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STUDENT & PROFESSIONAL WORK
Edwin Huang
Unit 3/ 7 Curzon Street Ryde, NSW, 2112 Email: Edwin.huang7@gmail.com Phone: 0415560300
Language
Software
Ability
Mandarin(native)
Adobe Suite, Rhino,
Expert
English (fluent)
Archicad, Autocad, Sketchup
Basic
Education 2
Ryde Secondary College 2010-2015 Selective stream, Sydney, NSW University of Sydney 2017-ongoing Bachelor of Design in Architecture (graduating in 2020)
Experience Primary & High school tutor Hugeheart Education
2017-2018
Casual piano teacher 2017-2018 Michelles’s Piano Studio Student intern (2 months) 2018 John Poole Architects Events Coordinator 2017-2018 USYD Photosoc
STUDENT & PROFESSIONAL WORK
UNDERGRADUATE PORTFOLI O
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CONTENTS 01
“ Surry Hills Leisure Centre” , Design Studio 3A, 2019, P 4-15
02
“Maliau Basin Research Centre”, Design Studio 2b, 2018, P 16-25
03 “Wilkinson Courtyard Cafe”, Sustainability elective DAAE3001, 2018, 04 “36 Colloroy Street, Colloroy”, Professional work, 2018, P 32-35 05
“ Personal photography collections”, Personal work, 2017, P 36-39
STUDENT & PROFESSIONAL WORK
P 26-27
01
SURRY HILLS LEISURE CENTRE
CENTRE FOR COMMUNAL ADVANCEMENT & INTEGRATION
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STUDENT & PROFESSIONAL WORK
Detailed balustrades & open front porch gives each terrace individual character
High density residential building juxtaposes with low-density terraces
Accessibility diagram
Commercial building often hides a more inspiring & evocative interior
Sightlines diagram
5
Grand facade & entrance diagram
Sun path & wind diagram
It is considerate of the community in a historical sense, by referencing the vernacular of traditional Surry hills language. This is a social anchor which gives people the option to access the bathing house or lap pool, depending on their choice. The detailed balustrades, colourful facades, front porches are interpreted in a modern sense. This is to preserve the unique identity of Surry Hills, reinforcing not changing the social spirit.The building language is harmonious within it’s immediate surroundings, one that is considerate of community on a visual sense. It interprets the building language of Surry Hills through an expressed public building, one that is unique to itself by structural expression, each massing having different structures to express different function. In essence it is this holistic idea of public inclusive design, which hopes to be a social foundation for a community of diverse people.
STUDENT & PROFESSIONAL WORK
Macro view Render software: Vray Rhino Post-production: Photoshop
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Perspective section of proposal
Long section of bathing house
STUDENT & PROFESSIONAL WORK
Long section of lap pool enclosure
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Site plan
South elevation
East elevation
North elevation
West elevation
STUDENT & PROFESSIONAL WORK
Structural Analysis A post-beam structure was chosen for rectilinear form which was to blend in cohesively to the design language of Surry Hills. The structure consists of a series of bays which each span approximately 25m to enclose the pool. 300mmx300mm columns support a pair of 100mm (width)x500mm( height) beams which was chosen to minimise timber material and to also allow LED lights to be placed in-between these pair of beams. Further it allows gutters to be placed in the gap between the beams to allow for water collection. Steel plates are installed on either side of the beams to make it a rigid joint, allowing for greater strength to deal with bending and lateral forces. The beams are made of Laminated vinyl lumber as it has very strong tensile strength when put together and can resist shearing. Further, rigid connections at base of the column is installed to improve strength against lateral forces. The following diagrams on the bottom represent structural movements under various circumstances, involving a 25m spanning beam & two 8m columns.
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STUDENT & PROFESSIONAL WORK
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Structural axonometric
STUDENT & PROFESSIONAL WORK
Lap pool enclosure 10
Render software: Vray Rhino Post-production: Photoshop
STUDENT & PROFESSIONAL WORK
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STUDENT & PROFESSIONAL WORK
Internal street 12
Render software: Vray Rhino Post-production: Photoshop
STUDENT & PROFESSIONAL WORK
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STUDENT & PROFESSIONAL WORK
s
Site render
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Structural model STUDENT & PROFESSIONAL WORK
15 Courtyard space 1:200
Lap pool structural detail model
Site & building model 1:200
Bathing house structural detail model
STUDENT & PROFESSIONAL WORK
02
MALIAU BASIN RESEARCH CENTRE
PLACE OF RESEARCH, REST & NATURAL SERENITY
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STUDENT & PROFESSIONAL WORK
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Site Analysis
“To build an architecture of minimal environmental impact and one that encourages users to experience the natural beauty of the conservation area rather than the beauty of a man-built form� As the proposal is designed as a cluster-housing typology, it is the relationships in-between these buildings that are as important as the buildings themselves. Building inhabitors are to feel a sense of community that signals to them that they are living among themselves. It is important for them to work together on how best to flourish in this environment. A village like typology where building occupants support each other. The idea of a climatically comfortable living space is a fundamental need but not underlying principle. THe underlying principle is to provide spaces that immerse users into the natural beauty of the area and to create meaningful experiences, lasting memories and a spirituality to the land, giving them a profound connection to nature.
STUDENT & PROFESSIONAL WORK
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Site plan STUDENT & PROFESSIONAL WORK
Perspective section of researcher’s cabin
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Long perspective section
STUDENT & PROFESSIONAL WORK
Energy diagrams
For cooking and electricity
Seal Access cover
Nutrient rich sludge for fertiliser
Biogas
Complex proteins, fats, and cabohydrates
Short-chain volatile acids
Amino acids, fatty acids and simple sugars Biogas digestor diagram 20
Aluminium roof purifies rain water
25
Water aerated through air gap Second finer screen prevents insects from getting into tanks
Air relief vent with insect screen
Non-portable water to hose bibb or pump
First flush diverter Rainwater tank diagram
STUDENT & PROFESSIONAL WORK
Vent
Cool room panel is consisted of inner foam core and sheets of adhered steel. Allows for cold storage and temperature controlled environment in researcher’s private working space.
Roof ventilated when seat open Fan
Cool room panel diagram
High transmission glass and cell surface texture ensures excellent performance even in low light conditions
Inspection door Compost access door
Premium grade high efficiency 4bb solar cells
Air drawn through heap Compost toilet diagram
Solar panel diagram 24
Butterfly roof takes advantage of negative and positive pressure. Horizontal louvres are placed in direction of wind, creating negative airflow inside the building. As outgoing airflow goes through the opposite louvres, indoor airflow is sucked at a greater velocity to enhance ventilation and user comfort.
Gapped decking in balcony and floor space allows airflow to come from below. This provides added ventilation and moisture to cool users in the building.
Botanical laboratory is positioned facing incoming wind. The incoming wind will then pass through domestic spaces, purifying incoming airflow and add air freshness . STUDENT & PROFESSIONAL WORK
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22
Researcher’s cabin Detailed perspective section
Butterfly roof and high louvres Butterfly roof and high take advantage oflouvres negative and take advantage negative positive of pressure to and increase positive pressure velocity to of increase air outflow velocity of air outflow
Software: Rhino
Long tabl Longactivities table is d activities. Thi
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STUDENT & PROFESSIONAL WORK
panels positioned a 2 degree angle SolarSolar panels positioned at aat 2 degree angle to to maximise energy gained from maximise energy gained from sunsun
Led lighting minimal heat emitLed lighting forfor minimal heat emittance and energy tance and energy efficiency efficiency
Botanical lab allows air to be purified Botanical allows air be purified andlab refreshed in to indoor area and refreshed in indoor area
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Glass louvres maintain visibility and ventilation Glass louvres maintain visibility and ventilation
le is designed to encourage sharing and social s.designed This is not to domestic andsocial research to limited encourage sharing and activities. is is not limited to domestic and research activities.
Researchers work & housing space Section 1:50 20
STUDENT & PROFESSIONAL WORK
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Forest ranger’s and researcher’s cabin interior
STUDENT & PROFESSIONAL WORK
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Researcher’s cabin model
STUDENT & PROFESSIONAL WORK
Forest ranger’s cabin model
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WILKINSON COURTYARD CAFE
ENCLOSED SPACE OF PERFORMITIVITY, REST & SELF SUSTAINABILITY
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STUDENT & PROFESSIONAL WORK
Site plan 27
Long section
Enclosed space is designed using the underlying theme of “self-sustainability”. Architecture that minimizes it’s energy use whilst still serving it’s functionality as a building. The duty for this project was to create an enclosed space situated in the courtyard of Wilkinson building. The building was built on east side of the courtyard to activate the previously dead space. The building prioritizes circulation in and out of the courtyard, natural and active ventilation strategies to minimize energy use. A brick and timber materiality was chosen for its low thermal mass, keeping it cool in the summer.
STUDENT & PROFESSIONAL WORK
Site Analysis 28
were Shadow/light studies
Summer 6am
Summer 12pm
Winter 6am
Winter 12pm
STUDENT & PROFESSIONAL WORK
Summer 6pm
Winter 6pm
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Notes 1. Interior & exterior cladding is made with recycled grey ironbark found in Eastern New South Wales. 2. Pre-painted aluminium roof has been chosen for it’s high solar reflectivity and cooling through the re-emitting of most of solar radiation absorbed. 3. 3 20% efficient 922x1650 solar panels tiled at 23 degrees to capture maximum light. 4. Thermal mass wall to absorb heat during winter daytime and redistributing at night. Thermal mass wall is shaded in the summer. 5. 3000L rainwater tank to provide water for kitchen. 6. Doubled glazed windows provide sound insulation and reduces heat escaped during winter. STUDENT & PROFESSIONAL WORK
Winter strategy
Summer strategy
Notes:
Notes:
1. Thermostatic controller detects indoor temperature and turns system on or off to maintain a consistent temperature. 2. Water is heated with a water heating unit and pumped through to a manifold. 3.Heat is transferred to floor slab and warm slab radiates heat to the room. 4. Water is then redistributed back to water heating unit to be reheated. 5. Photovoltaic panels tilated at 23 degrees facing north.
1. Sliding glazed door is opened during summer-time to let in north-westerlys for cross ventilation and a “cooling senssation”. 2. Sliding circulation doors open when approaching person is sensed and lets air escape for further comfort.
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Trombe wall during Winter daytime
Trombe wall during Winter nighttime
Trombe wall during Summer daytime
Trombe wall during Summer nighttime
Light hits glazing and air rises in glass box and into the house. Air in the house stratifies. Cool air sinks to the floor and escapes through vents, resulting in a warmer house.
By closing shutters, having wool curtains and insulration, heat is trapped during winter nighttime.
Light is reflected from closed shutters, keeping cool air trapped on the inside.
Air movement is induced by the air gap, sucking the cool outdoor air into the interior space whilst also allowing ventilation of warm air to exit through lower vent and exiting to cool space.
Lighting and temperature during Winterdaytime
Lighting and temperature during Winternighttime
Lighting and temperature during Summer daytime
Lighting and temperature during Summer nightime
Partitioned door is closed but still lets in low-angle winter sun to provide light and heat to the space. This heat is stored by thermal mass. Warm air comes into the building due to conduction but indoor temperature remains cooler than outdoor temperature.
Thermal mass redistributes heat gain from the day sun, indoor space begins to rise, targeting a comfortable 24 degrees. Warm air starts to escape due to conduction of cooler outdoor temperature. All openings are closed to trap in heat.
Overhang and shading is used to protect thermal mass from harsh high-angle sun. Walls absorb heat through individuals by convection because of a difference in body temperature and material temperature.
Sliding doors are opened to allow breeze to come in and create a “cooling sensation”. Sliding kitchen window allows for cross ventilation which is not shown in the above section.
STUDENT & PROFESSIONAL WORK
31 Notes: 1. Inverter converts DC to AC 2. Service box distributes necessary energy to building appliances. 3. Electricitygets supplied to kitchen 4. Butterfly roof and shading provide natural movement of rain. Rain goes down a box gutter and into a rain watertank. 5. Rainwater tank is filled to provide water for the building. 6. First flush of contamined water flowing through gutter is diverted into a chamber. 7. Ball prevents contamination from rising to the top. 8. Once chamber is filled up, fresh water flows to the tank. 9. Ball prevents contamination from reaching the tank. 10. Roof downpipe connects to sub drain 11. Stormwater pit located next to elevated garden. 12. Major stormwater drain 13. Box gutter on eduge of overhang 14. Brick veneer 15. Roof overhang
Further notes: - Fridge door is to be airtight sealed to reduce energy usage - Internal cladding, external cladding and kitchen is made of recycled grey ironbark sourced from eastern New South Wales - Low-flow taps are to be installed to reduce water usage and refillable taps would encourage people to bring their own bottles - All timber is finished with ACQ finishing instead of CCA because of the lack of side effects, avoiding contamination if incorrectly disposed - Glazing is 15% of floor on north, 24% of total floor area and 12.6% of total wall area - Roof vent is located above kitchen area - Pantry shelves are elevated to reduce accessibility to pests and vermin - LED lights are used for energy efficiency - Kitchen treated with natural hard finish oil to prevent volatile organic compounds - Glare has been minimised by keeping surrounding trees and positioning building close in proximity to massing of Wilkinson building, dispersing light. STUDENT & PROFESSIONAL WORK
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36 COLLOROY STREET, COLLOROY MODEL BUILDING WORK
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STUDENT & PROFESSIONAL WORK
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An emphasis on the landscape’s contour was the main duty of this project. A close collaboration with a former university tutor led to a successful marriage of imagined design and technology-enabled precision. A collaboration between student and tutor manifested into a successful modelling of a real-life project, 36 Colloroy Street, Colloroy. A series of fortnightly meetings involving an explanation of the building, slight modifications and check-ups on the complicated driveway and piering of the proposal has been incredibly rewarding and highly insightful into working on a real-life project. Both parties were very happy with the final result and it is soon to be home to a family. The drawings on the following pages are not work of my own, rather have been selected to show the drawings used to 3-d model and laser-cut the final model.
STUDENT & PROFESSIONAL WORK
7330 11900
6000
BUILDI
NG HE IGHT
RL. 40.42
RR 37.78 Existing Dwelling RL 37.78
RL. 36.462
6210 8000
2700
200
8500
FFL 33.68
RL 33.202
RL 30.302
Existing slope by survey 1500
P
5237
3000
200
WALL HEIGHTS SHOWN IN BLUE
6700
260
OPE
3000
5558
2450
8500
245
RL. 39.162
Site contours were modeled digitally and layered in 2m stacks. Driveway contours were then adjusted according to sectional drawings. Consequently the building itself was modelled.
ENVEL
1802
RL 27.102
Parking Facility slope < 1V:20H
4095
1200
T
Transitional Slope 1V:10H
Variable Grade Max.1V:4H
1800
B
C
410
G
RL 25.30 by Survey
200
27232 DRIVEWAY DESIGN PLAN NO. A4 3330/4 EH
EAST CUT AT LIVING EAST
CLIENT: Enter client name PROJECT:
poole.j & associates architects
project name project address
poole.j & associates architects 19 campbell street balmain 2041 sydney nominated architect john poole aaca reg. no.6710 PH 0432 386003
DRAWING TITLE:
drawing title
SECTION SCALE 1:100
CHECKED
SCALE
DRAWN BY
1:100 DRAWING NO.
jp
REVISION:
DA BOUNDARY & KERB 21/07/17 EXISTING PROJECT LEVELS MAINTAINED BETWEEN NO. A.02.00 B
0315
No.34 Collaroy
NOTE
21/07/17
NB. Retaining walls, Stairs to structural engineers future detail
EAST BOUNDARY
ISSUE
DATE
Width of excavation at boundary
top of wall 28.78
B
REVISION
No.38 Collaroy
2250
Ex. Stone Wall
1500
1255
- Where not specifically noted or indicated all work is to confirm to the performance standards of the Building Code of Australia and the relevant Australia Standard. Compliance and Certification is the responsibility of The Contractor where required. - Do not scale dimensions from the drawing.
WEST BOUNDARY
No.36 Collaroy
Sec. 3, Calc. RL 26.69 Sec. 2, Calc. RL 25.90 Sec. 1, Calc. RL 25.5
EAST BOUNDARY
SECTION 3-3 NB. Drivers position at 2.5 meters Road side set back as per Fig 3.2 AS/NZS 2890.1.2004
EXISTING LEVELS MAINTAINED BETWEEN BOUNDARY & KERB
1625
Height of excavation at boundary
1214
NB. Concrete stair's to comply with NCC 2016 minimum going of 250mm for public stairways.
Calc. RL 25.9
SECTION 2-2
3185
EXISTING LEVELS MAINTAINED BETWEEN BOUNDARY & KERB WEST BOUNDARY Sec. 1, Calc. RL 25.5
Mulberry tree, see note below
2300
285
NB. RL'S are taken at center line of driveway, refer to Sections East Cut & West Cut for excavation & perimeter details.
750
34
DATE
SECTION 1-1 at Kerb RL. 25.5
C of drive
STUDENT & PROFESSIONAL WORK
Driveway sections then integrated into the 3-d model.
5825
North opening door all (3) levels
TN
8000
external measurements of lift shaft(Not incl. Divicell concrete wall of building
Contours were then adjusted for piering arond the edges of the building (for supposed circulation.
1800
9060
5490
2420
3600
1650
2975
7740
200 Divicell concrete wall runs for 2 levels to 300mm above ground RL 27.100
2000
1100
2165
300 dia Concrete column
2200
2900
9000
4200
9060
12190
LIFT 1100
1400
1320 1130
1300
NB:900 DIA CONCRETE SHORING PIERS @900 C 450W X 500 DEEP CONCRETE CAPPING BEAM REFER TO ENGINEERS STRUCTURAL DESIGN FOR DETAILS BASEMENT LEVEL SLAB STEPS OUT TOO PIERS & DOWN MINIMIUM OF 85mm Refer to Engineering drawings for drainage details
Survey recovery points
CLIENT: Enter client name PROJECT:
PIERING PLAN Scale 1:100
poole.j & associates architects
project address
DRAWN BY
DRAWING NO.
REVISION:
PROJECT NO.
0318
jp
Construction Certificate
ISSUE
16.32M2 PROPOSED LANDSCAPE AREA
NOTE
DATE
All work is to confirm to the performance standards of the Building Code of Australia and the relevant Australia Standards. Compliance and Certification is the responsibility of The Contractor where required.
4JUL18
REVISION
- Do not scale dimensions from the drawing.
D
TN
RL 30.302
COLLAROY STREET
LIVING LEVEL RL 33.202
PH 0432 386003
D
GROUND FLOOR PLAN GARAGE UNDER 6.8M2 SHADE PLANTS FERNS ETC FOR UNDERCROFT COOLING VENTS TO SUB FLOOR
5.5 M2 dedicated (UNCOUNTED) LANDSCAPE AREA D
DECK 4M2
73.3 M2 PROPOSED LANDSCAPE AREA
16.3 M2 dedicated (UNCOUNTED) LANDSCAPE AREA
nominated architect john poole aaca reg. no.6710
Scale: 1:100
CHECKED
SCALE
19 campbell street balmain 2041 sydney
CC DRAFT.vwx
DRAWING TITLE:
drawing title DATE
2000
35
poole.j architects
project name
10.4M2 PROPOSED LANDSCAPE AREA
5.5m2 Uncounted
27.5m2.PROPOSED LANDSCAPE AREA
Endemic Species Of The Coastal Sandstone Foreshores Forest Plant Community
Landscape area 134.32m2 / 40.46% un-counted area 21.8 M2
CLIENT: Enter client name PROJECT:
poole.j architects
project name project address
CC DRAFT.vwx
DRAWING TITLE:
drawing title
LANDSCAPE PLAN SCALE 1:100
DATE SCALE DRAWING NO. PROJECT NO.
Scale: 1:100
CHECKED DRAWN BY REVISION:
0318
jp
Construction Certificate
ISSUE
STUDENT & PROFESSIONAL WORK
D
DATE
4JUL18
REVISION
poole.j & associates architects
19 campbell street balmain 2041 sydney nominated architect john poole aaca reg. no.6710 PH 0432 386003 NOTE
All work is to confirm to the performance standards of the Building Code of Australia and the relevant Australia Standards. Compliance and Certification is the responsibility of The Contractor where required. - Do not scale dimensions from the drawing.
Landscape plan were then adjusted onto site, with gabion baskets installed for slope and channel stabilization.
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PERSONAL PHOTOGRAPHY COLLECTIONS DSLR, LIGHTROOM, PHOTOSHOP
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STUDENT & PROFESSIONAL WORK
CONCEPTUAL PHOTO SERIES
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STUDENT & PROFESSIONAL WORK
ARCHITECTURAL PHOTO SERIES
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STUDENT & PROFESSIONAL WORK
PORTRAIT PHOTO SERIES
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STUDENT & PROFESSIONAL WORK
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STUDENT & PROFESSIONAL WORK