SPACE Espace
SEA LEVEL RISE Sea level rise
Téléchargement Téléchargement


Author : Arthur Seibert and Clemens Lindner
Nationality : German
Year : 2019
Location : Shanghaï, China
Biography : Arthur Seibert (24) currently studies architecture at TU Munich. Besides that I was born and grew up in Munich. After graduating here from high school (2014), I went to RWTH Aachen Univ. for a Bachelor's degree in Architecture. After that I finished several internships in which I became involved in different areas of architecture. Since then I have continued to work as a working student in real estate consulting. At the moment, I am doing an year abroad in Shanghai at Tongji University. Clemens Lindner, 21, undergraduate student of architecture at the Technical University of Munich. I was born in Regensburg Germany. My interest in architecture is derived from the curiosity to understand more about the different ways we occupy and traverse spaces. Therefore, I explore different architectural positions by completing various internship. Currently, I am doing my third year abroad at College of Architecture and Urban Planning, Tongji University, Shanghaï.
Type : Nominee
Scale : XXL : Large installation
Size : 300 000
Capacity : 15 000

In the context of a rapidly increasing global population growth and the associated shortage of living space, alternative urban concepts in a marine environment are gaining importance under ecological and sustainable aspects. The concept- guideline "renaturation instead of soil sealing" is an effort to react on the challenges of current megatrends in the context of the sea. The underwater city structure is designed for up to 15,000 inhabitants in the vicinity of a large coastal city. “Lillyana” represents an ideal system that can be applied to various geographical and climatic conditions and their specific demands. The form is inspired by hydrophytes - plants that grow above and below the water and benefit from their environment. Through their biometric and biological mechanisms, the shape has been improved for energy efficiency, buoyancy and stability. Thus, the wind-, water- and solar energy production is directly embedded in the design language. The main challenge of this project was to develop a self-sufficient system that could also allow different forms of social life at the same time. To achieve this, we have tried to understand the factors that make an attractive city: “Living”, “working”, “mobility”, “supply” and “recreation” These fields of action provide the framework for our design: Therefore, a superior supply organ will be placed in the centre, from which radially arranged bridge systems will form connections to floating platforms. These are anchored beneath the seabed and represent the quarter centres. From the platforms, supply pipelines, on which various spheres are suspended, lead into the depths. They shift private, professional and social life below the water surface. High attractiveness, beneath as well as above the sea level, is achieved by providing well-located and spatially qualitative living and working areas with a recreation and leisure area, as well as an intelligent infrastructure via a pipeline network.

Descriptive of Author : Splendour of life beneath the surface: “Lillyana” – A hydrophytic model for urban design