AeroVolt Shading: Wind-Piezo Kinetic shading facade

Khojasteh far, Faraz

25 June 2024

This research delves into the feasibility and effectiveness of utilizing wind-powered shading systems in architectural design to enhance energy efficiency and promote environmental sustainability. With an ever increasing demand for energy in commercial buildings, particularly in heating, cooling, and lighting, innovative solutions are crucial in addressing these challenges. The proposed solution centers on dynamic shading systems that adjust autonomously to environmental factors, thanks to advancements in construction and information technologies. Piezoelectric wind harnessing devices are at the heart of this investigation, powering kinetic shading systems that offer a renewable and eco-friendly alternative to traditional energy sources. However, implementing such systems presents technical challenges such as device optimization, compatibility with dynamic movement, and reliability in real-world applications. Through empirical research and experimentation, these challenges are comprehensively explored and addressed. The study seeks to assess the practicality and effectiveness of wind-powered shading systems in reducing energy consumption, improving thermal comfort, and enhancing overall building performance. By considering factors such as architectural integration, heat, light management, and adaptability to environmental conditions, the research aims to contribute to the advancement of sustainable building practices. Ultimately, the findings provide valuable insights into the potential of wind-powered shading systems to mitigate energy usage and promote environmental stewardship in architectural design. / Master of Architecture / This Thesis Explores the design and evaluation of origami-inspired kinetic shading system driven by piezoelectric technology to convert wind power to electricity. By examining the behavior and utility of this piezoelectric dynamic folding shading system, it enhances our understanding of how to integrate renewable energy into building designs for a more sustainable future.

Kinetic shading system

Folding Origami

renewable energy potential

Piezoelectric

Energy efficiency

Dynamic shading systems

Wind Power

Wind harnessing

Karnola Krnov – potenciál rozvoje území / Karnola Krnov – potential developments of complex

Wolfová, Pavla

January 2012

What to do with the area of the former textile company in Krnov named Karnola? The fundamental part of this work is an architectural study and proposal of transforamtion of this brownfield area for the needs of owner or developer. The study is connecting the currently isolated area and the city center to create a symbiotic relationship. The large area of the former Karnola textile company is divided into zones which are further splitted into smaller sections, which will be easier to manage. The study encourages the industrial production and traditional crafts which were always present in Krnov. It also adverts the trend of ecological approach towards industry production, which is essential for sustainable development of the area. The orginaly closely specialised buildings are becoming multi-functional centers. Important factors are both the use of renewable energy and environmental waste management. The land is owned by a limited liability company and managed by proxy. The proposed transformation corresponds with land use according to ground plan and strategic plan of Krnov. Because of the transformated area location - in the suburbs and also close to the city center - the whole project can very well served as an interconnection between the public and private sectors and also for various kinds of new utilazation of the area. The transformation study calculates with the rehabilitation of aboveground old water race and extension of currently existing recreation area along the Opava River to the area.