85 Bouverie St Designed by Ehsan Allah Khoshnami Deshri & Hani Mohamed Alfhaid
CONTENT Technical Drawings PLANS A01 Site Plan A1 A02 Basement Floor Plan A1 A03 Ground Floor Plan A1 A04 Typical Office Floor Plan A1 A05 Level 9 Floor Plan . Cafe A1 A06 Reflected Ceiling Plan A1
1:250 1:50 1:50 1:50 1:50 1:50
A3 A3 A3 A3 A3 A3
1:500 1:100 1:100 1:100 1:100 1:100
SECTIONS A07 A08
Section A-A Section B-B
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Bouverie St Queensberry St
A1 1:150 A1 1:150
A3 1:250 A3 1:250
West & North Elevations A1 1:350 North Elevation . Bouverie St A1 1:150 West Elevation . Queensberry St A1 1:150
A3 1:750 A3 1:250 A3 1:250
ELEVATIONS A09 A10 A11
TOILET DETAILS A12
Female Toilet Details
A1 1:25
A3 1:50
DETAILS PLANS A13 Detail 1 A14 Detail 2 A15 Detail 3
A3 1:5 A3 1:10 A3 1:10
DETAIL SECTIONS A16 Detail 4 A17 Detail 5
A3 1:10 v3 1:10
Kalmar Museum of Art Project Address
Kalmar, Sweden
Architect Tham & Videg책rd Hansson Arkitekter
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Prestressed concrete
is a method for overcoming concrete's natural weakness in tension. It can be used to produce beams, floors or bridges with a longer span than is practical with ordinary reinforced concrete. Prestressing tendons (generally of high tensile steel cable or rods) are used to provide a clamping load which produces a compressive stress that balances the tensile stress that the concrete compression member would otherwise experience due to a bending load. Traditional reinforced concrete is based on the use of steel reinforcement bars, rebars, inside poured concrete. Prestressing can be accomplished in three ways: pre-tensioned concrete, and bonded or unbonded post-tensioned concrete.
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419 Flushline Double Glazed Aluminium Framing Systyem - 419 Flushline Double Glazed
Maximum Recommended Sizes Height 4400mm Width 2200mm
Frame Dimensions (Depth & Height) Option 1 100mm x 55mm Option 2 150mm x 55mm
Max. Product Performance SLS (Pa) 1820 ULS (Pa) 3600 WATER (Pa) 1200
Glazing Details Single Glazed Double Glazed
6mm - 16mm 24, 26 & 28mm
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Builder’s Guide
Builder’s Guide
The Elevator Re-Imagined
31-444-044(08-07)
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Steel Cementitious Air Tight System The ASP Air Tight System is a system that is specifically designed to minimise air leakage, when the access floor is to be used as a plenum. This system incorporates the use of a clip on air tight stringer that acts as a barrier in between the panels to eliminate air leakage. This system is recommended for applications such as • General Offices • Banks • Learning Institutions • Libraries • Casinos • 5 and 6 green star rated buildings and projects
DESIGN FEATURES Inbuilt Expansion Joint and Cut Out The panel has a special expansion cut out, and the pedestal head is fitted with an expansion gasket designed to keep the panels separated by 0.3mm at all times. This eliminates the panels clicking or rubbing up against each other during expansion.
4 Corner Screw Panel
Screw hole in each corner to allow panels to be individually screw fixed providing greater rigidity as well as easier and faster access.
AT Cavity Insert / AT Stringer
Clip insert for the attachment of the AT stringer to system.
Finishing Panels
Full bearing 600 x 300mm and 600 x 800mm panels designed to minimize small off cuts around columns and finishing off to the perimeter. The 600 x 300 panel may also be used when there is a necessity for a 300mm x 600mm air grille.
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Perspective View
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Perspective View
7
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Design Drawings SPECIAL DRAWING 1 2 3 4 5 6 7
Axonometric Structural Diagram Axonometric Facade System Diagram Louvre Movement Diagram Sunlight Diagram Energy Diagram BCA Diagram Perspective View
SYSTEMS SPECIFICATIONS a b c
Aluminium Framing Systyem Gen2 Focus2 ASP access floors
. CAPRAL 419 Flushline Double Glazed . OTIS . Steel Cementitious Air Tight System
RESEARCH MATERIAL SUSTAINABILITY s1 s2
40 Albert Rd Surry Hills Library & Community Centre
CORE DESIGN c1 c2 c3
Pixle Design Hub Office hub
CONCRETE k1 k2 k3
Kalmar Museum of Art Book: Constructing Architecture Materials Process Structures Prestressed Concrete Constrution Brief
40 Albert Rd Project Overview
Project Fact Sheet Since the Szencorp Building opened in November 2005, its energy and water use has been carefully monitored. Having real-time performance data has meant that the building’s performance could be tracked and analysed, ensuring it is achieving its design intent and improving on it wherever possible. The Szencorp Building’s Building Management System (BMS) integrates the monitoring and verification system; the lighting; the weather station; active and passive thermal control; and the security system. Each floor is separated into zones, there is a total of 21 zones in the building which operate independently of each other. Temperature, humidity, daylight and lighting levels, air quality and occupation are all monitored in each zone. The BMS has an extensive database and uses this to record variations and compute trends in all aspects of the building use and management.
Performance results at a glance:
Project Address
Schedule
Design Intent
First Year
Second Year
Electricity
95MWh
74MWh
68MWh
Gas
245GJ
367GJ
286GJ
Water
157 kL
121kL
76kL
40 Albert Rd, South Mebourne
1980’s 2006 - 2008
Client Szencorp
Architect SJB Architects
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Surry Hills Library & Community Project Centre Fact Sheet
Project Overview
The project’s brief was developed in close consultation with the very active local community. The key approach that emerged from these discussions was that the community wanted a facility that everyone could share. Rather than only a library or a community centre or childcare centre, it became clear that it was important to have all of these facilities together in one building, in one place. In this way the building became a truly shared place where the whole community could meet and use in different ways. Important, too, was for the building to represent and reflect the community’s values. Transparency became an architectural theme at many levels, allowing an inviting and welcoming building that is accessible and open to public view. At the same time it was important that the building was not merely ‘transparent’, or only expose what is accommodated within, but that it represented and embodied the values of the community. Accessibility, openness, transparency and sustainability were key values as was a general sense of aspiration. From our early studies, four integrated formal elements emerged: a new simple open space and platform, a prismatic glass environmental atrium, a suspended ‘U’ shaped timber form and a transitional foyer space. The tapered glass atrium evolved in response to the ambitious sustainability objectives of the project, and equally to the sense of layered transparency and the project’s aspirational quality. The series of glass prisms creates an open, transparent façade, akin to an open dolls house, and addresses the new open space so that all the different activities of the centre are visible and displayed, encouraging participation. The timber ‘U’ form embraces the prismatic environmental atrium and orient both towards the south and the new little park. The ‘solid’ sections of this timber form are made of automated louvre systems that filter and control sunlight and view. This warm timber form is lifted above the ground to create transparency and accessibility. The foyer space is a lower transitional form that mediates the scale of the building against the adjacent shops while creating a welcoming, transparent entry. Suspended cloud-like roof profiles bring daylight into this space and extend out above the street to mark the entrance. The environmental atrium has become emblematic of the centre and clearly identifies the new building and public place. Looking from the new park through this prism façade, the functions of the building are apparent. The library on the ground and lower-ground levels contains a diverse borrow-
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identifies the new building and public place. Looking from the new park through this prism façade, the functions of the building are apparent. The library on the ground and lower-ground levels contains a diverse borrowing collection of approximately 30,000 items, local history collections, some reference material and public access computers. The community centre on level one comprises a function facility for 125 people and adjoining verandah, meeting rooms, commercial teaching kitchen, Neighbourhood Centre administration offices and amenities. On level two, the childcare centre provides accommodation for 26 children in two groups (1–2 and 2–5 years) and includes an outdoor landscaped play space with automatic shade roof.
Project Address
Schedule
A key project objective was to establish a new Australian standard of excellence for environmentally sustainable design in civic buildings. The building incorporates many sustainable design innovations and seeks to integrate these into the architecture and explore the expressive potential of such systems. This is most evident in the environmental atrium. Crown St, Sydney
2007 - 2009
Client Sydney City Council
Architect Francis-Jones Morehen Thorp
The environmental atrium’s series of triangular, tapering airshafts draw in clean outside air and passively cool it. Experimental use of plants to biofilter pollutants is integrated in the gardens of specially selected plants within these glass enclosures. Natural daylight is filtered through these layers of glass and garden and flow deep into the interiors. The array of environmental initiatives intrinsic to the design also include a thermal labyrinth for passive filtering and tempering of the air, solartracking timber louvre systems, automated fabric shading, mixed mode ventilation, extensive photovoltaic array, geothermal cooling bores, green roof, rainwater collection and recycling, and sustainable material selection. Computerised building management and control systems (BMS) automatically monitor and control the internal environmental conditions of the building, adjusting the ventilation and sunshade louvres throughout the day to control heat load, light and shade, and switching lights on and off when required. The BMS also monitors and records both electrical and hydraulic systems to maximise the environmental efficiency of the building and identify system faults. The centre has been embraced by the local community since its opening. It is a welcoming community place for all ages and all social groups. It provides facilities that embody the values of equity of access to information and resources that are essential to building communities.
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Pixel Project Address
205 Queensberry Street Carlton, VIC, Australia
Architect Stuido 505
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Design Hub Project Address
Swanston Street Carlton, VIC, Australia
Architect Sean Godsell
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Office Hub Project Address
Gurgaon, India
Architect Morphogenesis
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