAMMED FACADE: Sun path
PROGRAMMED FACADE: Exterior sensors
Th e Cre s ce nt S p or t cen tre B D E S2013 A rc h i te ct u ral Te ch n o log ie s 3
EQUINOX
SHADING & PASSIVE HEAT GAIN
NATURAL VENTILATION
H2O COLLECTION
PASSIVE DESIGN PRIMARY AND SECONDARY LOAD BARING STRUCTURES.
A 2 B 2
SHORT SECTION 1.
LONG SECTION 1.
Ab e rcromb i e st re et st u d e n t h o u s i n g p ro ject . D e s i g n I nte rg rat i on L ab B AEN 200 2
Provides a sustainable co-living environment for students with a focus on encouraging community immersion in environmental practices. The building is adapted to utilise passive strategies to enhance overall building performance an efficiency. This was a group project with Hannah Lupton, Jarred Petero & Caitlin Jones.
Manual louvres operated by occupants within rooms to block strong solar radiation.
EIFS- 12mm Shadowclad natural texture cladding (H3 LOSP treatment). Sound absorbing layer Non -operable windows for maximum reduction of acoustic pollution from Abercrombie St. Trees & vegetation for shading and cooling. Alpolic/ FR Aluminium cladding ( 100% recyclable, ecospecifier certified.
Direct sunlight
Sliding 50mm double glazed Low-E, tinted windows to reduce acoustic pollution from nearby roadways. Allow for absorption of thermal radiation when closed but allow for cross ventilation & summer winds. Rain- water storage tanks for non-potable uses, collected via guttering.
Alpolic/FR Aluminium cladding > 20 years durability,ecospecified certified. Light grey to reflect intense solar radiation from the summer sun. Large thermal mass to absorb solar radiation. Natural shading and cooling of surrounding areas through evapotranspiration ( summer cooling strategy). 12mm Low- E double glazed, tinted sliding windows for reduction of solar radiation while still enabling natural ventilation. Large sliding doors to enable cross ventilation throughout ground level.
1. Shadow clad natural texture cladding. 2. Timber louvres. 3. Waterproof membrane. 4. Concrete (masonry) wall. 5. Insulation board. 6. Insulation bats. 7. Plasterboard. 8. 50mm air cavity.
Photovoltaic solar panels facing north at an angle of 33 degrees. 12mm low emissivity double glazed sliding windows for maximum thermal efficiency while still enabling natural ventilation.
RW 25
Communal balcony on 1st floor to enjoy the fresh air & sun with a vegetation covered slatted roof for shade in the hotter months.
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