The thesis abstract discusses the role of sustainability in architecture, particularly in the context of floating architecture. Here are the key points:
Environmental Sustainability: Floating architecture offers a sustainable solution to the challenges posed by urban expansion and climate change. These structures are resilient to fluctuating water levels, mitigating the impact of rising sea levels.
Material Sustainability (Adaptive Reuse): The foundations of floating structures are typically constructed from concrete and foam. These materials are heavy and stable, allowing the structure to adjust to changing sea levels. This demonstrates the adaptive reuse of materials in architecture.
Socio-Economic Sustainability: In densely populated cities with premium space, floating foundations offer a novel approach to creating additional building space. This contributes to socio-economic sustainability by optimizing the use of space in urban areas.
Cultural Heritage: The abstract does not explicitly discuss the role of cultural heritage in floating architecture. However, the adaptability of floating architecture could potentially allow for the preservation of cultural heritage in coastal cities threatened by rising sea levels.
Example - Green Float: The “Green Float” is a proposed Mega Floating City by Shimizu Corporation, Japan. The concept integrates “Green Innovation” and “Float Innovation” to achieve a self-sufficient, zero-carbon, and zero-emission city that is unaffected by rising sea levels and offers high flexibility for city growth.
In conclusion, the abstract suggests that sustainability plays a crucial role in floating architecture, presenting a viable and sustainable solution to urban expansion and climate change challenges. This underscores the importance of environmental, material, socio-economic sustainability, and cultural heritage in future city planning and development.
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