PG 2
PG 3
PG 4
´ ´ ´
MURRAY SUNSET NATIONAL PARK MILDURA Robinvale RENMARK Sea Lake Hopetown Ouyen Wentworth Berri LOXTON STATE BORDER STATE BORDER Sturt Highway VIC NSW SA Calder Highway Malee Highway Sunraisya Highway Natural Areas & Reserves Main Towns Farm Land SITE ANALYSIS PG 5
Residential Area Commercial Area Growth Area Areas of Residential Consolidation Industrial Area Industrial Growth Precinct Open Use Areas City Boundary Reserves and Public Land Water Bodies Airport Holiday | Business | Visiting people | Other reasons Purpose of Visit 26,4% 40,2% 23,8% 10,7% 27,0% 50,6% 15,5% 6,9% Visitors Nights Friends or relatives property Caravan Park / Commercial camping Hotel / Motor Inn Private camping Rented place Accomodation 4,3% 21,4% 16,6% 4,6% 7,6% + 65 55-64 45-54 35-44 25-34 15-24 Age 19,5% 24,9% 14,6% 20,5% 13,3% 7,2% Gross Regional Product 2007-2008 RURAL CITY OF MILDURA Agriculture, Forestry andFishing Manufacturing PropertyandBusiness Services Retail Trade Wholesale Trade Construction HealthandCommunityServices Education Electricity, Gas and Water supply Transport and Storage Finance and Insurance Mining Government and Defence Other 17% 11% 9% 7% 7% 7% 7% 7% 6% 5% 5% 5% 4% 3% TOURISM PG 6
MILDURA
Residential Area Commercial Area Hotels & Accomodation Schools & Public Buildings Industrial Area Murray River Marina Docks Train Ornamental Lakes Park NSW VIC Chaffey Bridge Sturt Hwy SturtHwy DeakinAve LangtreeAve Riverfront MILDURA BURONGA CBD Murray River NSW VIC SturtHwy DeakinAve BURONGA MILDURA Train NSW VIC SturtHwy DeakinAve LangtreeAve Train NSW VIC SturtHwy DeakinAve LangtreeAve Murray River Train NSW VIC SturtHwy DeakinAve LangtreeAve BURONGA Biodiversity | The green vs The Blue Activity | Sports, Productivity Tourism | Sites of Interest and Hotels Transport | Bus, Train, Bike, Ferry PG 7
USE Proposed Site Accesibility | Pedestrian vs vehicular access Views | Hierarchy of natural, urban and in-site views views Sunlight | Direct sunlight Vs usability Permeability | Integration of communities and groups of interest PG 8
PROPOSED SITE LAND
Test 1 | Stack UrbanSettings River Farming Irrigation LANDSCAPE Farm Gardens Parking Vegetation + Soil Connective Bridges Typoogy Driver Features Experience ACCOMODATION Views Units Natural Environment Rooms Infraestructure Activity Sports RIVER Promenade Docks Community PROGRAMATIC RELATIONSHIPS SocialGatherings Creativity Food Farming CULTURAL ARK Social Promenade Seeds Bank Heritage + Tools Gallery Books Lounge Music Hall Market + Restaurants BRIEF ´ USERS PG 9
SITE PLAN
SECTION
PG 10
LEVEL PLAN PG 11
GROUND PLAN 1ST LEVEL PLAN 2ND
UNITS PG 12
PG 13
PG 14
PG 15
PG 16
planters PG 17
PG 18
PG 19
PG 20
PORT PHILLIP BAY Fishermans Bend Siteplan 3 STUDIO 10 H20 0km 0.25km 0.5km 0.75km 1km YARRA RIVER 4 WORKSTREAM THREE PG 21
Pluvial Flood Post-Pluvial Flood
Communication Points Inactive Water Flow Water Filtration Rain water Costal Water Pre-Rain Flood Control Systems Local Gardens Wetlands Retention Ponds Evaporation Sensors Local Hub Central Communication Hub Water Reuse (Grey Water) Water Storage Discharge to Streams/Rivers Reuse in Local Communities Urban Systems Hard Infrastructure Ground Water Swale Rain Flood Control Systems Rain Water/ Rainwater Tank Evaporation Connection (Grey Water) Water Storage Discharge to Streams/Rivers Local Communities Points of Control Rainwater Runoff Urban Systems Local Communities Green Roofs Pre-Pluvial Flood
Water Filtration Rain water Costal Water Ground Water Swale Post Rain Flood Control Systems Rain Water/ Local Gardens Rainwater Tank Wetlands Retention Ponds Evaporation Sensors Local Hub Central Communication Hub Water Reuse (Grey Water) Water Storage Discharge Reuse in Points of Control Communication Points Water Flow Rainwater Runoff Urban Systems Hard Infrastructure Local Communities Green Roofs 0km 0.25km 0.5km 0.75km 1km 0km 0.25km 0.5km 0.75km 1km 0km 0.25km 0.5km 0.75km 1km STUDIO 10 H20 PG 22
Public Transportation
CBD
0km 0.5km 1.5km 1km N
Suburbs Cycling Paths
Greater Fishermans Bend Context
Parklands + Waterways
PG 23
WORKSTREAM THREE
Wetland Section
WORKSTREAM THREE
Wetland Flooded Section
Precinct
Bridge to Fishermans Bend Wetland Section Riverbank Oyster Buffer 19
Yarra STUDIO 10 H20
Oyster Boardwalk Yarra River Oyster Reef
YARRARIVER
Westgate Precinct Canal Flooded
PORT PHILLIP BAY Flooding Plaza Canal Section Montague Precinct
20
ECOLOGICAL CORRIDOR
The ecological corridor is a large statement for urban planning of the future. The corridor introduces large wetlands, woodlands, salt marshes, and scrubs throughout the spine of the site. The reintroduced vegetation reacts to water fluctuation reducing risk of flood damage, improving water quality, and providing homes for a diverse group of species.
STUDIO 10 H20
Instead of Fishermans bend focusing outward towards the periphery, this corridor becomes a central hub that connects New Port and Williamstown with a cycling path directly to the CBD. The Westgate Freeway has been placed underground creating a berm against the ecological corridor protecting the built infrastructure to the north in severe flooding conditions.
Canal Section
Section
Canal Flooded
PG 24
WORKSTREAM THREE
OYSTER REEFS
MONTAGUE PRECINCT
WESTGATE PRECINCT
Reintroducing oysters into the Yarra River and ecological corridor improves the diversity of species and water quality in the surrounding ecologies. The terraced oyster boardwalk allows for oysters to grow in stages where it would move down the terrace eventually being placed into the open water source. These terraces can also act as berms along the coast for severe flooding events.
Yarra River Oyster Reef Buffer 23 STUDIO 10 H20 24 WORKSTREAM THREE
Street Section High Street Severe Flooding Section 27
The typical Melbourne high street can be found throughout the Montague precinct. Sensors monitor the hierarchy of swales, water storage, and cloudburst roads that act as a three tiered defense system in severe flooding conditions protecting the raised ground floor of stores and restaurants. High
STUDIO 10 H20
The
boarders the walkable employment district.
and
canals connect
ponds with
River
for water
Westgate Precinct
Water ponds
small
bio-retention
the Yarra
allowing
fluctuation to be seen during flooding or drought seasons.
28
PG 25
Pedestrian Streets Pedestrian Streets Flooding Season
WORKSTREAM THREE
YARRA PRECINCT
The Yarra Precinct develops a lively, diverse environment that prioritizes recreation and education. Rethinking Melbourne’s water connectivity, outdoor baths along the coastal scrub and woodland introduces a new way water can be enjoyed near the river.
Melbourne’s newest fishmarket is placed spanning over, and dipping into, the water. The water levels interact with the market giving unique experiences depending on the season. The boardwalk along the exterior of the building allows for water-life and the fluctuating water line to be seen and observed up close. During flooding seasons, the boardwalk and envelope of the fishmarket will begin to submerge allowing for unique views into the underwater ecology.
STUDIO 10 H20
FLOODING PLAZAS
WORKSTREAM THREE
Yarra River Boardwalk
29 STUDIO 10 H20
30 WORKSTREAM THREE
are used to store water in severe flooding conditions signaling warning for flooding events
While plazas can flood, links above the ground level will act as
circulation routes keeping buildings fully accessible to the public in these severe cases.
Plazas
happening in Fishermans Bend.
secondary
Plaza Severe Flooding Events 35
36
PG 26
PG 27
PG 28
PG 29
1 2 3 11 6 7 12 8 9 10 5 4 Flinders Station Yarra River Kings Domain Queen Victoria Gardens Alexandra Gardens Birrarung Marr St Kilda Rd AlexandraAv Linlithgow Ave CityRd Queens Bridge ST MarketSt PowerST Fanning St KavanaghSt Southbank Blvd Sturt St FawknerSt 1 PG 30
Entrance Atrium Kids Learning Temporary Storage Coat Room Room Administration Goods Lift Goods Store Security Gift Shop Loading Dock Ticket 1 2 3 4 5 6 7 8 9 10 11 12 1 To Level 1 To Level 1 Out In To Basement Men Women Ramp 1 2 3 4 5 6 7 8 9 10 12 11 KavanaghSt Southbank Blvd 20 10 5 0 2 N 1 To Ground To Level 2 To Ground Ramp Ramp 1 2 3 4 5 6 7 8 9 20 10 5 0 2 N Art Plaza Goods Lift Entrance Temporary Exhibition Balcony VIP Room Permanent Exhibition Kitchen Restaurant 1 2 3 4 5 6 7 8 9 PG 31
20 10 5 0 2 N Ramp 1 To Roof Top To Level 1 1 2 3 4 5 N 20 10 5 0 2 Permanent
Special Exhibition Permanent Exhibition Goods Lift Permanent Exhibition Temporary Exhibition 1 2 3 4 5 PG 32
Exhibition 1
0 2 5 20 50 10
Foyer Gift Shop AtSi Permanent Exhibition Artist Studios Sculpture Reading Room Administration & Staff 1 2 3 4 5 6 7 8
NGV Loading Dock Art Plaza Sturt St - Underground Skylights 1 2 3 4 5 1 5 8 7 4 6 3 2 5 4 3 2 1 3 2 2 2 2 1 6 7 5 4 1 0 2 5 20 10 Exhibition Exhibition Exhibition Exhibition Mezzanine Exhibition Space Exhibition Space Film Room Terrace Restaurant PG 33
Basement
Promenade
ART PLAZA
view promenade
aerial
PG 34
NGV CONTEMPORARY ATRIUM VIEW
PG 35
Sun 9am Sun 12 pm Sun 3 pm Vertical Construction Strategy
N S
w E Tower Entry Public Entry Hotel Entry
SPENCER ST
LITTLE LONSDALE ST TaxiDrop-O
Wind LONSDALE ST
Southern Cross St
8910
Pedestrian 0 20 0 20
57 Floors Circulation: Overall: Wind Direction Site Plan Scale 1:1000
GFA: Single Floor: 1,285m² Overall: 38,550m² E ciency: 85%
NLA: Single Floor: 1,211.5m² Overall: 36,345m²
HOTEL 25
Floor to Floor Height: Standard: 3.1m² Luxury: 3.6m²
Circulation: Single Floor: 109m² Overall: 2,725m²
7
5
79.5 59
34
40.3 43.4 12
111213 14 15 1617 18 19 B D E F G H K
10,324m² GFA: Overall: 75,017m² E ciency: 86% NLA: Overall: 68,294m² Figure / Ground Scale 1:5000
GFA: Single Floor: 1,392.2m² Overall: 34,805m² E ciency: 93%
OVERALL Algiers Tower Unbuilt Le Corbusier, 1938
Scale: As Indicated Group: Alice Woods, Laura Carrillo, Tejaswini Sridharan
Winter Summer PG 36
St Train Tram Bus A1_01 Applied Architectural Technology ABPL90118 - Tutorial 13 Module 1: Assignment #1 Vertical Construction Strategy Date: 28.03.20 Drawn By: AW, LC, TS Checked By: AW
Vertical Construction Strategy Floor Plate Exploded Isometric Diagram
Low-Rise O ce Medium/High-Rise O ce Sky-Rise Hotel Sky-Rise Crown Podium Low-Rise O ces Medium/High-Rise O ces Service Lift O ces Express Lift Sky Lobby Hotel Rooms Service Lift Hotel Viewing SkyDeck Tourist Lift Fire Stairs General Access Lift - Sky Lobby
Core Isometric Diagram
Precedents Project Info
Scale 1:1000
Central
Scale 1:1000
OFFICE 30 Floors
Floor to Floor Height: Standard: 3.8m² Luxury: 4.2m² Circulation: Single Floor: 216.2m² Overall: 6,486m²
Floors
NLA: Single Floor: 1,211.5m² Overall: 30,287.5m² MLC Centre Sydney, Australia Harry Siedler, 1977
L2 L3 L4 L5 L6 L7 L8 L9 L10 L11 L12 L13 L14 L15 L16 L17 L18 L19 L20 L21 L22 L23 L24 L25 L26 L27 L28 L29 L30 L31 L32 L33 L34 L35 L36 L37 L38 L39 L40 L41 L42 L43 L44 L45 L46 L47 L48 L49 L50 L51 L52 L53 L54 L55 L56 RL +000.00 RL +006.20 RL +010.00 RL +013.80 RL +017.60 RL +021.40 RL +025.20 RL +029.00 RL +032.80 RL +036.60 RL +040.80 RL +044.60 RL +052.20 RL +056.00 RL +059.80 RL +063.60 RL +067.40 RL +071.20 RL +075.00 RL +078.80 RL +082.60 RL +086.80 RL +090.60 RL +094.40 RL +098.20 RL +102.00 RL +105.80 RL +109.60 RL +113.40 RL +117.20 RL +121.00 RL +125.20 RL +132.80 RL +139.00 RL +142.40 RL +145.80 RL +149.20 RL +152.60 RL +156.00 RL +159.40 RL +162.80 RL +166.20 RL +169.60 RL +173.00 RL +176.40 RL +179.80 RL +183.20 RL +186.60 RL +190.00 RL +193.40 RL +196.80 RL +204.40 RL +207.80 RL +211.20 RL +214.60 RL +218.00 RL +221.60 RL +227.80 RL +234.00 RL +238.20 RL +244.40 L1 G 8200 3800 4200 3800 3800 3800 3800 3800 3400 3400 3400 3400 3600 7600 7600 Floor Plates Floor Slabs Under Floor Structure Crown Framing Structural Core Mega Columns Secondary Columns Outrigger TrussesBelt Truss Floating Curtain Wall Structural Support Ties Overall Section Scale 1:500@A1 0 10m C1 C2 BB1 BB2 BB3 EB1 Pro le SCHEDULE DepthWidth Structure 1200 1400 1800 500 700 600 400 400 2400 1200 Concrete Mega Secondary Column Primary Beam Secondary Beam Secondary Beam Edge Beam SL1 SL2 Slab Slab 2 (Corners) N/A 120 180 N/A 1200 1400 1800 2400 500 700 Exploded Isometric 0 10m Structure and Architecture Structure and Architecture A2_01 Applied Architectural Technology ABPL90118 - Tutorial 13 Module 2: Structure and Architecture Assignment #2 Date: 09.05.20 Drawn By: AW, LC, TS Checked By: AW Scale: As Indicated Group B: Alice Woods, Laura Carrillo, Tejaswini Sridharan TS1 TS2 8685mm* *At ground attaching to Northern facade. Varies to accomodate core to column span Web Width: 600mm 600mm 0.5m 0.5m 6.88m 6880mm 0.5m 0.5m Web Depth: 600mm 600mm 600mm 600mm Web Width: 500mm Web Depth: 500mm **Variable to accomodate mega-columns PG 37
A2.3 Applied Architectural Technology ABPL90118 - Tutorial 13 Module 2: Structure and Architecture Assignment #2 Date: 09.05.20 Drawn By: AW, LC, TS Checked By: AW Scale: As Indicated Group B: Alice Woods, Laura Carrillo, Tejaswini Sridharan
PG 38
Structural Elevation Crown Structure View
A4.5 Applied Architectural Technology ABPL90118 - Tutorial 13 Module 2: Structure and Architecture Assignment #4 Date: 13.06.20 Group 13: AW, LC, TS Checked By: LC Scale: As Indicated Drawn By: Laura Carrillo Acosta Podium Perspective View NW Podium Partial Elevation Scale 1:50 1 A4.5 NW Podium Partial Plan Scale 1:50 3 A4.5 NW Podium Partial Section Scale 1:50 2 A4.5 Top Truss Detail Fins & Mullions System PODIUM DETAILS PODIUM DETAILS Structural Glass Facade SEAMLESS STEEL FIN - INVERTED L SHAPE SECONDARY STRUCTURE 60 x 400 mm (W x D) FIXED TO TRUSS BY SPLICE PLATES AND BOLTS LIGHT BRONZE PAINT FINISH STRUCTURAL GLASS FACADE PANEL AUTOMATIC SLIDING DOOR GLASS PANEL CUSTOMIZED FIXED FITTING FOR ANGLED FINS ON CORNERS CONNECTED TO FLOOR BY SPLICE PLATES IN OUT STRUCTURAL GLASS FACADE WALL TOWARDS SPENCER STREET CONCRETE FLOOR SLAB OUT IN CURTAIN WALL SPANDREL (BEHIND) DOUBLE FACADE CURTAIN WALL (BEHIND) A4.5 2 7400 3000 LEVEL 4 SSL 19.600 GLASS RAILING 50 x 50 x 3450 mm (HxDxW) FIXED TO FINS AND FLOOR LIGHT BRONZE ANODIZED ALUMINIUM FINISH AUTOMATIC SLIDING DOOR GLASS PANEL 2100 x 3450 mm (WxH) CLEAR GLASS FINISH STEEL TRANSFER BEAM 7400 x 215 x 530 mm (WxHxD) WELDED TO LATERAL FINS LIGHT BRONZE ANODIZED ALUMINIUM FINISH AUTOMATIC SLIDING DOOR SENSOR INSULATING TEMPERED DOUBLE GLASS 12mm x 12A x 12mm GLASS PANEL 3800 x 2450 mm (WxH) FIXED TO FINS BY FIXED FITTING DARK GLASS FINISH SILICONE SEALANT WITH BACKER ROD 15 mm GLASS FIXED FITTINGS 60 x 125 mm (WxH) FIXED TO GLASS AND STEEL FIN LIGHT BRONZE PAINT FINISH CORNER GLASS FIXED FITTINGS 60 x 125 mm (WxH) FIXED TO GLASS AND STEEL FIN LIGHT BRONZE PAINT FINISH 3 2 LEVEL 1 FCL 7.600 LEVEL 4 FCL 19.000 LEVEL 3 FCL 15.200 LEVEL 2 FCL 11.400 LEVEL 1 SSL 8.200 LEVEL 2 SSL 12.000 LEVEL 3 SSL 15.800 GROUND FFL 120 19.300 GROUND FFL 120 FFL 1 8.320 FFL 2 12.120 FFL 3 15.920 FFL 4 19.720 STEEL STRUCTURAL TRUSS PRIMARY STRUCTURE 850 x 450 mm (HxW) FIXED TO TOWER ON SPANDREL LIGHT BRONZE PAINT FINISH STEEL FIN ON ANGLE TO FIT IN CORNER (SAME SPECIFICATIONS US ABOVE) CONECTED TO STRUCTURAL GLASS WALL BY FIXED FITTINGS INSULATING TEMPERED DOUBLE GLASS PANEL 1570 x 3450 mm (WxH) CUSTOMIZED FIXED FITTING STEEL COLUMN PODIUM TRUSS SUPPORT 450 x 450 mm LIGHT BRONZE PAINT FINISH (BEHIND) SINGLE FACADE CURTAIN WALL (BEHIND) STRUCTURAL GLASS FACADE PANEL AUTOMATIC SLIDING DOOR GLASS PANEL GROUND FLOOR ENTRY HALL TO OFFICE LEVELS CONCRETE MEGACOLUMN C1 - 2400 x 2400 mm (BEHIND) STEEL FIN SECONDARY STRUCTURE STRUCTURAL GLASS FACADE 1 A4.6 2 A4.6 STEEL STRUCTURAL TRUSS PRIMARY STRUCTURE (OVER) STEEL SPLICE PLATES - 10 BOLTS 100 x 275 (WxH) LIGHT BRONZE PAINT FINISH STRUCTURAL GLASS FACADE WALL TOWARDS NORTH WEST SEAMLESS STEEL FIN - INVERTED L SHAPE SECONDARY STRUCTURE (OVER) A4.6 3 STEEL TRANSFER BEAM 215 x 530 mm (HxW) WELDED TO LATERAL FINS LIGHT BRONZE PAINT FINISH STEEL TRANSFER BEAM 215 x 530 mm (HxW) WELDED TO LATERAL FINS LIGHT BRONZE PAINT FINISH STEEL STRUCTURAL TRUSS PRIMARY STRUCTURE 850 x 450 mm (HxW) FIXED TO TOWER ON SPANDREL LIGHT BRONZE PAINT FINISH 3 2 PG 39
A4.6 Applied Architectural Technology ABPL90118 - Tutorial 13 Module 2: Structure and Architecture Assignment #4 Date: 13.06.20 Group 13: AW, LC, TS Checked By: LC Scale: As Indicated Drawn By: Laura Carrillo Acosta Perspective Views Office Levels Entry SGF - Roof connection Detail Scale 1:10 1 A4.6 Automatic Sliding Door Detail Scale 1:10 2 A4.6 SGF - Angled Fin Connection Scale 1:10 3 A4.6
Apple Store, Sydney Point Support Fixed Fittings & L Fins Design Online Detail Welded fittings to steel beams GEZE, Slimdrive SL Invisible Automatic Sliding Door Saint Gobain, Vertical Facade System Metal Fins Design Shangai Tower Podium Integration with tower 3D Pararell View 3D Fitting Detail 4 A4.6 SEAMLESS STEEL FIN - INVERTED L SHAPE SECONDARY STRUCTURE 60 x 400 mm (W x D) FIXED TO TRUSS BY SPLICE PLATES AND BOLTS LIGHT BRONZE PAINT FINISH STEEL SPLICE PLATES - 10 BOLTS 100 x 275 (WxH) LIGHT BRONZE PAINT FINISH CUSTOMIZED FIXED FITTING EXTERNAL PLATE 60x60x20 mm INTERNAL BRACKET IN ANGLE LIGHT BRONZE PAINT FINISH SINGLE FACADE CURTAIN WALL INSULATING TEMPERED DOUBLE GLASS 12mm x 12A x 12mm GLASS PANEL 3800 x 2450 mm (WxH) FIXED TO FINS BY FIXED FITTING DARK GLASS FINISH STEEL STRUCTURAL TRUSS PRIMARY STRUCTURE 850 x 450 mm (HxW) FIXED TO TOWER STRUCTURE ON SPAN LIGHT BRONZE PAINT FINISH SILICONE SEALANT WITH BACKER ROD 15 mm CUSTOMIZED FIXED FITTING STEEL SPLICE PLATES - 10 BOLTS 100 x 275 (WxH) LIGHT BRONZE PAINT FINISH INSULATING TEMPERED DOUBLE GLASS 12mm x 12A x 12mm GLASS PANEL 3800 x 2450 mm (WxH) FIXED TO FINS BY FIXED FITTING DARK GLASS FINISH STEEL TRANSFER BEAM 215 x 530 mm (HxW) CONNECTED TO LATERAL FINS WITH SPLICE PLATES LIGHT BRONZE PAINT FINISH SLIDIDNG DOOR MOTION SENSOR FRAMELESS GLASS AUTOMATIC SLIDING DOOR SYSTEM AUTOMATIC SLIDING DOOR GLASS PANEL 2100 x 3450 mm (WxH) CLEAR GLASS FINISH OUT IN OUT IN SEAMLESS STEEL FIN - INVERTED L SHAPE SECONDARY STRUCTURE - 60 x 400 mm (W x D) FIXED TO CIELING TRUSS AND STEEL TRANSFER BEAM BY SPLICE PLATES AND BOLTS LIGHT BRONZE PAINT FINISH STEEL STRUCTURAL TRUSS BEAM PRIMARY STRUCTURE (OVER) STRUCTURAL GLASS FACADE WALL TOWARDS NORTH WEST STRUCTURAL GLASS FACADE WALL TOWARDS SPENCER STREET M14 BOLTS X 60 MM CONNECTS FIN AND STEEL ANGLE LIGHT BRONZE PAINT FINISH ANGLED STEEL FIN IN CORNER JOINS 2 STRUCTURAL GLASS WALLS FIXED WITH CUSTOMIZED FIXED FITTING. INVERTED L SHAPE SECONDARY STRUCTURE (OVER) STEEL SPLICE PLATES - 10 BOLTS 100 x 275 (WxH) CONNECTS FIN TO GROUND FLOOR LIGHT BRONZE PAINT FINISH CUSTOMIZED SPLICE ON FIXING POINT SUPPORT BRACE CONNECTED WITH M14 BOLTS TO ANGLED FIN CUSTOMISED FIXING POINT SILICONE SEALANT WITH BACKER ROD 15 mm IN OUT CUSTOMIZED STEEL ANGLE 10 x 275 mm (WxH) CONNECTS FIN TO PRIMARY TRUSS LIGHT BRONZE PAINT FINISH SILICONE SEALANT WITH BACKER ROD 600 mm STEEL FIN WELDED TO FITTING BRACKET LIGHT BRONZE PAINT FINISH CUSTOMIZED FIXED FITTING EXTERNAL PLATE 60x60x20 mm INTERNAL BRACKET IN ANGLE LIGHT BRONZE PAINT FINISH DOUBLE GLAZZING DARK GLASS FINISH FIXED TYPE GLASS FITTING 50 mm x M10 FIXED TYPE MARINE GRADE STAINLESS STEEL A4.6 4 PG 40
Detail Precedents
PG 41
ct 1 PG 42
P r e c e d en t R e s e a r c h: J a p a n e s e H o u s i n g | P r o j e
r e c e d en t R e s e a r c h: J a p a n e s e H o u s i n g | P r o j e
ct 1 PG 43
P
P
P
j e ct 1 PG 44
r e c e d en t R e s e a r c h: J a p a n e s e H o u s i n g |
r o
P
| P
o j e ct 1 PG 45
r e c e d en t R e s e a r c h: J a p a n e s e H o u s i n g
r
PG 46
Green Pockets
EcoNNect 306 Bayfront Ave, Singapore
the Initiative Green Pockets + It creates natural premium areas that improve indoor quality by the + It boosts well-being in the occupants as they interact with a beautiful + More than 1920 m2 of green courtyards and gardens in the building Timber Annex Studs Walk Path Concrete Slab Soil Drainage Pipes Watering System Vegetation PG 47
Detailed Initiative Report
About
Air Filtration Co2 Emissions Reduction Rainstorm water re-use Shading and Daylight Filtration Interior Temperature Reduction Thermal Mass Reduction Well Being Generation Aesthetics Upgrade Sustainable Singapore Blueprint
Concerns / Risks
306 Bayfront Ave, Singapore Constant mantainance and care PG 48
Green Pockets EcoNNect 306 Bayfront Ave, Singapore
Key
Green Pockets EcoNNect
EcoNNect 306 Bayfront Ave, Singapore
PASSIVE DESIGN
The main concept of the project is to provide a healthy and comfortable work space where people have the opportunity to interact with the interior greenery and enjoy a fresh and active environment. This building is designed with an environmental and ecological approach where combinations of
area, daylight, ventilation and overall comfort across the project.
The building is oriented facing the North West connecting the main entry to Waterfront Ave to provide a better access to the building, and to maximize daylight and views on the NW and SE primary facades, which at the same time are shaded by light shelves. The building is also divided by a central void and is elevated in stills to allow constant day light and ventilation across the project, improving the air quality and thermal mass.
The two wings of the building are connected by central bridges, and the vertical circulation is given by lifts on the center and by staircases on the side Annexes. This circulation arrangement promotes healthy walking and active movement through the building. It also has double height storeys to the spaces.
RAINSTORM HARVESTING
Rainstorm Harvesting is important to this project as a way to integrate the available free service to the building and have a more sustainable water consumption, considering the high precipitations of Singapore. This system allows to collect rainstorm water on roof and annexes catchments to feed the chilled beam system.
Each large courtyard (320sqm) provides a fresh and healthy environnment. The greenery acts as a natural air, light noise the interior space quality and comfort.
By
MAIN GOAL:
A Green Building for a human-nature connection at work.
GREEN POCKETS
The premium feature of this project is without any doubt the Green Pockets located along the NE and SW Annexes, and along
between the work space and the natural environment . The large
communal space to share, enjoy and recharge. This areas were thought to improve the overall productivity and generate well
The courtyards and central gardens will also improve the perfor-
tion, reducing thermal mass on the slabs, improving the aesthetics of the building and complying with Singapores green ordenances.
LOCATION
SHADING ANNEXES
Shading Annexes are timber shading structures along the NE and SW facades that performs as enclosing screens to create outdoor space in every storey of the
opportunity to create green pockets with beautiful shaded courtyards and common access space (stairs and halls), allowing the building and the occupants to have a fresh and natural “outdoor” environment inside the building.
306 SOLAR PV ON ROOF
Following the sustainable design principles and to “self-provide” energy, the project has installed 306 solar PV panels on the roof to catch solar energy and generate a big amount of the needed electricity to run the internal systems. This clean energy system panels layout cover the roof slab and decrease its the thermal
The central void helps to introduce dayligh and ventilation to the building and also acts as a passive thermal stack feature. Rainwater
Solar panels on roof for energy collection
Timber shading annexes space and create green pockets
Use of lightweight materials to keep the building fresh and avoid thermal mass.
through internal operable windows and louvres. Wind also can go through the central void disipating hot air through the ground open space and through the Green Annexes.
*
N S W E SUN WIND N S W E ORIENTATION N S W E SOURCE:
Reference project for the shading annexes SOURCE: Lecture 1 - ESD
The Nature Conservancy
WATER IEQ
DESIGN
Annexes as parasol strategy
Panels on the roof to provide
building energy. Rainstorm Harvesting System Green Pockets
for better passive performance ENVIRONMENTALS SYSTEMS Tutorial 8 - Dr Chris Jensen
FACADE ENERGY
PASSIVE
Shading
Photovoltaic
xx% of the
Building design and orientation
Lift Lift Hall Hall Ventilation Rainwater Harvesting Solar Hot Water Programme Sunlight Sunlight Light Filtering
Laura Carrillo Acosta ID 1061901
Outdoor lansdcapping with tall trees and gardens to extend the natural environment and decrese site temprerature
and
catchments
tank on ground for collection and water storage.
Rainwater Tank
PG 49
