Executive Summary
Trash stations in Philadelphia spend a lot of time on separating waste products into different categories. The current system separates trash into recyclable and non-recyclable manually. Similarly, recyclable waste materials are further classified according to the type of material manually. The manual process is time and labor consuming which inflates recycling cost. Trash stations require many workers to separate collected trash which makes the process slow and expensive. Different trash stations collect various types of waste materials, therefore, there is no standard method for separating their trash. The ARGC system will assist in separating recyclable and non-recyclable trash. Similarly, the system will also classify recyclable waste materials according to their density such that they can be recycled together. The new system will make recycling work faster and more efficient. The new system will be upgradable and flexible according to the available waste materials. Therefore, it can be used in other geographical areas other than Philadelphia. If the system will be compatible with all transit lines, it is cheaper to upgrade other than developing a new one to adapt to the changing needs. In addition, the ARGC design will have a large database to store required density data for different materials according to the available waste materials. The stored data will enable the system to classify trash, according to its density for recycling purposes. In addition, the system will be connected to an online server to enable data storage and also act as a backup.
The cost of developing the system includes materials to be used, database design and some fees for connecting to the server. Much of the cost will be incurred in purchasing density sensors; they are priced according to size and sensitivity. In addition, materials for developing the system are available at Home Depot or Amazon. The development of the new system will begin as soon as the required materials are available. Development of ARGC system will improve the recycling process by reducing time and labor cost. The system will be more efficient than the current manual process; less labor will be required to operate the system. An upgradable system will make it more cost effective because there will be no need for developing a new design to incorporate the changing recycling needs. A faster recycling process will assist in saving more energy by developing new products from waste materials. Finally, the cost of the machine should be reasonable to reduce recycling costs and easily compatible with the existing transit line.
What Students Are Saying About Us
.......... Customer ID: 12*** | Rating: ⭐⭐⭐⭐⭐"Honestly, I was afraid to send my paper to you, but you proved you are a trustworthy service. My essay was done in less than a day, and I received a brilliant piece. I didn’t even believe it was my essay at first 🙂 Great job, thank you!"
.......... Customer ID: 11***| Rating: ⭐⭐⭐⭐⭐
"This company is the best there is. They saved me so many times, I cannot even keep count. Now I recommend it to all my friends, and none of them have complained about it. The writers here are excellent."
"Order a custom Paper on Similar Assignment at essayfount.com! No Plagiarism! Enjoy 20% Discount!"
