(
Work Collection
)
(
Work Collection
)
Student Exchange Decodes UNTAR - UiTM 2024
Student Exchange Decodes UNTAR - UiTM 2024
Student Exchange Decodes UNTAR - UiTM 2024
(
REVOLT
)
(
Revolt
)
(
Our Studio
)
Revolt is an innovative self-service machine designed to collect and recycle used batteries. It aims to make battery recycling easier, more accessible, and more engaging for the public by promoting environmental responsibility through technology.
13.8B +
13.8B +
E-waste collected
formally and recycled
E-waste collected
formally and recycled
16B +
16B +
E-waste collected from
High - Upper Middle income
E-waste collected from High - Middle income
18B +
18B +
18B +
E-waste collected from
Low - Middle income
E-waste collected from
Low - Middle income
14B +
14B +
E-waste disposed in
residual waste
E-waste disposed in
residual waste
Solution
Solution
Creating a battery recycling machine that can be placed in public spaces to make recycling more visible and encourage more people to take part.
Creating a battery recycling machine that can be placed in public spaces to make recycling more visible and encourage more people to take part.
Problem Statement
Despite increasing awareness of environmental issues, effective disposal of used batteries remains a significant challenge. Current methods lack convenience and fail to incentivize proper recycling practices among the public, leading to environmental pollution and health hazards. There is a pressing need for a user-friendly, accessible solution that encourages widespread participation in battery recycling efforts.
Objective
To develop a self-service battery recycling system that increases public participation in responsible battery disposal by providing a convenient, accessible, and engaging platform—ultimately reducing environmental pollution caused by improper e-waste management.
Feedback
In conclusion, this research introduces new technology that not only raises public awareness about the importance of hazardous waste management but also emphasizes the need for e-waste recycling. It offers an educational opportunity for communities to understand the health and environmental risks posed by uncontrolled battery disposal. Additionally, this research paves the way for further innovations in e-waste management, where the success of this product may inspire advancements within the e-waste industry. This product serves as a model for future products that prioritize smarter and more efficient e-waste solutions, demon string how technology can effectively address heavy metal waste management challenges.
Problem Statement
Despite increasing awareness of environmental issues, effective disposal of used batteries remains a significant challenge. Current methods lack convenience and fail to incentivize proper recycling practices among the public, leading to environmental pollution and health hazards. There is a pressing need for a user-friendly, accessible solution that encourages widespread participation in battery recycling efforts.
Objective
To develop a self-service battery recycling system that increases public participation in responsible battery disposal by providing a convenient, accessible, and engaging platform—ultimately reducing environmental pollution caused by improper e-waste management.
Feedback
In conclusion, this research introduces new technology that not only raises public awareness about the importance of hazardous waste management but also emphasizes the need for e-waste recycling. It offers an educational opportunity for communities to understand the health and environmental risks posed by uncontrolled battery disposal. Additionally, this research paves the way for further innovations in e-waste management, where the success of this product may inspire advancements within the e-waste industry. This product serves as a model for future products that prioritize smarter and more efficient e-waste solutions, demon string how technology can effectively address heavy metal waste management challenges.
Problem Statement
Despite increasing awareness of environmental issues, effective disposal of used batteries remains a significant challenge. Current methods lack convenience and fail to incentivize proper recycling practices among the public, leading to environmental pollution and health hazards. There is a pressing need for a user-friendly, accessible solution that encourages widespread participation in battery recycling efforts.
Objective
To develop a self-service battery recycling system that increases public participation in responsible battery disposal by providing a convenient, accessible, and engaging platform—ultimately reducing environmental pollution caused by improper e-waste management.
Feedback
In conclusion, this research introduces new technology that not only raises public awareness about the importance of hazardous waste management but also emphasizes the need for e-waste recycling. It offers an educational opportunity for communities to understand the health and environmental risks posed by uncontrolled battery disposal. Additionally, this research paves the way for further innovations in e-waste management, where the success of this product may inspire advancements within the e-waste industry. This product serves as a model for future products that prioritize smarter and more efficient e-waste solutions, demon string how technology can effectively address heavy metal waste management challenges.
Infographic
