DESIGN AND IMPLEMENTATION OF A COMPUTERIZED RECYCLING SYSTEM FOR PROTECTING THE GREEN ENVIRONMENT
Abstract : Our society suffers a lot from the things that are thrown uselessly; these things may be beneficial to our society. On the other hand, communities suffer a lot of waste especially plastic waste; this has led to environmental pollution and depletion of natural resources.
Therefore, this research aims to achieve sustainable development and achieve part of the Saudi Arabia vision 2030.
Hence we have distributed a questionnaire to 88 responders, and based on the results of this study, which shows the importance of recycling and its impact on the environment and the extent of community interest in this subject and their supporters, The Let's Recycle site, based on the results of the questionnaire, will improve waste and plastics disposal in an environmentally positive manner.
The proposed system was developed using the Unified Modelling Language (UML) and Microsoft Visual Studio2010 programming language.
The recycled product is usually lower in quality than the primary product used for the first time; also it is not used for the same purposes as the primary product. However, the cost of manufacturing it is higher than the cost of manufacturing the primary product from its raw materials, making the recycling process economically illogical and energy wasting.
Where, another method of waste disposal should be sought while at the same time non-renewable raw materials are not wasted. Some ideas have already begun to emerge, such as using crushed glass in waste as an alternative to sand in street paving or trying to use waste to generate clean energy.
In the future, many other ideas are get rid of waste piles in a way that conserves the environment and does not waste energy. Green parties have emerged in many parts of the country, and many are aware of environmental awareness and a genuine desire to stop the drain of resources.
A generat emerging that knew new vocabulary such as the Ecological System, Global Warming, the Effect Green House, the ozone hole, recycling use, the ozone hole, recycling
High Initial Costs
Infrastructure Investment: Setting up a computerized recycling system requires significant investment in technology, including hardware (e.g., sensors, sorting machines) and software (e.g., data management systems).
Training and Development: Training personnel to operate and maintain the new system can also be costly.
2. Technical Complexity
System Integration: Integrating new technology with existing recycling processes can be complex and may require extensive modifications.
Maintenance and Upgrades: The system will need regular maintenance and updates, which can be challenging and expensive.
The computerized recycling system aims to transform waste management by integrating sophisticated technology to enhance both efficiency and environmental sustainability.
This innovative system incorporates several key modules designed to optimize the recycling process. The User Interface Module provides a user-friendly platform for the public and administrators, offering access to recycling schedules, educational resources, and real-time updates.
The Collection Management Module utilizes advanced algorithms to streamline waste collection routes and schedules, minimizing operational costs and maximizing service effectiveness.
A core component of the system is the Material Identification and Sorting Module, which leverages state-of-the-art sensors and artificial intelligence to accurately identify and sort recyclables.
This automation enhances sorting precision, reduces manual labor, and ensures high-quality material separation. The Data Management and Analytics Module gathers and analyzes data from various sources to generate insights, optimize processes, and track performance metrics.
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