The office, with interiors designed by AHMM, will see more than 1000 staff helping build and run some of Google’s core products including Android, Google Play, Search and Advertising. Since the opening of Google’s first international engineering office in London more than 10 years ago, Google has continued to invest in developing and hiring engineering talent in the UK.
Around 800 engineers will move in during the first phase (164,000 square feet) and there will be a total capacity of 2,500 after the second phase is complete later this year (occupying a total of 371,000 square feet).
Google’s new office has been built with sustainability and healthy materials in mind. The project engaged a carbon consultant to drive down the carbon footprint, resulting in an overall saving of 2,100 tonnes of CO2 emissions, enough carbon to power 900 return flights from London to Hong Kong.
Contracting Companies: Impresa edile Barbieri Danilo; Aleo solar
Courtesy of Studio Contini
This construction is located in Tufi d’Agna, a small settlement in the mountain town of Corniglio, inside of the Tuscan-Emilian Appenine recently recognized by the UNESCO as a MAB (Man and the Biosphere Programme) reserve.
Courtesy of Studio Contini
The small building, a farm building once used to shelter the shepherds and animals, was recovered as a refuge where the residential use, considering the remote location and the difficulties to achieve it, is sporadic and linked to the summer period.
Plan
Plan
This condition, together with the availability of spring water and undergrowth wood, led to choices that sustainability goals are achieved while maintaining and restoring the original character of the building before the work was in a state of severe degradation especially for the wooden parts of the cover subject to leaching and the precarious conditions of the mantle, and using recovery techniques traditional integrated with the sun and the necessary technological components, in order to maintain appearance of simple construction rural placed on the lawn. In this view of maintaining the historical witness, the perimeter walls of stone have been recovered and consolidated without using isolations.
Courtesy of Studio Contini
Courtesy of Studio Contini
The building is completely made independent in terms of energy through the placement of a photovoltaic system consisting of 12 panels of 290W placed on the cover of the wooden portico and connected to 8 gel storage batteries of 3kW each one.
The produced electricity is used for lighting, induction plates, water heating and operation of electric radiators for heating, supplemented by a wood stove with a power of 6.5 kW.
Section
Section
The water supply for the health needs is secured by a pool of storage fed by a spring located in proximity of the building. The waste disposal system of sewage takes place through a phytopurification system.
Photographs: Courtesy of Katsutoshi Sasaki + Associates
Structure Company: Tatsumi Terado Structural Studio
Construction Company: Marucho home Ltd.
Site Area: 238.54 sqm
Built Area: 76.38 sqm
Courtesy of Katsutoshi Sasaki + Associates
How will housing change as societal aging accelerates? This time our clients are a couple of retired husband and wife in their 60s. We planned a small house with a square roof for them, considering “the aging society” and “the way of housing” in the future.
Courtesy of Katsutoshi Sasaki + Associates
The site is a newly-acquired lot conveniently located in a quiet residential area. The clients requested that we not just build a house but that we make a new place where we can interact with our neighbors and that we make a residence where they would be able to enjoy their hobbies indoors and outdoors. Upon this request, we planned an interaction space (a place open to the public) in front of the building facing the road, and we also planned a home garden behind the building (the location facing the neighbor’s agricultural field).
Plan 1
Four areas — “veranda,” “living space,” “light veranda,” and “visitors’ room” —constitute the plane.When we considered the life of the aged, we thought that non-daily lives and time such as tea parties at home or their adult daughters’ visits would be important while it is necessary to privide functions for daily lives such as eating and sleeping. So we planned so that each area would be connected with each other depending on the situation, while maintaining fuzzy borders among them, thus making it possible for daily lives and non-daily lives to be intertwined.
Courtesy of Katsutoshi Sasaki + Associates
Courtesy of Katsutoshi Sasaki + Associates
The veranda surrounding the building functions as a place of friendship with neighbors and neighborhood gathering on the east side, and as a resting place on the west side when the clients work in their home garden. It also functions as a traffic line from the entrance when they have a tea party. The veranda is a structure that creates a physical and temporal distance between the living space and the tea room, and it helps visitors to realize the end of their daily lives and the beginning of their non-daily lives.
Section
The living space surrounds a square storeroom situated in the center. Located in the center on the second floor is the visitors’ room. It is expected to be used flexibly as a tea room, a guest room, a reading space, etc. Floated around that visitors’ room is the “light veranda,” whose soft light wraps the visitors’ room. On the “light veranda” light from the top lights on the four sides diffuses among sheets of translucent cloth and creates a pool of light. It also creates a scene in which light moves and fluctuates in intensity in response to the movement of natural wind.
Courtesy of Katsutoshi Sasaki + Associates
For this house, after deciding on using the customary form such as a square roof, a veranda, etc., we focused on the relationship between daily and non-daily, and then by adding a “light veranda” as well as the normal “veranda,” it has become a house with various kinds of involvement with nature and unpredictable scenes under the roof. We always place an emphasis on the fact that simple configurations may create various kinds of involvement, and we feel possibilities in developing the already existing formats rather than architecture that expresses newness itself such as the discovery of a new scheme.
From the architect. With the size of only 52 ㎡ (kitchen not included), the original ramen shop is adapted to a BBQ bar. Features of the project: narrow space, limited budget and poor location.
Courtesy of Robot 3 Studio
What we propose: switching perspective, ultralow price and wormhole.Squatting is a basic human instinct.Lower sitting position could get people closer.
Plan
Each ring road of Beijing is a rough division of social class. The invisible wall made up of power and wealth divides Beijing into pieces of fixed territories, some of which are inaccessible for majority of people in their whole life. Each territory has a stable hierarchical structure and complicated codes. Design is the way to overcome the obstacles and crack the code.
Courtesy of Robot 3 Studio
Huoying is located in the “margin” of Beijing. As the reference of it, Sanlitun area is the center of fashion and exchange of information in Beijing. It takes 1.5 hours to drive from Huoying to Sanlitun with the distance of 25 km. But we believe that the margin of Huoying correlates with the center of Sanlitun. There will be no center if there is no margin. We are designing a wormhole① in this spacetime to make the margin and the center overlapped. The wormhole is the Metal Hut.
Courtesy of Robot 3 Studio
Courtesy of Robot 3 Studio
The psychological change from our work to life could not be instantly changed like a switch. We may still continue to work after returning home. Therefore, we take the Metal Hut as a psychological switch. Squatting is a basic human instinct position on a picnic. This “informal” dining posture is relaxing and getting the diners more intimate. Squatting view also permits the diners to see the usually-neglected low dimension of the world.
Firms Lyons and m3architecture have been selected to design the Sustainable Futures Building at the St Lucia campus of the University of Queensland.
The new building will house the School of Chemical Engineering, and is intended to amplify the University’s profile as a hub of chemical engineering leadership in Australia, the Asia-Pacific region, and a global stage.
Courtesy of Lyons and m3architecture
The design concept creates a physical environment and identity that reinforces the School’s distinctive strengths—outwardly open and transparent, and inwardly intense and focused said the main architect at a press release.
Sustainability efforts for the project mimic this concept, as the building features a highly energy-efficient glass skin façade, while energy-intensive research areas are offset by renewable energy photovoltaics on the roof.
Courtesy of Lyons and m3architecture
The design of the exterior of the building is inspired by “the confluence between chemical engineering and the campus itself,” and thus is an evolution from sandstone to glass, representing the technological advances of chemical engineering.
The project additionally features open connecting stairs, shared collaborative spaces, and “blurred overlapping boundaries between learning, research, and industry.”
Radar Architecture&Art has won second place in the ACTIVATE North Carolina 2016 Housing Competition, which sought out innovative ways to reinvent urban housing for the 21st century.
Through its design, Radar proposes a “new way of inhabiting” and “a new sense of community” via a hybrid structure of public, semi-public and private space.
Courtesy of Radar Architecture&Art
On the ground floor, the project features a maze of narrow, 3.7-meter-wide, translucent volumes, which host public and semi-public functions, as well as community living spaces of private houses. This creates a series of intimate and interconnected open spaces. These spaces additionally form an urban plaza, community plaza, commercial boulevard, playground, and garden area, in a mixture of typically urban and suburban spaces.
Above the maze, private residential volumes are placed, completing the “porous” fabric of the project.
Courtesy of Radar Architecture&Art
Courtesy of Radar Architecture&Art
The combination of living and working spaces located on one portion of the project contribute to the urban atmosphere of the proposal, creating a space where networking, cooperation, and synergy can flourish.
Courtesy of Radar Architecture&Art
Courtesy of Radar Architecture&Art
The urban aspect is further reinforced by the presence of facilities such as a restaurant/cafe, shops, community co-working spaces and children indoor spaces. The family dwellings on the other hand, provide typical aspects of the suburban life-style – closeness to nature with the possibility of barbequing, gardening, outdoor sports and relaxation, but in an environment that in a sense surpasses the limits of the suburbs being lively, community-like, with urban characteristics. – Radar Architecture&Art
Authors: Ana Paula Polizzo, Gustavo Martins, Geraldo de Oliveira Lopes, Gilson Ramos dos Santos e José Raymundo Ferreira Gomes
Collaborators: Felipe Monnerat, Vitor Garcez, Juliana Sicuro, Igor Pio, Janaina Nagot, Jean Boechat, Cristiano Vieira,Honório Magalhães e Jorge De Miguel Maza
This architectural project, developed for the venue that will host handball games in the 2016 Olympics and Goalball games in the 2016 Paralympics both to be held in Rio de Janeiro, has the target to search for suitable solutions in diversified interfaces in the complex system composed of sports equipment for the games and its legacy. Unlike other arenas located in the Olympic Park, this Olympic arena right after the games will become four public city schools. Therefore, the team has developed such a building that could prioritize in its construction concepts like flexibility, mutability and adaptability.
The core of the project consists of an octagonal area, where the games will be played, and its stands. There is also an independent and temporary metallic structure. It has an octagonal shape so that this structure can adapt to several spatial organizations which favor economicity and the possibility to reuse modular structures in order to build four schools in the city of Rio de Janeiro.
Among the structure compounds, we highlight the presence of a building skin composed of brises made of recycled wood enveloping the building. This system is intended to filter external light and absorbs the landscape silhouette showing the geographic fluidity of the environment.
Section
Diagram
This arena has the capacity of 12,000 spectators, for the Olympic module it reaches 11,959 people whereas for the Paralympic module it will have 5,204 people. The total built-up area is 24,214 m².
It is fundamental to emphasize that the project for this Arena must not only be understood as a mere sports venue but also as an area that offers a rich capacity of transformation. We might state that its mutability is an important legacy for the city.
Ennead Architects has recently celebrated the completion of the steel core of a new 295,000-square-foot Biological Sciences Building (BSB) and Museum of Natural History with a topping out ceremony at the University of Michigan. Due to open in 2018, the BSB will bring together the departments of Molecular, Cellular and Developmental Biology, Ecology and Evolutionary Biology, the Research Museums of Paleontology and Zoology, and a re-envisioned Museum of Natural History.
Courtesy of Ennead Architects
In order to foster intimacy and collaboration, the building has been designed with small, interconnected “lab neighborhoods” sized appropriately for specific research endeavors.
Courtesy of Ennead Architects
Two glazed atriums unify the building’s three volumes, allowing for visual connectivity between research and museum spaces.
Courtesy of Ennead Architects
With an education-focused mission, the museum space within the project will exhibit collections that communicate the research conducted at the University. Specialized programs, such as two investigative libraries, a multimedia presentation space, and a seventy-seat digital dome theater will be incorporated into the Museum.
Courtesy of Ennead Architects
The building will complete a new “Science Neighborhood” for the University, unifying a residential zone, the life sciences quad, and the main axis through the campus, the “Diag.”
From the architect. Boston Road provides 154 units of housing for formerly homeless people, many of them seniors and living with HIV/AIDS, as well as low-income working adults from the South Bronx.
The building’s internal layout places equal emphasis on private rooms and communal spaces. Shared areas include multi-purpose rooms to accommodate social services and tenant meetings. In addition, there is a large patio and garden, a roof terrace, computer lab, exercise room, bicycle storage and laundry.
Diagram
The colored metal panels in the façade both animate its surface and serve to recall the history of the site. The building stands in the Morrisania neighborhood, on the site of the farm owned by James Morris who was a signer of the Declaration of Independence. Morris offered the farm to the new government as the future Capitol of the United States, however Washington DC won out.
The building has been designed for Energy Star rating. Energy-efficient elements include a green roof and a building management system that regulates electrical, cooling, and lighting systems. Low and non-VOC content finishes are used throughout the interiors to provide a healthy environment for tenants.
From the architect. A vision has become reality. Bilding, a unique facility for aesthetic education and creative encouragement for children and youths has finally found its very own space in Innsbruck’s Rapoldipark.
Based on the conceptual groundwork, that a voluntary group of architects connected to aut. architektur und tirol provided for the planning of this building, students of ./studio3 carried out the final design. Supervised by Walter Prenner, Verena Rauch and Wolfgang Pöschl 17 projects were submitted as bachelor theses. In December 2014 a jury selected Niklas Nalbach’s project for further development. In cooperation with numerous companies and thanks to the gratuitous work of structural engineers, architects and expert planners the project was collectively developed for final construction. In mid April 2015 construction work began on the site provided by the city of Innsbruck. Thanks to the students’ dedicated work effort, bilding was completed within just five months and at low-cost.
The result is a workshop resembling a pavilion that not only offers the perfect space for the children and youths working within, but also enriches the surrounding park with it’s singular architecture. Outside decks and floor to ceiling glass walls connect the curved building to its surroundings and on the inside, slanting walls and floors create a continuum of spaces with various atmospheres and work opportunities.
Floor Plan
An experimental space has been designed and constructed by young people for young people. A place for change, which sees education as “a work in progress”, and encourages active participation. bilding’s extensive programme, starting this autumn, proves the opportunities offered by location and space.
We would like to thank all of those who provided their expertise and skill, their calling, their funds and their energy. It was only the cooperation of all these people, convinced that our children need such a place, which enabled the realisation of this new space of creativity.
Sig Nordal 