Thursday, May 27, 2010

Recognition to Architecture

The Queensland Regional Architecture Awards for 2010 will be given away in June this year by the Queensland Chapter of the Australian Institute of Architects (AIA). Outstanding architecture projects submitted by members of the Institute this year were judged on different parameters and honoured.

Descriptions of some of the nominations follow.

UQ Rural Building

The Rural Clinical School building of the School of Medicine in Toowoomba won the Regional Commendation at the 2010 Darling Downs Regional Architecture Awards. This building was designed by Arkhefield architects at a cost of $4.2 million. The highlight of this clinical centre is its unique design structure.

The facility boasts of a state-of-the-art teaching and learning space for up to 80 students, a dedicated Clinical Skills Laboratory, advanced audiovisual equipment, a 24-hour computer lab and a Lectopia education recording system.

This Rural clinic building makes use of concrete walls, copper soffits, and timber doors complemented by large expanses of glass. The jewel in the crown of the design is its sustainable aspects such as self-supporting glass walls, solar energy for winter heating and a smart air-conditioning system to independently service different sections of the facility.

Lady Elliot Island Eco Resort Hybrid Solar Power Station

The Lady Elliot Island Eco Resort Hybrid Solar Power Station was designed by Peddle Thorp Architects and will be the largest Off Grid Power System in Queensland funded under the Government program. This hybrid off-grid power station offsets the electricity needs of the resort whilst reducing carbon emission, noise and reliance on fossil fuel.

The Hybrid Power Station consists of 130 square meters of Solar Panels, Battery Banks with 48 cells, Inverters, and a brand new generator that is a third of the size of current units. Initial reduction in fuel consumption and emissions is estimated to be approximately 40% and the proposed system is expandable, allowing for additional solar panels or wind generators to be added over time, thus further reducing reliance on fossil fuels.

Marcus Beach House

Marcus Beach House received 2010 Sunshine Coast Regional Architecture Award. This house - designed by Bark Design Architects - enjoys a natural, coastal setting, providing its occupants a chance to be one with the landscape and surrounding environment.

Windows and doors of the Marcus beach house are positioned in a way that they capture the prevailing breezes; and an overhanging roof protects the house from direct sunlight. Artificial lighting is kept to a minimum owing to appropriate glazing. The roof over the Master Bedroom pavilion rises to the north providing a band of high level, operable, clerestory glazing that captures daylight and allows warm air to escape, setting up an effective ‘stack effect’ natural cooling process. This eliminated the need for air conditioning.

Maleny House

Maleny house is designed by spark Architects in the sunshine coast hinterland. This house is also one of the architectures to own the 2010 Sunshine Coast Regional Architecture Award as Marcus Beach House. Expansive decking, terraces and large amounts of glass – extending to the skillion roof in places – open the internal spaces to the outdoors, creating a sense of a house without walls.

The Maleny house makes use of recycled hardwood from 60-year-old telegraph poles. The house’s old concrete rainwater tank has also been put to good use, incorporated into the landscaping; now forming a terrace for an oversized chessboard. The presence of 5 additional water tanks allows storage of up to 120,000 litres of rainwater.

Energy and consumption have also been addressed with a ‘butterfly’ roof capturing winter sun – and allowing for a number of solar panels – and polished concrete floors in the extension providing thermal mass. Herb and vegetable gardens have also been developed, aiding the owners in self-sufficiency.

CeraGlass India 2010

CeraGlass India 2010, a unique international trade fair on Ceramics & Glass, is slated to be held from 11th - 14th November 2010 at Export Promotion Industrial Park (EPIP), Sitapura, Jaipur, India. This fair is being organised by the Rajasthan State Industrial Development & Investment Corporation Ltd. (RIICO), Confederation of Indian Industry (CII) Northern Region and Indian Ceramic Society, All India (ICS).


CeraGlass India 2010 will allow a glimpse into the best and latest in ceramics, glass and allied products manufactured in India and abroad, while providing an ideal platform for the birth and nurturing of international business partnerships.

Product Profile

CeraGlass India will showcase the following categories of products:

  • Ceramic glazed wall & floor tiles
  • Porcelain sanitary ware & allied products
  • All types of glass products
  • Porcelain, bone china, stoneware & other tableware
  • High & low tension insulators
  • Ceramics colours, frits & glazed products
  • Industrial & technical ceramics
  • Cement & allied products
  • Ceramics fibre & refractory products
  • All kinds of glass & ceramic minerals
  • Kiln designs
  • Industrial abrasives
  • All types of gypsum products
  • Handicrafts of ceramics, glass based articles & blue pottery
  • Plants, equipment manufacturers & technology suppliers for ceramics, glass & allied products

Exhibitor Profile

  • Suppliers and manufacturers of Glass, equipment for Ceramic and Allied Products
  • Manufacturers of Ceramic Tiles and Porcelain Sanitarywares
  • Manufacturers of Float, Sheet and other Glass Products
  • Manufacturers of Ceramic Tableware and Art Products
  • Manufacturers of Refractory, Industrial Ceramics and Allied Products
  • Furnace & Kiln Designers and Technology Suppliers
  • Raw Material Suppliers to the Ceramic & Glass Industry
  • Sectoral Industry Associations, International Industry Associations
  • Research & Development, Education and Training Institutions
  • End users of Ceramic, Glass & Allied Products

Visitor Profile

It is expected that the fair will attract diverse groups of visitors.

  • Builders, Architects, Interior Designers, Consultants
  • Buyers, Users, Traders, Importers, Exporters of Ceramic, Glass & Allied Products
  • Buyers, Users of Refractories from Steel, Ceramic & Glass Industry
  • Scientists, Engineers, Medical Institutions, Doctors & Students
  • Ceramic & Glass Raw Material Processors and Suppliers
  • All types of Plant & Equipment Manufacturers, Suppliers and Users
  • State Electricity Boards, Transformer Manufacturers & Suppliers, Railways, Railway Equipment Manufacturers, Auto Ancillary Manufacturers
  • Hotels, Hospitals and Institutional buyers

Conferences & Seminars

Conferences and seminars at CeraGlass 2010 will cover the following subjects:

  • Emerging Trends in Ceramic Tiles & Sanitarywares
  • Emerging Trends in Ceramic and Glass Industry
  • Investment Potential in India
  • Role of Ceramic, Glass and Allied sector in construction Industry
  • Kiln Technologies
  • Advanced Ceramics
  • Modern Plant & Machinery for Ceramic & Glass Industry

Wednesday, May 26, 2010

Energy Efficient Glass Structure - European Investment Bank Headquarters



The winner of the first place in the Emilio Ambasz Prize for Green Architecture for International Buildings this year was European Investment Bank in Luxembourg. This truly iconic building was designed by Ingenhoven Architects.

This extensively glazed building is famed for its unique structural design, apart from several energy-efficient design elements. By virtue of these qualities, this office building achieved the coveted “Very Good” rating under the United Kingdom’s Building Research Establishment Environmental Assessment Method (BREEAM). It is also the first building on continental Europe to have been assessed under this scheme.


The headquarters of the EIB boast of a 170 meter-long tubular glass and steel structure with a zigzagging non-hierarchical office layout. This 72,500 sq meter building has enough office space and facilities for 750 employees and includes indoor ‘warm’ atria, a cafeteria, restaurant, and a connection to nearby buildings.

The building is completely shielded by 13,000 sq meters of glass that allow the penetration of daylight easily from all angles. Operable windows allow occupants to directly control the room temperature and permit natural ventilation.

Glass Roof


The highlighted tubular glass roof, framed with light-weight steel, covers 170m by 50m of building area. Being glazed, the roof offers maximum daylight and transparency and is key to the building’s environment-friendly concept as it curves around the office floor plates. The tubular glass envelope allows for daylighting of the working bays. The transparency of the external envelope is reflected internally by an open office layout that promotes free interaction.

This glass roof curves around the floor plates to create atriums in the V-shaped “gaps” of the building wings. The landscaped winter gardens on the side of the valley are unheated and act as climate buffers; they reduce variations between the outside temperature and the desired temperature in the offices, thereby contributing to lowering heating requirements in winter and cooling requirements in summer.

In contrast, the atriums on the boulevard side serve as circulation spaces. The largest atrium houses the main entrance to the building, and so temperatures in these areas have to be kept at a comfortable level. Both winter gardens and “warm” atriums are naturally ventilated through open flaps in the shell to draw fresh air into the building and to reduce heat gain especially in the summer months.

Cold water pipes also run through the concrete floor slabs, creating chilled ceilings in order to cool the building in summer and to regulate the building temperature between seasons. In winter, thermal energy from solar heat gain is used to heat the building, thus reducing energy consumption.

Energy Conservation


Mechanical systems such as lighting, sun shading, heating, cooling and ventilation can be controlled individually. Wastage is avoided as much as possible, as individual settings are reset to the most efficient levels possible several times a day by the central control unit. Staff members can open their windows to the atriums and winter gardens or to the outside at almost all times.

All offices are equipped with a control panel that allows building users to individually regulate blinds for sun shading, lighting and temperature. Artificial office lighting is restricted to 300 Lux throughout the offices. However, staff can illuminate their individual work spaces with desk lamps to 500 Lux. This overall reduction in general lighting Lux levels significantly reduces the building’s energy consumption.

All surfaces - walls, floors and ceilings - are also designed to make optimum use of daylight, enhance luminosity and thus contribute to a pleasant working atmosphere.

Efficient Construction Materials

Construction materials were selected in accordance with the energy used for their manufacture, with materials with the least energy consumption given preference. The internal façade frames, for example, which cover a surface area of 17,600m2, are made of wood rather than aluminium because research found that the energy used in the manufacture of the wooden materials is only 2% of that which would have been expended in the manufacture of the equivalent aluminium profiles.

This environmental philosophy extended to the construction site, where the majority of materials were chosen for their small environmental impact. For example, all wood used has been certified by the FSC or the PEFC (programme for the endorsement of forest certification).

Trump International Hotel &Tower - A Sense of Glass


Trump Tower Dubai, or The Palm Trump International Hotel and Tower, is slated to be the jewel in the crown that is the Palm Golden Mile – a man-made island, located on the trunk of the Palm Jumeirah in Dubai.

This iconic building is the Trump Organization's first project in the Middle East and has been designed by Atkins architects. This tower will also be among Dubai’s greenest constructions.

Standing at a height of 270 metres, this 62-storey skyscraper hosts a luxury hotel, exclusive residential apartments, a three-storey entrance lobby, boutique offices, a swimming pool, restaurants, a dramatic sky lobby suspended high above a beautiful park, a business centre and so on.

With the ‘split-linked’ design, the towers stand on a four-storey bisected podium structure that houses the main car parking facility. At the tips of the two asymmetric elements sit twin sets of glazed, diamond shaped pinnacle structures that embrace the restaurants and sky bars. A spacious triple volume lobby is suspended between both towers above the park. This lobby is encased within a clear, light weight glazed roof, which gives it an exotic look.

Façade

The façade is nothing short of an awe-inspiring marvel in clear and tinted glass, white and silver aluminium panels, coloured granite and marble-faced blade walls and stainless steel. The vertical spacing of the façade will be based on the floor-to-floor height of 3.6m while the horizontal spacing will be based on a combination of the structural grid and the widths of the bedrooms and living areas to achieve a maximum number of vision bays for each room. Balconies have been restricted to the narrow ends of the floor plates only, allowing the external skin on the main façade to remain part of a sleek and smooth, glazed curtain wall.

Residence Collections

There are 3 collections of residences that have been designed in and around the south towers, namely Platinum, Titanium and Pinnacle collections. These residences incorporate ultra-premium kitchens and baths with finest European cabinetry, appliances and fixtures.

Viewing desk and restaurants are situated on the topmost floors of both towers and these will be designed as multi-volume, glazed spaces which will encompass dinning and viewing galleries. This Hotel & Tower will be expected to be completed by the summer of 2011.

Thursday, May 20, 2010

Glazette Congratulates Pritzker Awardees

SAANA, a Tokyo-based architectural firm, is owned by architects Kazuyo Sejima and Ryue Nishizawa. They have won the Pritzker – the highest honour in the world of Architecture & Design.

Let us see how SAANA has used glass in creating the extraordinary designs that won them the Pritzker.

1. Reinventing coexistence with glass

The 21st Century Museum of Contemporary Art, Kanazawa

The 21st Century Museum of Contemporary Art is located in the center of Kanazawa, one of the nation’s historical centers, on the north coast of Japan. The building contains community gathering spaces, a library, lecture hall, children's workshop, as well as museum spaces. The variously proportioned rooms placed inside the circular building - the model based on a chain of islands or an urban space - signify the centers that generate values originating in the maldistribution of decentrism and polycentrism, and in remote regions.

A walk inside along the curved glass of the exterior facade smoothly unfolds a 360 degree panorama of the site. Four fully glazed internal courtyards, each unique in its character, provide ample daylight to the center and a fluent border between public zone and museum zone. The scattered location of the galleries provides transparency with views from the periphery into the center and vistas through the entire depth of the building. The transparent corridors encourage “coexistence” in which individuals remain autonomous while sharing personal space with others.

Gallery spaces are of various proportions and light conditions - from bright daylight through glass ceilings, with a black-out possibility, to spaces with no natural light source. Their height ranges from 4 meters to 12 meters. The design that allows the visitor to decide on the route through the museum, combined with the flexible gallery rooms that can adapt to every type of media, guarantees the trans-border diversity of the programs that will be held in the space. The intention behind all of these elements is to stimulate the visitor’s emerging awareness.

Specificity to each gallery space is a benefit of the building concept and has been fully explored. The museum can be entered at many places and explored from all directions. Visitors can walk completely around the building inside the glass perimeter. The 21st Century Museum of Contemporary Art has central exhibition spaces surrounded by areas for municipal services such as a library, a workshop for children, and a conference room. There are four inner courtyards enclosed by glass, and many of the rooms have skylights to provide diffused natural light.

Site area: 26,000 square meters
Building area: 9,500 m2
Total Floor area: 17,300 square meters
Completed: 2004
Client: The City of Kanazawa
Archtitect: SANAA
Structural engineer: SSC/ Sasaki Structural consultants
Mechanical engineer: ES Associates
Electrical engineer: P.T.Morimura & Assoc., LTD
Landscape: SANAA
Furniture: SANAA

The 21st Century Museum of Contemporary Art

2. The Glass box- The Christian Dior Building , Omotesando

The Dior building is a showcase for Dior's designs, a fairly straightforward trapezoid box in Tokyo's center of fashion, Omotesando Avenue. While the box itself is unexciting - though modulated by some variety in floor height, articulated by the bands around the building - the building's showpiece is its skin. The clean, square, outer skin of clear glass covers a second skin inside, of translucent acrylic. This gives the external facade the gentlest of hints at what is inside (while revealing nothing), and provides a glowing blank canvas for seasonal additions.

Designed by experimental Japanese architect duo Kazuyo Sejima and Ryue Nishizawa, known collectively as SANAA, the building is a pristine white box with sharp edges and occupies the entire trapezoidal site.

Couture dress, the ultimate beauty in fashion, is the main source of inspiration for this new creation. Standing at 30 m tall, it seems to be like an eight-storey high building with a dramatic double-skin façade of transparent flat glass on the outside and softly curved, white translucent acrylic panels on the inside, reminiscent of the drape of a dress. White stripes are printed on the acrylic walls so that the building's appearance changes beautifully depending on the light during the day and the level of penetration of lighting at night. A few white horizontal aluminium bands further break the continuous volume into several unequal segments. This slender white box speaks of an elegant femininity that enables it to stand out effortlessly along the star-studded street. Not revealing entirely what is behind the white drapes, it exudes an air of mystery that invites one to step into the luxury world of Dior and explore.

Internally, a different world awaits revelation. Instead of the eight floors of boutique space perceived earlier from the street, there is only one basement floor and five above-ground levels. The basement and the first three floors are devoted to the various retail lines under the Dior umbrella; there is one multi-purpose event space on the fourth floor and a rooftop garden above. The reason for this apparent misrepresentation of floors is the enlargement of mechanical space from the minimum requirement of 1.5 m to greater heights that befit the overall façade composition. Instead of hiding them, SANNA expressed and skilfully incorporated them to create a slender volume that built right to the maximum allowable height. The legibility of spaces is aided by the varying degree of transparency whereby the mechanical spaces are the most opaque.

The interior of the building might be eclectic, but the thermoformed acrylic drapes manages to manifest a coherent image that symbolises Dior's femininity and arouses one's imagination at the same time. When looking towards the cityscape from inside, one seems to be in a fairyland engulfed by this cloud of fuzzy whiteness.

The Christian Dior Building

3. Interconnected transparency - The Toledo Museum of Art Glass Pavilion

The annex to the Toledo Museum of Art is both an exhibition space for the museum’s glass collection, and a glass making facility. Conceived as a single one-storey volume penetrated by courtyards with sightlines through layers of transparent walls, the visitors experience will always involve the surrounding greenery. Individually, each space is enclosed in clear glass, resulting in cavity walls that act as buffer zones between different climates; museum exhibition spaces, the glass making hot-shop, and the outdoors.

The plan is derived from a grid of various rectilinear shapes reflecting programmatic adjacencies; with room-to-room connections achieved using curving glass surfaces. Glass is wrapping the spaces forming continuous elevations, uninterrupted by corners. The visitor flows with the form through a series of interconnected bubbles.

The Toledo Museum of Art glass pavilion showcases glass artworks and glass-making studios. Architects Kazuyo Sejima and Ryue Nishizawa of the Tokyo-based architecture firm SANAA chose to design the building primarily out of glass. Except for opaque walls enclosing toilets, plumbing, roof drains, elevators, and diagonal bracing, all exterior and interior walls are made of curved glass.

Completed in 2006, the glass pavilion in Toledo, Ohio (USA) is an annex across the street from the Toledo Museum of Art. The pavilion was the first US building by SANAA, who also designed the 2007 New Museum of Contemporary Art in New York, a pile of offset boxes. That project also features a partially glass exterior, although a metal mesh façade gives the building a more solid look. The Toledo project lies in a park, next to a century-old grove of trees. SANAA avoided cutting any of them. The glass walls of the single-story building give museum-goers a sense of connection to the trees.

Structural components

Except for delicate steel columns, the building structure is hidden above the ceiling. One interior volume also contains a solid plate steel wall that provides lateral bracing. The light roof rests on these structural members, so the glass walls bear no load, and the roof appears to float. The façade features two parallel glass walls with a gap between them. And this aspect continues throughout the interior. In a typical building, one wall divides two spaces. But in this museum, any two galleries have two walls of curving glass between them. A cavity of nearly 1m lies between the layers of glass. The size of the gap varies, because the walls curve in irregular ways for the sake of variety.

Daylighting

Using glass on this scale introduces a host of benefits and challenges. In most museums, sun control is essential, because ultraviolet light quickly fades paintings and fabrics. But when exhibited artworks are made of glass, the rules change. A slightly reflective Verosol curtain inside the exterior wall contains aluminium particles that reflect heat, light and UV light out of the building.

After an extensive daylight analysis, SANAA created three internal courtyards. The purpose was to reduce glare, which generally comes about when there's a high degree of light contrast. The courtyards reduce glare by bringing daylight to the middle of the building. The cavities between the layers of glass act as invisible insulation in both exterior and interior walls. That is, they collect any heat that penetrates the glass. The air temperature in the cavity remains somewhere between that of the exterior and interior temperature.

The glass ovens generate considerable heat. In the summer, fans pull heat out of the building. And in the winter, heat from the ovens enters the cavity and warms the rest of the building. Noise bounces off hard surfaces such as glass. The acoustic plaster ceiling absorbs some of this noise. A movable interior curtain (used to make interior spaces bigger or smaller) also helps to deaden the noise. The finished building does have some reflections, but they help create a pleasant, nuanced experience. The reflections and varying light conditions filter the view through the building, making the glass transparent at times and reflective at others.

The installed glass is quite strong and poses little danger of shattering. The exterior glass is 2.5cm thick. When the design team tested a full-scale mock-up by throwing rocks and bricks at it, the glass walls survived.

Location: Toledo, Ohio, USA
Client: Toledo Museum of Art
Architect: Kazuyo Sejima + Ryue Nishizawa / SANAA
Team: Toshi Oki, Takayuki Hasegawa, Keiko Uchiyama, Mizuki Imamura, Tetsuo Kondo, Junya Ishigami
Built area: 7,000sqm
Site area: 20,000sqm
Opening: 2006
Structure: Guy Nordenson & Associates / SAPS
Glass consultant: Front Inc
Lighting: Arup / Kilt Planning
Photos: Iwan Baan

The Toledo Museum of Art Glass Pavilion

4.The glass Design - Zollverein School of Management and Design,Essen

The Zollverein School of Management & Design will be the first new building on the historical coal-mining Zollverein site; declared a World Heritage Site by UNESCO in 2001. The design, a cuboid structural shell, picks up the basic functional and effective idea used by the original Zollverein architects Schupp and Kremmer.

The oversized cube, which measures 35 meters by 35 meters and is 35 meters high, reflects the dimensions of the Zollverein mine. The seemingly coincidental organization of the openings, windows in three different sizes, creates an unusual interaction with the surroundings and the interior. The building has four floors with ceilings of varying height as well as a roof garden. The idea of stacking open floor plans was developed in compliance with the demands made by the various functions. A multi-level presentation hall, exhibition and foyer areas for public use, and a café, are located on the ground floor. The Design Studios on the second floor will be a production level, home to the creative workplaces. The library is on the third floor together with open, glazed seminar rooms as well as several separate, quiet workplaces along the north-east facade. The fourth floor is the office level, with working areas of various sizes and characters, divided by glass walls. Windows in the exterior walls and appropriately distributed lighting will guarantee daylight and visual connections for all workplaces.

The garden on the roof can also be used on a temporary basis, and will serve above all as a viewing platform over the Zollverein World Heritage Center. The Zollverein School will act as a bridge between teaching, research, and practical implementation in relation to the planned Design Park as the Zollverein grows and prospers as a design location.

Total area:
app. 5,000 square meters
Construction start: March 2005
Client: Zollverein School
Architects:
SANAA
Project architect: Nicole Berganski
Associate architects: Böll & Krabel
Masterplan: Rem Koolhaas OMA
Landscape: Agence Ter

Zollverein School of Management and Design

5. New Musem of Contemporary Art, New York

Architects Kazuyo Sejima and Ryue Nishizawa of the Tokyo firm SANAA have designed the seven above-ground floors as a stack of displaced boxes, each one shifted off-centre from the level immediately below or above. The boxes don't step back in a consistent Empire State Building sort of way but rather in an irregular sculptural fashion. The attention-getting exterior differs markedly from the neutral interior. With the exception of electric-green elevator interiors and bright cherry blossom tile mosaics in the lower-level restrooms, the museum features polished grey concrete floors and white walls, as well as exposed diagonal structural members. Ducts, sprinklers, and fireproofing material are also quite visible.

SANAA designed the interior to be inviting but straightforward, so the architecture would not overwhelm or compete with the art. Furthermore, the architects chose to expose the innards of the building in order to match the honesty of the Bowery's workaday businesses. At the lobby level, the workings of the museum are particularly apparent. From the outside, one can see the entire ground floor through a pane of glass that stands nearly 15ft tall and stretches the width of the site. This glassy wall even affords behind-the-scenes views of the loading area. The luminous feeling continues inside the entranceway, with a soaring glass wall that separates the 1,525ft² main space from a 1,120ft² gallery illuminated by skylights. Glass partially encloses an interior stairway leading from the lobby down to the cellar level.

Meanwhile, the mushy exterior motif also continues inside. A serpentine screen of metal mesh separates the museum store from the lobby. And a floating screen of metal mesh softens the largely visible functions of the ceiling, filtering light from a grid of fluorescent tubes.

New Musuem of Contemporary Art

6. Naoshima Ferry Terminal, Naoshima

The Naoshima Ferry Terminal is set on a small island in the Inland Sea of Japan. The terminal area is sheltered by a large roof measuring approximately 39,000 square feet. Glass walls enclose the waiting area, cafe, and visitors’ center. Architects Kazuyo Sejima and Ryue Nishizawa began the project in 2003. The Naoshima Ferry Terminal was completed in 2006.

Naoshima Ferry Terminal

SOURCE: www.glassisgreen.com

Glass and Glass Facades in India

As time passes, trends, lifestyles, and even the environment undergoes tremendous change; buildings and construction material being no exception to this rule. Cursory observation is sufficient proof for this statement; architecture today is devoid of the conventional cement and steel and replete with glass; a phenomenon less than a decade old.The emergence of architectural glass as a high-performance building material is the key determinant of this change. Glass is now a protective sheath that protects occupants of a building from heat, noise, fire, and even from dirt and grime through self-cleaning properties. Reflective glass controls solar radiations, low-e glass acts as a thermal insulator, extra clear float glass serves as partitions, and then there is switchable glass, tinted glass, fire safety glass and so on. Apart from façade glazing, all these glass types can be used on doors, windows, curtain walls, balustrade, and even skylights. Glass façade systems offer versatility as well as functionality, while enabling a wide range of design possibilities, including custom printing, shading/fritting, and more.

Let us go through the details of some fantastic structures in glass in the country.

International Convention Centre, Pune
Located in the heart of Pune, the International Convention Centre at Pune serves as Southeast Asia’s largest convention centre. The façade of this building comprises insulated glass and aluminum cladding; the choice of these materials allowing for ease of maintenance. A central portion of the structure is completely glazed, imparting an iconic element to the overall configuration.

i-Think Campus, Thane
i-Think is a proposed IT Park at Thane spread over a 5 acre property with a total built up area of approximately 850,000 sq ft. The design, visualized and manifested by Aedas Architects, comprises structural glazing, skylights, an entrance canopy and a shop front glazing. The building comprises two independent blocks connected by sky terraces located at every two floors which create a feeling of spaciousness and brightness.

i-Think Campus, Kanjurmar, Mumbai
This is also a proposed IT Park comprising 4 blocks spread over an area of 1.8 million sq ft and located at Kanjurmarg, Mumbai. Each building shelters retail outlets at two levels and parking slots over three levels, in addition to office space over ten floors. The façade elements include composite glazing, aluminum cladding, glass enclosures, suspended glazing, entrance canopy, stone cladding and entrance glazing.

Lodha Excellus, Mahalakshmi, MumbaiThis is a proposed corporate office in Mumbai meant for clients based out of the Apollo Mills compound. The façade is made up of structural glazing, terrace awning, aluminum fins, shop front glazing and stone cladding. Vertical structures in stone on two sides of the building add visual appeal.

Inorbit Mall, Hyderabad
This Retail Mall is in the Cyberabad region of Hyderabad in Andhra Pradesh and has a total built up area of 800,000 square feet. The Mall has a unique atrium skylight with a combination of metal roof and laminated glass.

Taj ITPL Hotel, Bangalore
Taj ITPL Hotel is a 250 room hotel located in Whitefield, the IT hub of Bangalore. The facade envelope comprises of a combination of coloured laminated glass, insulated glass and ceramic frit glass. The design incorporates horizontal LED rope lights for the curtain wall in a staggered pattern and vertical cold cathode lights at the suspended glazing area. The canopy comprises glass encased in a steel sub-structure.

Park Hyatt, HyderabadThe Park Hyatt in Hyderabad includes a rain screen design featuring indigenous Indian granite cladding, extruded terra cotta sunscreens, low-e insulated glass and architectural metal accents. The atrium features a high span skylight with patterned glass for maximum day lighting balanced with sun control.

Sun Court Residential Towers, Noida
Sun Court Residential Towers at Greater Noida comprises of four residential towers, all unique in their features. They include external façade elements such as curtain walls with sunshade devices, vertical sunshades, flying glass buttresses at terrace level, double height lobby, entrance canopy, glass railing and skylight at terrace floor level.

Banyan Park, Mumbai

The façade of Banyan Park at Andheri in Mumbai is infused with glazed window walls and curtain walls strategically placed to take advantage of natural daylighting while minimizing direct sun exposure. The facade design features a rain screen concept that facilitates the ease of rinsing during rainfall to keep the facade clean.

Glass House in South Africa

Nico Van Der Meulen Architects are the proud architects of a gleaming residential structure in Johannesburg, South Africa, that has used glass extensively. More than 70 percent of the construction material used is glass. This glass house covers an area of about 4000sq.m, with a total floor area of 2500sq.m.

The south side of this glass house is semi-circular in shape, forming a horse shoe on the north side. One side of the house is a fully suspended glass and steel structure. A stainless steel and glass staircase is suspended over a heated pond which acts as temperature stabilizer in summer and as a giant heater in winter. A glass window to the dinning room is a 6m high curved enclosure. A frameless sliding glass door starts at the dinning room, and stretches nearly 70m around the dinning room, family room, indoor pool and gym.

An atrium between one of the bedrooms and the kitchen ventilates and cools the glass house naturally, without compromising on security – there is a rolling shutter door that drops down automatically when the burglar alarm is activated. This cuts access to the top floor from the ground floor. The walls of the bedrooms room and the bar are sprinkled with marble strips, with glass inlay and LED strip lights. The main bathroom is fully glazed.

The North and East-facing walls are also of glass and can slide open, and automatic blinds lowered for privacy. The doubly-glazed enclosure over the pool can be opened from the balcony outside the children’s bedrooms. The basement has parking slots for about 12 cars with a view into the pool.

Nico Van Der Meulen Architects have indeed set a new standard for outstanding architecture.

Margaret Hall with “SUNBALANCE”

Margaret Hall, built in commemoration of the 100-year anniversary of the foundation of Sagami Women’s University, is a structure with clear glass exteriors. This feature allows for the penetration of bright and soft natural light into the building, and the effective utilization of this daylight for lighting the stairways, elevator lobbies, and the atrium cafeteria.


SUNBALANCE Glass

argaret Hall used a type of glass that has very high thermal insulation properties, called "Sunbalance" manufactured by Asahi Glass. This glass has an "air space" between two sheets of glass, and has a special clear metal coating on the inside of the outer sheet of glass. This "air space" controls the movement of emissive heat, and brings about highly effective thermal insulation, and the "special metallic coating" allows the penetration of visible light, while reflecting heat (infrared radiation) and ultraviolet radiation.

Thus, Sunbalance conserves energy spent on lighting by allowing natural light to illuminate the interiors, as also energy expended on heating during winter.

Monday, May 3, 2010

Mir Stekla (World of Glass) - 2010

Mir Stekla is the largest trade show for the glass industry in Russia, CIS and Eastern Europe. This international trade fair showcases glass-making equipment, production of instruments and processing equipment, and glassware manufacturing and marketing.


Origin:

The first chapter of Mir Stekla took place in the summer of 1999, with 178 exhibitors from 14 countries participating. In spite of it being a difficult period for the country’s economy, the Exhibition ended successfully and became Russia’s main forum for the glass industry. In 2004, the Exhibition was approved by IUEF - International Union of Exhibitions and Fairs and UFI - the Global Association of the Exhibition Industry.

Through Mir Stekla, interested companies can do any or all of the following.

  • Introduce a new product or trade mark to the target audience;
  • Influence customers’ perception of their product via face-to-face communication;
  • Enhance brand awareness and strengthen corporate image in the customers’ mind;
  • Examine the glass market potential and set out new directions in business development;
  • Make direct sales;
  • Improve the distribution system;
  • Reach a greater number of the target audience;
  • Develop sales leads;
  • Research the market; explore needs and expectations of prospective clients.

Mir Stekla – 2010

Venue and Organiser

Mir Stekla 2010 is the 12th chapter and will be held from 7th to 10th June, 2010 at Expocentr Krasnaya Presnya Fairgrounds, Moscow, Russia. ZAO Expocentr will take be organizing this show and the show will tap the upcoming-innovative technologies in the glass industry.

This International Exhibition carries the official UFI label as well as the label of RUEF – the Russian Union of Exhibitions and Fairs, and is held under the auspices of the Chamber of Commerce and Industry of the Russian Federation.

Visitor Profile

Visitors are expected from the following categories:

  • Architects
  • Automobile components distributors
  • Automobile manufacturers
  • Contractors
  • Engineers
  • Glass manufacturers
  • Property developers
  • Window & facade buyers

Exhibitor Profile

The targeted exhibitors at Mir Stekla 2010 are:

  • Manufacturers of glass raw material
  • Technologies for glass melting
  • Moulding of flat glass
  • Moulding of hollow glassware
  • Production of safe glass
  • Equipment for production of multilayer automobile glass
  • Moulds for glass production
  • Cutting of flat glass
  • Glass drilling
  • Grinding and polishing of glass
  • Systems of toughening and hardening of glass
  • Glass coating and frosting
  • Flat glass
  • Hollow glass
  • Glass containers
  • Automobile glass
  • Glass furniture
  • Glass with variable translucency
  • Window blocks with electric heating-up
  • Energy saving glass
  • Glass lifting tools
  • Art and decorative glass
  • Stained glass
  • Glass lamps, chandeliers, glass-shades
  • Vases, assorted glassware
  • Jewellery glass

Sizzling Glass Pyramid at Turkey

It is now well-established that glass is a construction material like no other, that imparts aesthetic as well as functional benefits to architecture in general, and to skyscrapers in particular. And within the league of architecture that uses glass, a pyramid-shaped building stands out as one that has taken a step ahead; the Sabancı Congress and Exhibition Centre in Antalya, Turkey does just that. This multi-purpose convention complex is widely known as Glass Pyramid owing to the pyramidal structure of its roof.


Architect Levent Aksüt and Yaşar Marulyalı cast this glass pyramid using metal and glass, surrounded by round-shaped decorative ponds. This structure is located inside the Hasan Subaşı Cultural Park, the complex with a total closed area of 9,000 m² on the basement and ground floor, each floor with 4,500 m² area, with access from four sides. The main hall on the ground floor is covered with a coloured thermo plane space roof, which is 23 m high and is covered with 5,710 m² of coloured titanium blue insulating glass. This titanium blue insulated glass gives a flawless look to the glass building.

Sabanci Congress and Exhibition Centre has five halls with fully air-conditioned, ideally for various national and international congresses, seminars, exhibitions and conferences.

Toros Hall

The largest of the halls has a 2,400-seat capacity with telescopic platforms when used for conferences, and an exhibition area of 2,050 square meters. The hall is equipped with multipurpose audio, lighting, and visual systems and a mobile simultaneous interpretation cabin. On the plasma screens in the hall, various graphical views and animations can be shown. Additionally, Widi Wall visual system, first time in Turkey, is available.

Meltem Hall

It has a total area of 417 square meters and 440-seat capacity and a mobile simultaneous interpretation cabin available for conferences and meetings. State-of-the-art technology is available for meeting and conference organizations.

Duden Hall

It has a total area of 307 square meters and 340-seat capacity and four fixed simultaneous interpretation cabins available for conferences and meetings.

The remaining two halls are at the exhibition centre with ach with 87 square-meter area and 50-seat capacity. These halls may be used as a meeting room, art gallery, press room, or as a cafeteria, and during the activities audio and visual transfer is possible between the halls.

Inside the glass pyramid elevators, telephones, and rest rooms for the disabled are available. The building also includes a foyer, VIP room, doctor's office, food stand, check room, service kitchen and technical units.

Solar & Thermal Control Glasses in Burj Khalifa

Burj Khalifa, renowned as the world’s tallest building, unveiled itself this New Year. At a height of 800 meters or 2,650 feet, this marvel in architecture truly reaches for the stars. The generous use of glass used in its construction gives it a dazzling appearance and several functional advantages. The glass for the Burj has been supplied Guardian Glass, an architectural glass producer for commercial and residential markets. This is by far the very largest order bagged by Guardian glass plants in Germany and Luxembourg.


Guardian glass offers outstanding energy efficiency and total design flexibility, while meeting both technical building requirements and environmental needs. Burj Khalifa features more than 1.8 million square feet (174,000 square meters) of Guardian SunGuard Solar Silver 20 and Guardian ClimaGuard NLT Low-E. Altogether these Guardian products offer superior solar and thermal performance.

The high performance glasses used provide an anti-glare shield from the strong desert sun, and a high light reflectance to keep the interiors from overheating. They also withstand extreme desert temperature swings and strong winds.

Guardian SunGuard

Guardian SunGuard Solar Silver 20 which gives a silver appearance is produced by patented silacoat process, offering a combination of practical benefits and enhanced product features including enhanced chemical and mechanical durability and also excellent energy performance and coated glass quality. It also provides uniform reflection and transmission of colours. This glass can be tempered, heat-strengthened and curved. Solar Energy and visible light performance of the SunGuard Solar Silver 20 is as follows:

Solar Energy:

Direct Transmission: 15 %
Direct Reflection: 33 %
Absorption: 52 %

Visible Light:

Transmission: 20 %
Reflection Outside: 35 %
Reflection Inside: 25 %
Colour Rendering Index: 88 %

Guardian ClimaGuard

Guardian ClimaGuard NLT Low-E regulates the interior temperature cool when it is hot outside and vice-versa. ClimaGuard Low-E blocks up to 50% more unwanted solar energy than standard clear glass, and up to 40% more than even dark tinted glass. As a result, air conditioning expenses are lowered while providing a more comfortable living environment. ClimaGuard Low-E also blocks nearly twice as much harmful radiation as clear glass, extending the life of woodwork, carpets and furnishings, while still allowing plenty of natural sunlight to brighten interior spaces.

Guardian is also supplying the glass for the Burj Residence project, six towers that surround the Burj Khalifa. The Burj Residence will use Guardian SunGuard HP Green 63, produced at Guardian’s Rayong, Thailand float glass plant and coated at Guardian’s Bascharage, Luxembourg float glass plant.

SunGuard High performance glass delivers medium to high visible light transmission and moderate reflectivity together with maximum energy savings that meet or exceed energy regulation requirements. SunGuard coating with a green substrate reduce glare and improve visual comfort and also offers energy control option to provide the optimum internal environment.