Jumat, 17 Februari 2012

High Line, New York, United States

The High Line, by James Corner Field Operations and Diller Scofidio + Renfro, is a new 1.5-mile long public park built on an abandoned elevated railroad stretching from the Meatpacking District to the Hudson Rail Yards in Manhattan. Inspired by the melancholic, unruly beauty of this postindustrial ruin, where nature has reclaimed a once vital piece of urban infrastructure, the new park interprets its inheritance.

Through a strategy of agri-tecture?part agriculture, part architecture?the High Line surface is digitized into discrete units of paving and planting which are assembled along the 1.5 miles into a variety of gradients from 100% paving to 100% soft, richly vegetated biotopes. The paving system consists of individual pre-cast concrete planks with open joints to encourage emergent growth like wild grass through cracks in the sidewalk. The long paving units have tapered ends that comb into planting beds creating a textured, ?pathless?


Location: New York, United States
Client: Friends of the High Line
Type: Public - Park
Building status: built in 2009
A project by: James Corner Field Operations, Diller Scofidio + Renfro
Architecture

Photo Gallery of High Line, New York, United States








(Source: architizer.com) 

Seoul National University Museum, Korea, Republic of

The Seoul National University Museum is defined by its siting on the side of a small hill, close to the entrance of the university. The building?s form was conceived as a basic rectangular box, theoretically sliced diagonally by the incline of the hill. This form is then raised up on a small central core ? Both outside and inside, free-flowing circulation was key to the thinking behind the building. The central core is an atrium with a square-spiral staircase connecting the various program areas: exhibition, education, library, and operations.

The educational spaces ? the lecture hall and auditorium ? The library inhabits the structural core of the building. The exhibition space, being the primary function, inhabits the entire top floor. Elsewhere, materials vary, and include concrete flooring, plywood paneling, and translucent plastic paneling over fluorescent lighting. The museum?s fade is also translucent, revealing the structural steel truss work beneath.

Location: San 56-1, Sillim-dong, Gwanak-gu
                   Seoul, 151-742
                   Korea, Republic of
Client: Seoul National University Museum
Building status: built in 2005
Building area: 48200 sqft
Budget total: 11200000 USD
Type: Cultural - Museum, Library
           Educational
A project by: OMA
                         Architecture

Photo Gallery of Seoul National University Museum, Korea, Republic of







(Source: architizer.com)

OpenOffice, Essen, Germany

OpenOffice is an experimental building for the Zeche Zollverein site in Essen / Germany. The aim is to develp an energetically autonomous and infrastructurally independent building.
Tools to achieve energetic autonomy:
  • economic building planning with utilization of active and passive methods to improve energy efficiency.
  • optimization of the building skin - concerning materials and buildign systems.
  • photovoltaic energy gain thourh solar foil.
  • thermal solar gains thourh solar ripp collektor.
  • fuel cells to generate electricity - the thermal redundance will be used for heating.
Tools to achieve supply autonomy:
  • collection and filtration of rain water via the roof-scape.
  • installation of a decentralized vacuum deposit system.
The building will state an example, how modular light-weight building methods, can establish sustainable buildings.

Location: Essen
                   Germany
Budget: 500.00
Building area: 200 m2
Type: Privat House
A project by: bk2a architecture

Photo Gallery of OpenOffice, Essen, Germany






(Source: archello.com)

Rabu, 15 Februari 2012

Science Tower for the Panum Complex, Copenhagen, Denmark

The extension of the Panum complex has been designed with the aim of creating the best possible environment for modern research and teaching. A parallel objective has been to create a building which will stand out as an identity-creating, sculptural linchpin for the entire Panum complex and the university's Nre Campus (i.e. the North Campus) as a whole. At sixteen storeys tall, the Science Tower will provide the complex with a unifying and dynamic focal point in a clear and readable form. But just as a tree has its root network, the tower rests upon on a series of smaller buildings which contain the common functions: the auditoriums, classrooms, canteen, show lab, conference rooms and book caf The most striking part of the root network is the extensive science plaza, which will form the new social hub of the complex. The plaza accommodates the main entrance and will serve as the main social meeting-place, linking all functions between the new and the existing Panum complex.
The facade is built up in the form of a grid structure of storey-high window fields that break up the building's large scale. The project will be pioneering in energy usage, with Denmark's most energy-efficient laboratories, in which waste energy from the ventilation system will be recycled in the overall energy balance of the building to a hitherto unprecedented degree. C. F. Mler Architects, SLA Landscape and Ramboll engineers won the project in an invited architectural competition in November 2010.

Location: Tagensvej
                   Copenhagen
                   Denmark
Client: The Danish University and Property Agency and the University of Copenhagen
Site type: urban
Building area: 35000 m2
Type: Educational - College or University, Research Facility
A project by: C. F. Møller Architects
                         Architecture, Landscape, Urban Design

Photo Gallery of  Science Tower for the Panum Complex, Copenhagen, Denmark






 (Sourche: architizer.com)

Grenelle Tower, Paris, France

Paris is currently reviewing its ambitions of “greatness”. At the outset, we imagined the tower from an initial volume, which we considered a “spatial texture”, consisting of slabs stacked vertically to a height of 200 meters. Within this solid and uniform texture, we applied a dynamic formation process utilizing an empty tube of manifold geometry. In motion, this cavity becomes a generator of space, a dynamic, fluctuating, and evolving construct. Its topology will help us delineate such properties as proximity, contiguity, continuity.
All the richness of the city is transposed vertically into towers of shifting density!

Location: Paris, France 
Site type: urban
Building area: 168000 m2
Budget total: 400000000 USD
Type: Residential
            Commercial - Office
A project by: AZC
                        Architecture

Photo Gallery of Grenelle Tower, Paris, France






  
(Source: architizer.com)