Floating House/flood resistant House working model/SST project for exhibition/Kansal Creation

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Floating house do not require foundation and are based on the principle of buoyancy. Thus known as buoyant homes. Base of the structure should be such that it help in floating as well as able to take dead load, live load and other load to encountered by the house.
The floating houses built by +31architects are based on the hollow concrete box. The house is sited within a wet dock comprising retaining walls and base slab. When flooding occurs the dock fills with water and the house rises accordingly. Similarly when water subsides, houses come down.

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Resilient Home Design for Flood-prone AreasTitle: Resilient Home Design for Flood-prone Areas
Objective:
The number one aim of this assignment is to expand a comprehensive plan and layout for an anti-flooding residence to mitigate the impact of floods in catastrophe-susceptible areas.
Components:
Elevated Foundation:
Design the residence on an elevated platform to lessen the risk of water coming into the living area at some stage in floods.
Waterproofing Techniques:
Implement water-proof substances and coatings to prevent water penetration into the structure.
Floating Foundation:
Explore the opportunity of incorporating a floating basis that permits the house to upward push with floodwaters, minimizing damage.
Modular Construction:
Utilize modular creation strategies to enable clean disassembly and relocation in the event of extreme flooding.
Smart Sensors:
Integrate sensors to locate growing water tiers, activating early caution systems and allowing house owners to take preventive measures.
Rainwater Harvesting System:
Include a rainwater harvesting gadget to acquire and keep rainwater for non-potable uses, decreasing dependency on outside water resources.
Energy-Efficient Design:
Implement energy-efficient technology consisting of sun panels to make certain non-stop electricity supply at some point of screw ups.
Community Integration:
Develop a network-huge technique, encouraging buddies to undertake similar anti-flooding measures for a collective resilience method.
Emergency Escape Routes:
Design and comprise emergency break out routes on higher floors, ensuring the protection of residents at some point of flood emergencies.
Education and Awareness Program:
Establish an outreach program to train residents on disaster preparedness and the usage of anti-flooding features in their houses.
Methodology:
Research:
Conduct a thorough overview of flood-susceptible areas, historical flood facts, and current anti-flooding measures.
Collaboration:
Collaborate with architects, engineers, and disaster control experts to gather insights and make sure a multidisciplinary method.
Prototyping:
Develop prototypes and conduct simulations to check the effectiveness of the anti-flooding capabilities.
Feedback and Iteration:
Gather remarks from professionals and capability users, iterating the layout based totally on realistic insights.
Cost-Benefit Analysis:
Perform a value-advantage evaluation to evaluate the economic feasibility of enforcing the proposed anti-flooding measures.
Conclusion:
The venture targets to create resilient homes that may face up to and adapt to flood situations, contributing to progressed disaster control and network resilience. By imposing those measures, we will beautify the safety and properly-being of individuals living in flood-susceptible regions.Title: Resilient Home Design for Flood-prone Areas
Objective:
The primary goal of this project is to develop a comprehensive plan and design for an anti-flooding house to mitigate the impact of floods in disaster-prone regions.
Components:
Elevated Foundation:
Design the house on an elevated platform to reduce the risk of water entering the living space during floods.
Waterproofing Techniques:
Implement waterproof materials and coatings to prevent water penetration into the structure.
Floating Foundation:
Explore the possibility of incorporating a floating foundation that allows the house to rise with floodwaters, minimizing damage.
Modular Construction:
Utilize modular construction techniques to enable easy disassembly and relocation in the event of severe flooding.
Smart Sensors:
Integrate sensors to detect rising water levels, activating early warning systems and allowing homeowners to take preventive measures.
Rainwater Harvesting System:
Include a rainwater harvesting system to collect and store rainwater for non-potable uses, reducing dependency on external water sources.
Energy-Efficient Design:
Implement energy-efficient technologies such as solar panels to ensure continuous power supply during disasters.
Community Integration:
Develop a community-wide approach, encouraging neighbors to adopt similar anti-flooding measures for a collective resilience strategy.
Emergency Escape Routes:
Design and incorporate emergency escape routes on higher floors, ensuring the safety of residents during flood emergencies.
Education and Awareness Program:
Establish an outreach program to educate residents on disaster preparedness and the use of anti-flooding features in their homes.
Methodology:
Research:
Conduct a thorough review of flood-prone regions, historical flood data, and existing anti-flooding measures.
Collaboration:
Collaborate with architects, engineers, and disaster management experts to gather insights and ensure a multidisciplinary approach.
Prototyping:
Develop prototypes and conduct simulations to test the effectiveness of the anti-flooding features.
Feedback and Iteration:
Gather feedback from experts and potential users, iterating the design based on practical insights.
Cost-Benefit Analysis:
Perform a cost-benefit analysis to evaluate the economic feasibility of implementing the proposed anti-flooding measures.
Conclusion:
The project aims to create resilient homes that can withstand and adapt to flood situations, contributing to improved disaster management and community resilience. By implementing these measures, we can enhance the safety and well-being of individuals living in flood-prone areas.
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