The Park Hotel Hyderabad - High Performance Design with local culture

Skidmore, Owings and Merrill (SOM), the New York-based architectural firm, has recently completed The Park Hotel Hyderabad, the flagship hotel for The Park Hotel Group. This 531,550-square-foot, 270-room hotel infuses a modern, sustainable design with the local craft traditions, and is influenced by the region’s reputation as a center for the design and production of gemstones and textiles.

Roger Duffy, SOM’s Partner in Charge of the project, says, “This building signals our commitment to creating a design that simultaneously felt at home among the exuberant vernacular architecture of Hyderabad, while simultaneously incorporating the latest sustainable strategies and technologies.”

The project is distinctive for its profound implementation of sustainable design strategies, with special attention paid to the building’s relationship to its site, daylighting and views. Solar studies influenced the site orientation and building massing, with program spaces concentrated in the north and south facades, and service circulation on the west to reduce heat gain. The hotel rooms are raised to allow more expansive views, situated on top of a podium comprised of retail spaces, art galleries, and banquet halls open to guests and visitors.

The building’s three sides wrap around an elevated central courtyard that can be accessed from the hotel lobby. This flexible outdoor area is protected from strong winds, and serves as an extension of the restaurants inside. It features a private dining court and a swimming pool, which can be seen from the adjacent areas and the nightclub below, with moving patterns formed by light passing through the pool’s water. The outdoor courtyard was designed to be a multifunctional space accessible from the lobby, restaurants, and bar that surround it. Elevated three stories above ground, this veranda provides views to Hussain Sagar Lake and the city.

                                  

The facade provides a range of transparency according to the needs of the spaces inside. Perforated and embossed metal screens over a high-performance glazing system give privacy to the hotel rooms while allowing diffused daylight to enter the interior spaces, and provides acoustic insulation from trains passing nearby. The opaque areas of the cladding shield the hotel’s service areas from public view. The shape of the facade’s openings, as well as the three-dimensional patterns on the screens themselves, were inspired by the forms of the metalwork of the crown jewels of the Nizam, the city’s historic ruling dynasty.

Priya Paul, Chairperson of Apeejay Surrendra Park Hotels which owns The Park brand, describes The Park, Hyderabad as “a Modern Indian Palace, something refreshing and different that speaks to the aspirations of India today.”

Collaboration with manufacturers, fabricators, and researchers played a vital role in developing this low-energy prototype building, with data gathered in collaboration with the Stevens Institute of Technology’s Product Architecture Lab in Hoboken, New Jersey. As a result, the design team was able to reduce the building’s energy use by twenty percent. In addition, an on-site water treatment facility and sewage treatment plant process both gray water for reuse and waste water for release back into the city’s sewer system.

The project achieved the first LEED Gold certification for a hotel in India, and has been awarded Best New Hospitality Project of 2010 from Cityscape India. It also served as a case study for using a collaborative process to achieve an environmentally efficient design in Design Principles and Practices: An International Journal in 2009, and was the subject of a white paper written by the design team on the high-performance curtain wall system.

            

The orientation of the building on its site and the design of the metal screen have reduced energy needs of the hotel by almost 30 percent, say the architects. Because of such strategies, in late 2010, the Park Hotel became India's first LEED Gold certified hotel.

To come into the hotel is to leave behind the bustle, sprawl, and dust of the city and enter a magical, beautifully crafted space. The nuanced gestures of the design connect the inside to the outside, the building to the city, and the site to the lake. The translation of the diverse challenges of energy savings, climate, privacy, and symbolic allusions to place have resulted in a singular work. The hotel's success in responding to its environmental and cultural contexts can be attested by the reaction of the client: Paul has enlisted SOM to design another Park Hotel in Calcutta.

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Amazing campus of Bill & Melinda Gates Foundation

Adjacent to the Seattle Center and its towering Space Needle, a sprawling asphalt parking lot covered fertile ground that once had a rich history. The 12-acre site had been a clearing in a forest with a wetland that provided respite for migratory waterfowl traveling the Pacific Flyway; it had also been a meadow where Native Americans held community potlatch ceremonies. Over the years, the site was built up to house, at different times, railway trestles, homesteads, farming, a street-car barn, and a bus barn.

Designed by NBBJ, it is one of the world's most eco-friendly buildings with a solar energy system on the roof. 

 In spring of 2011, the urban plot became home to the new Bill & Melinda Gates Foundation campus, which incorporates natural and structured elements to attract wildlife and support the foundation’s mission to help people lead healthy, productive lives. Parking structures support two acres of vegetated roofs that help return 40 percent of the 900,000-square-foot campus to green space with bird-friendly habitats and edible plants such as blueberries, huckleberries, and red flowering currant. A large central courtyard beckons geese and herons with textured paving and native plantings anchored by a reflective pond.

 The total design and construction cost for the new campus is $500 million. Bill and Melinda made a personal contribution of $350 million in 2009 to off-set the construction cost of the new campus.

“The habitat restoration is one of the project’s most wonderful aspects,” says Margaret Montgomery, AIA, principal and lead sustainable designer at NBBJ, the Seattle-based architecture firm for the project. “Almost immediately, the site became a stopping place for migrating birds between Lake Union and Elliot Bay. It’s very urban, but it allows humans and nature to cohabitate.”

The office wings accommodate up to 750 people each, with three buildings spreading across nearly 640,000 square feet of occupied space. Floor plates that are 65 feet wide position all employees within 30 feet of incoming daylight, and 10-foot-high curtainwalls leverage outdoor views. The offices also welcome visitors and grant recipients throughout the year.

The campus includes 900,000 square feet in two six-storey office buildings. It sits on 12 acres.

The Gates Foundation wanted to address its larger environmental footprint. “We grounded our sustainability strategies in what was right for the project, then back-checked our goals against the LEED rating system,” Montgomery says. “When we discovered we were very close to LEED Platinum certification, we pushed ourselves just a bit further to document what we had done.” The effort paid off: The project is the world’s largest nonprofit LEED-NC Platinum building and the second-largest LEED-NC Platinum building in the United States.

Protecting the Puget Sound watershed was also a high priority. The site’s former parking lot discharged 11 million gallons of polluted rainwater into the watershed every year. A combination of efficient plumbing fixtures and rainwater collection and reuse strategies completely eliminates all polluted rainwater runoff and reduces the building’s potable water use by 79 percent compared to the Energy Policy Act of 1992.

The campus has a water storage system underneath its surface with a capacity to hold 750,000 gallons.

 Two underground parking garages (one for the Seattle Center and one for the foundation) have expansive vegetated roofs covered in sedum that absorbs rainwater runoff and blooms at different times of the year to provide swaths of color for onlooking building occupants. A 1-million-gallon rainwater storage tank fills in approximately 11,000 square feet of unused space on one level of underground parking. The tank collects and filters runoff from nonvegetated roof and hardscape areas for use in irrigation, reflecting pools, and toilets.

The energy-efficient systems have reduced the total energy usage of the facility by 40 per cent.

 Because cooling towers require tremendous amounts of water, the project team found another way to cool the buildings. A second underground tank, 60 feet tall and 50 feet in diameter, holds 750,000 gallons of water for thermal-energy storage. At night, plate-frame heat exchangers push chilled water pipes into the tank to bank it for daytime use. When the buildings are occupied, the heat exchanger pulls the chilled water from the tank and transfers it to the air-handling units to circulate cool air. Cooler nighttime temperatures allow the units to operate at lower pressures so they use less energy than during hot days.

Hydronic radiant heating is embedded in the concrete floor slab of the campus’s four-story atrium, where operable windows provide cooling and ventilation. The remaining occupied spaces rely on an underfloor air-distribution system that draws water from the chilled-water tank and heat from a gas-fired condensing boiler plant. Montgomery says that underfloor air can be delivered at a lower velocity and a slightly higher temperature since it enters the space at the floor level. “This allows us to take advantage of free cooling and save energy. The strategy also provides high indoor air quality because the air doesn’t have to mix in order to deliver ventilation or thermal comfort heat or cooling where it’s needed. It rises gently through the space and gets exhausted at the ceiling.”

 The campus was built as a long-term investment to ensure it remains a viable, efficient workplace

 for today and in decades to come.

On top of the wing housing the cafeteria’s kitchen and campus shower rooms, the team placed 47 evacuated-tube solar-hot-water collectors so that solar-heated water can flow directly to the sources without conversion. The system reduces natural-gas consumption for heating water by 4,750 therms annually and provides energy for approximately 36 percent of the domestic hot-water use.

Combined, the multiple energy-saving strategies lowered energy consumption by 39 percent compared to the ASHRAE 90.1-2004 baseline. The foundation will recoup its investment in energy- and water-related systems in less than 30 years.

 There is an under-floor air distribution system for ventilation, which conserves energy and facilitates 

future space modifications.

“Creating a 100-year building gave us the ability to look at a longer-term payback and do some forward thinking,” Montgomery explains. “The underfloor air-ventilation system simplifies future space modifications, and we designed the roofs to accommodate photovoltaic panels when future technology makes them more financially feasible in Seattle’s climate.”

The campus design will include open green spaces and 

the design ensures natural light in the building. 

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An Oasis at the Sahara

 

One year after it closed, can Sahara site become a symbol of Las Vegas’ rebound?

It's only fitting that a developer is planning a new oasis for Las Vegas to replace a project called the Sahara.

The developer SBE announced today the groundbreaking for SLS Las Vegas, a new $415 million hotel and casino remodeling project being undertaken by Philippe Starck and Gensler. The development is an adaptive reuse of the Sahara, a casino and hotel whose failure in 2011 is only part of the reason that the SLS Las Vegas is a gamble. 

The old Sahara

   

 SLS Las Vegas will feature more than 1,600 rooms and suites, with interiors by Starck. Gensler is overseeing the remodeling of some 2.2 million square feet of space, including a 66,000-square-foot casino that will occupy a single level.

For a full-scale remodeling of the hotel that served as the set for the 1960 film Ocean's Eleven, the developers of SLS Las Vegas are working to play down expectations. "Our plan will be to deliver a product that is affordable and approachable," SBE founder and CEO Sam Nazarian told Bloomberg Businessweek last year. "We are going back to the roots of Las Vegas."

Roots doesn't necessarily mean humble: The program for SLS Las Vegas includes a new restaurant by José Andrés and a 10,000-square-foot Fred Segal retail store. Senate Majority Leader Harry Reid (D-Nev.) is stumping for the project. The global Starck brand, which is doing interiors for the Gensler-designed rehab, was responsible for the 1994 renovation of the Delano Hotel—one of Miami's most celebrated hotels.

 Perhaps SBE is getting back to roots in Vegas by taking on a project with a fair amount of risk involved. When the developers sought financing, Moody's gave the project a "risky" debt rating. The payoff, however, could be profound for the Entertainment Capital of the World. Las Vegas Sun columnist J. Patrick Coolican outlined the ways that SLS Las Vegas could up the ante for the entire north end of the Strip: "If the new property attracts the buzz and the crowds of, say, the Cosmopolitan, we might see Carl Icahn do something with the Fontainebleau site. And maybe MGM Resorts will do something with the land it owns. Or sell it to someone who will."

The developers are also betting that the economy will continue to rebound and that, by the hotel's opening in 2014, Las Vegas will be enjoying an unquestionable economic recovery. As Coolican notes, recovery won't mean a return to megaresorts. Despite the risks today, adaptive reuse may prove to be the surest bet as the recovery continues.

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SANGATH - The Architect's Office in Ahmedabad, India

 

Sangath is an attempt to reinterpret the rich architectural traditions of India and find their resolution in contemporary architecture, where a perennial search for Indian ethos and contextual idiom finds its answers. Gradual unfolding of spaces through shifting axis, inbuilt thresholds and sense of layering are key attributes of space organisation.

The non axial route of movement makes it exploratory with built in surprises where every change to alignment makes one pause, ponder and reorient oneself. This makes it interactive with involvement to onlooker and an instantaneous rapport is established between him and the subject.

From arrival, the immediate space is actually approached last with a total three hundred and sixty degree movement loop. Here each turn, each pause, each node unfolds newer nuances for experiential enrichment and visual impact.

          

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INTRODUCTION:

• SANGATH means “moving together through participation.”
• It is an architect  office
• Location:   Thaltej Road, Ahmedabad 380054
• Client:    Balkrishna Doshi
• Period of construction:  1979-1981
• Project Engineer:  B.S. Jethwa,   Y. Patel
• Site area:   2346 m2
• Total Built-up Area:    585 m2
• Project Cost:    Rs. 0.6 Million ( 1981 )

Passive Design:

• Not require mechanical heating and Cooling
• Reduces greenhouse gas emissions from heating, cooling, mechanical ventilation and lighting
• Take advantage of natural energy flow
• Maintain the thermal comfort

Design concept And Features:

• Design concerns of climate ( temperature or humidity or sunlight).
• Extensive use of vaults
• Main studio partly bellow the ground (sunken)
• Very less use of mechanical instrument
• Special materials are used resulting in a low cost building costing it
• Lot of vegetation & water bodies
• Continuity of Spaces
• Use of lot of diffused sunlight
• Complete passive design
• Grassy steps which Doshi uses as informal Amphitheatre

CONSTRUCTION OF VAULT

• 3.5 cm thick  RCC
• 8 cm ceramic fuses
• 3.5 cm thick RCC
• 6 cm thick water proofing
• 1 cm thick broken China mosaic finish
• Ceramics are temperature resistant.
• Broken China mosaic is insulative and reflective surface.
• Broken China mosaic  gives a very good textures.
• Water cascades from fountain into series of Channels
• Glass bricks
• Diffused light in the drafting studio
• Whole area is covered with vegetation
• Terracotta pots and sculpture lying in the compound

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"Coupled House" - Japan

Architects: Naoi Architecture & Design Office

Location: Tokyo, Japan

Year: 2011

This project involved rebuilding a single plot with an existing wooden, one-storey detached house located in a quiet residential neighborhood. As many of the other buildings in the area had also been recently refurbished, we wanted to preserve the scale of the house and the midcentury vintage and slightly anachronistic character of the neighborhood in a new, updated form.

                                        

Gardens and courtyards in traditional Japanese houses used to connect the buildings they were housed in to people and the surrounding neighborhood. This sense of connection helped to relieve feelings of claustrophobia and oppressiveness – a function fulfilled by these “gap” spaces (ma in Japanese). By leaving gaps and empty spaces that are ambiguously defined, these ma allow diverse and heterogeneous elements to coexist alongside each other while maintaining a sense of harmony between them.

                        

A home that incorporates these gaps within it becomes a space of communication that conveys a palpable sense of the personality and presence of the inhabitants, allowing them the luxury of living in an environment that gives them a sense of liberation, of emotional freedom and ease. In addition, the provision of generous natural light and ample ventilation ensures a comfortable living environment. Rather than isolating and shutting out the exterior entirely from the interior of the house, we hoped to foster a leisurely lifestyle that would relax both the mind and body by making this sense of connection to the outside world more palpable.

         

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"The Platina", Gachibowli, Hyderabad

     

The Platina is a Business District at Gachibowli, designed for world class business spaces ranging from 1440 sft. to 40,000 sft. Every inch of the space has been designed with care and precision. Everything about The Platina is exclusive and the experience you are bound to have is just out of the world. The office spaces are designed keeping in view the global business demands. The Platina is not just another location, you enter a different world altogether, a world that has business written all over it. So much so, that all major IT Hubs, upcoming 5 Star Hotels, Financial District, World Class Educational institutions, Prestigious Residential Projects all are coming up around it making it the centre of attraction.

Towering Lung Spaces

The Platina is the destination for every individual looking for quality work place. 

The façade of The Platina arrests you with its impressive structure that is both an architectural marvel and an aesthetic beauty. The main entrance of The Platina is a semi-open interactive plaza. The space acts as the lungs of the business district and it is accentuated by a six storey high ceiling, making it forthcoming unlike a typical atrium. A Sheet Fountain as a backdrop makes the ambience attractive and cool. ‘The Podium’ as it is called, welcomes you as you enter and rejuvenates you as you move in.

Green Building Certification

The Platina is different in more aspects than one is further endorsed by the fact that it follows the ‘Green Building Practices’ strictly adhering to the LEED Certification norms. This makes 'The Platina' an energy efficient structure that has been constructed adopting environment friendly practices like conservation of natural resources, optimizing energy efficiency, reduced water consumption and better waste management. This would rejuvenate your work force to give optimum results. Apart from saving on CAPEX, the investor also saves on operational expenses. The Platina has the enviable advantage of being the neighbour of 120 Acres of green lung space always breathing in fresh healthy air.

Architects: Maa Architects

Project Managers: CBRE - CB Richard Ellis

Structural Consultants: Tameer Consulting Engineers

Service Consultants: Spectral

Green Building Consultants: MILESTONE ecofirst

Location:                             APHB, Gachibowli

Number of Office Floors:     From 3rd floor to the 11th floor

Floor Plate:                     40,000 sq ft

Minimum Space Format:    1460 sq ft

Structure:                            R.C.C. framed structure with flat slab

Super Structure:           Walls with a combination of Clay Bricks in CM

Ceiling Height:                   13' 0" floor to floor

Power:                            H T

Power Backup:          100% Diesel Generator

Air Condition:                 High Side

Parking:                     4 Levels Parking

Indian Green Building 

Council Code:            Gold Certification awaited

Plastering:                   Smooth / Sponge finish

                    Exterior The exterior will be a combination of the following

                                        i)   High Performance Structural Glazing

                                        ii)  Alucobond

                                        iii) Stone Cladding

                                        iv) Texture

Flooring in the 

Common Area:                Granite/Vitrified tiles/Marble

Doors:                             Teak wood/Engineered wood doors/Frames and Flush Shutters

Electricals in the

Common Area:                Quality Electrical Fittings confirming to ISI Standards

Sanitary and 

        Water Supply:    Sanitary and water supply systems shall conform to the ISI standards

Other Specifications:  i)   Fire Fighting equipment and Fire Escapes as per DGFS norms

                                        ii)  Sewage Treatment Plant

                                        iii) Mechanical Ventilation for Basements to provide treated fresh air 

                                            & exhaust

                                       iv) Land Scaping

                                        v)  High Speed Lifts

                                       vi)  Service Lifts

                                      vii)  Wide Span Grid

                                      viii)  Common Toilets on each Floor

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"Rajaswa Bhawan", New Delhi

"There is, of course, nothing new about the idea of inclusion, but there is a need to understand what operationalises inclusion in a planning or architectural context…"

Environmental sustainability is a core principle of the design as an underlying value that informs every aspect of the design. Passive systems are created to address site planning, envelope design, shading, and built space efficiency while taking care of wind penetration and complete day-lighting of all areas.

Architectural Group: Morphogenesis
Architects/Partners: Morphogenesis
Client: Government of India, Ministry of Finance-Dept. of Revenue
Project Location: New Delhi (India)
Project Year: Unbuilt
Project Area: 9,82,000Sq ft
Project Type: Office Space

Delhi, through the ages, has seen the idea of the urbanscape changing and adapting to new realities. If Shahjahanabad was to be a garden of paradise, and New Delhi emblematic of imperial power, then perhaps Delhi as we know it today ought to invent its soul from democracy – and therefore the concept of ‘inclusion’.

But we can set up a stage for organisation of built space in a manner that allows easy comprehension of structures of authority and infiltration of such bastions with chance events that may eventually transform the way we use our cities.

The design approach by Morphogenesis, New Delhi attempts at providing a model for future urban transformation in the zone; by attempting a solution which deals with planning constraints and future increased densification which is not use-dependant but reconfigurable for , various building types while maintaining the immutable avenues of New Delhi. Possible systems of integration, permeability, pedestrianisation, contextually relevant typologies are looked at and an urban edge is envisaged in order to operationalise inclusion. Time-tested, traditional spatial and environmental schema of streets, courtyards and terraces are re-introduced to resolve issues of privacy and segregation while maintaining live building edges. A multi-building concept is adopted on site which breaks up the scale of the total built area into manageable units and presents a more optimum scale to the issue of densification of New Delhi. Gravitas is derived from a unification of the facade treatment – an almost atonal monumentality befitting its purpose. On the inside, the street comes alive with public uses, courtyards, sculpted terraces, environmental conditioning and landscape.

Double-aspect Floor plates, of 9 metres width are configured to allow for flexibility and maximum efficiency. Vertical circulation is shared between two buildings which allows for greater flexibility in program distribution. Deep floor plates and centralised vertical cores would be inappropriate for this program as they would result in poor day-lighting conditions in most of the offices in case of deep floor plates or central cores. The programmatic distinctions of the two directorates, their departmental area requirements, the ministerial accommodation, and the support facilities are all organised in the same format to allow for flexibility. The multi-building format adapts by joining and segregating at the cores to give individual identities to the directorates, and to the ministers’ building, while unifying the appearance of the building.

The ground floors under all the blocks get populated with public uses such as conference/meeting rooms, gyms, food court, library, creche  information centers and other facilities linked together by the main pedestrian street which connects to the main roads on both sides. The street leads to private gardens and other open spaces that become part of the complex open space structure. The offices open out to terraces at multiple levels bringing the open spaces close to work environments.

Vehicular movement is restricted to a large extent to the two corners on the main roads and the remaining site is rendered pedestrian.

Security has been kept in mind while designing access systems and the offices are accessed through separate lobbies on the ground which restricts movement of unauthorized persons.

The impure orientation and its resultant insolation conditions are tackled with a jaali wrap on the external surfaces of the building. This second skin sitting at a distance of 600 mm from the principal facade acts as a sun-breaker and generates a ventilated shaded zone between the external envelope and the outside, keeping the building naturally insulated and cool through the hot summer months. A similar strategy is employed over the internal spaces where a structure that is reminiscent of the tree canopies of New Delhi covers the internal street with shading fabric. Complete rain water harvesting augments water sources and reduces fresh water use during rains.

The active systems used range from state of the art building services to simple tools for generating a micro-climate within the complex. These involve using a structural cooling system for air-conditioning that reduces air-conditioning installation by 50%, a recently developed soil based technology for sewage treatment, use of vertical cores as cooling towers and in turn cooling the internal open spaces due to water evaporation, and use of solar powered photo voltaic panels for electricity generation. Soil Biotechnology (SBT) is an indigenous technology for sewage processing, recycle and reuse of processed water in a sustainable, cost-effective manner, specific to the Indian climatic, social and environmental conditions. Besides the process being natural, it depends very little on external energy sources and conserves the same. Though SBT’s functioning is aligned with nature, it is intensive enough to fit in a typical urban scenario that is scarce on space.

The building is envisaged to be finished with natural materials as far as possible. An understated elegance achieved with use of local stones, simple plaster and painted surfaces, clear glass and glass reinforced jaalis is the proposed palette. Interiors are to be finished with durable and maintenance free materials as far as possible.

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