Thessaloniki Water Transport Piers in Thessaloniki, Greece by Giannikis SHOP

Article source: Giannikis SHOP

Giannikis SHOP / THESSALONIKI WATER TRANSPORT PIERS / HONORARY MENTION IN NATIONAL ARCHITECTURE DESIGN COMPETITION

Floor, Pavilion, Inflated Pneumatic Structure

Four Piers (Eleutheria Square, Megaro, Aretsou, Perea) were designed for the Architecture Competition for the Thessaloniki Water Transport Piers. Each Pier is composed of three elements: the Floor, the Pavilions and the Inflated Pneumatic Structure.

From the water towards the Pier.

• Architect: Giannikis SHOP
• Name of Project: Thessaloniki Water Transport Piers
• Location: Thessaloniki, Greece
• Team: Stamatios Giannikis (Team Leader), Evi Tsagka, Stelina, Tsifti, Panagiotis Chatzitsakiris, Giorgos Aggelou
• Organizing Committee: Ministry of Infrastructure, Transport and Networks (Greece)
• Year: 2011
• Size: 120m2

The Floor arranges the flow of users and incorporates pier lighting and sitting. The Floor is made of rough wood planks treated with tar, a technique used in shipbuilding. Sitting is made of stone blocks.  Lighting is integrated in the surface of the Floor.

The Pavilions house the public toilets and storage space (A) and the ticket booth and Pier café (B). The Pavilions are steel structures covered in the same rough wood planks as the Floor. The doors and windows of the Pavilions are made out of brass, another material that references to shipbuilding.

From the city Harbor towards the Pier. In the back of the image, towards the end of the waterfront, one can see the White Tower, the city’s major monument.

The Inflated Pneumatic Structure operates as weather protection and harvests solar energy and water. It is supported by a three column steel structure that holds a triangular ring inside the Inflated Pneumatic Structure. The surface of the Inflated Pneumatic Structure is in constant mechanical support (air supply). The side walls of the Inflated Pneumatic Structure are made of BoPET  while the upper and lower walls are made of ETFE . BoPET is a highly reflective synthetic film and ETFE is a transparent synthetic film. Both materials have high tensile strength capabilities.

From the waterfront towards the sea. On the right of the image one can see the city harbor.

Functionality, Economy, Innovation

The goals of the proposal for the Thessaloniki Water Transport Piers were functionality, economy and innovation.

The Piers have no interior waiting space. The climate of Thessaloniki is mild and the average waiting time for users on the Pier is short. That allows for Pier operation savings in heating during winter and cooling during summer.

The reflective surface of the Inflated Pneumatic Structure integrates the Pier in any surroundings it is positioned. The three elements that compose each Pier are the same everywhere. That allows for savings in design and fabrication as well as the ability for use of the existing Pier design in any future expansion of the Thessaloniki Water Transport Piers in other locations. In addition, the persistence of the same elements throughout the Water Transport System unifies the whole as a single entity.

The Pier construction has low maintenance requirements. All elements are easy to fix or replace and are resistant to humidity, salt water and vandalism.

Bird’s Eye view of the Pier from Google Earth.

The way the Inflated Pneumatic Structure harvests solar energy and water is the following:

Solar radiation enters the Inflated Pneumatic Structure from its upper transparent wall. The reflective side walls of the Inflated Pneumatic Structure guide the solar beams towards the solar cells that are located in the interior of the Structure.  The solar cells transform the solar energy to electricity and store it there. The advantage of this innovative solar cell technology compared to conventional solar cell technology made with steel and glass is the ability for large surfaces with minimal weight. This technology is being developed by a multitude of companies  such as Cool Earth Solar , Emcore , SunPeak Solar , Ausra  as well as ETH  University.

Water is harvested from three cone shaped point at the upper wall of the Inflated Pneumatic Structure (the point of connection between the surface of the Inflated Pneumatic Structure and its steel support ring) and directed towards an under Pier storage facility. Electricity and water harvested by the Inflated Pneumatic Structure allows for energy and water self-sufficiency of the Pier.

On the Pier, under the Inflated Pneumatic Structure. On the right of the image one can see the city harbor.

From the water towards the Pier. On the Inflated Pneumatic Structure’s surface one can see the White Tower, the city’s major monument.

Bird’s Eye view of the Pier from Google Earth.

From the marina towards the Pier

Bird’s Eye view of the Pier from Google Earth.

Night view towards the Pier

Bird’s Eye view of the Pier from Google Earth.

View of all four Piers. Clockwise from upper left: Eleftheria Square, Megaro, Aretsou, Perea.

Bird’s Eye view of all four Piers from Google Earth. Clockwise from upper left: Eleftheria Square, Megaro, Aretsou, Perea.

Plan at the interior of the Pier’s spaces.

Section at the interior of the Pier’s spaces and at the Inflated Pneumatic Structure.

Tags: Greece, Thessaloniki

Categories: Infrastructure, Pavilion, Transport & Infrastructure, Water treatment Plant

This entry was posted on Wednesday, February 15th, 2012 at 11:54 pm. You can follow any responses to this entry through the RSS 2.0 feed. You can leave a response, or trackback from your own site.