Bio-materialization of air pollution is an innovative approach that leverages biological processes to convert air pollutants into useful materials. This method utilizes microorganisms, plants, or engineered biological systems to capture and transform harmful substances such as carbon dioxide, nitrogen oxides, and particulate matter from the air. By integrating principles of sustainable design and environmental science, bio-materialization not only helps in reducing air pollution but also contributes to the creation of eco-friendly materials for construction, manufacturing, and other industries. This cutting-edge technology represents a significant step towards cleaner air and a more sustainable future, transforming pollutants into valuable resources while mitigating the environmental impact of industrial activities.
Designing Urban Bio-Furniture, Creative Step in Reducing CO2 to Improve Urban Sustainability
The urban bio-furniture project, as creative design, challenges the usually taken-for-granted nature of sustainability practices while providing tools for modifying those practices related to the socio-environment and urban aesthetic. In this study, by presenting a solution for integrating algae-containing bioreactors with urban furniture as critical urban facilities while maintaining the identity and integrity of urban spaces, it causes the absorption and reduction of carbon dioxide in the air. Combining a bioreactor with urban furniture by creating a unique opportunity turns it into photosynthetic surfaces in response to climate change, improves the passive thermal performance of the city, transforms ordinary urban furniture into healthy and living furniture.
The main Idea is taken from the word carbon dioxide. From the top view looks like a C and 2 O that have the same center. The next is about the design of bioreactors and the place installed of the microalgae in a leaf-shaped container. The reason that we inspire from leaves is that algae photosynthesize like the leaves of plants.
Design Features
Interaction between humans, plants, and microalgae. – Combination Design from two types of organic and regular furniture. – A space is designed for people with disabilities; the curve part of the table is designed for them to access easily. – The form of fracture created in the furniture bottom shows the shape of the root, which is associated with the tree’s leaves and induces the feeling that it has taken root in the ground and is an integral part of the urban space.
ZE Bus Station Shelter Design for Sustainable Future Cities
Empowering Nordicities For a Zero-Energy Public Transportation
Zero Energy is coded here. This project aims to empower Nordicities with Zero-Energy public transportation as a zero-energy infrastructure that combines energy efficiency and renewable energy generation to consume only as much energy as can be produced onsite. This project aspires to interdisciplinary design principles for Nordicities settlements to identify climate-related conditions affecting these communities’ infrastructure and have examined the questions: How can a new design improve bus shelters in Nordicities to build environments more sustainable throughout the year? Moreover, How can change Nordicities’ weaknesses as sufficient potential for a sustainable future?
regarding the subject of infrastructures in urban design, based on interdisciplinary principles for this project, this project generates power by micro wind turbines rotation, which installs on two sidewalls, and solar panels installed on top of the roof. So with a generator and batteries bank installed, this shelter generates and saves the power for charging E-bike, E-scooter, LED strips light, Signposts for bus lines, LCD screen, USB portables, and Map user interface consul.
This project assumes winter communities must evolve lifestyles and means conformed to living with local conditions and seasonal variation. The potential point of this project variation, besides protecting passengers from the intensive wind and cold weather that makes their standing experience pleasant and also courage them to use more from public transportations is to harness maximum wind energy with stepped plan form and also absorb maximum solar energy with a curve shape and then generate consumed energy. Besides that, this shelter has a shelter as rideshare for people who want to park and charge their regular or electronic bicycles or scooters in a safe place.
The Conceptual Design for the Eco -Tech Pavilion in Nordicity
with a focus on Improving Socio-Environmental Sustainability in Montreal
This project is an opportunity for Nordicity to create a sustainable and environmentally-friendly structure that can operate efficiently and effectively in the unique environmental conditions of the region. The Eco-Tech Nordicity Pavilion is designed to reflect specific Montreal characteristics and the strength of Nordicity. It is also can be a considerable part of Montreal’s sustainable future and improve the quality of life for residents and visitors during the winter.
In light of its conceptual and speculative design, the Eco-Tech Pavilion is poised to offer a range of cultural co-benefits that can enhance climate solutions and human interaction. With its landscape design and innovative pavilion architectural features, coupled with the latest technological advancements, the Eco-Tech Pavilion will showcase the inherent beauty of natural systems while reflecting their stability.
By promoting harmonious co-existence between urban living and Renewable Energy, Sustainable Materials, and Local Green Space, the Eco-Tech Pavilion will serve as an exemplar of sustainable practices, particularly during the winter season.
Bio-Materialization of Air Pollution Bio-materialization of air pollution is an innovative approach that leverages biological processes to convert air pollutants into useful materials. This method utilizes […]
