ABOUT US
WasteSet is a provider of waste sorting and processing equipment and technologies, delivering a wide array of products and services designed to tackle waste management challenges globally. Our portfolio includes cutting-edge waste sorting plants, shredders, and incinerators, engineered to efficiently handle and process a wide range of waste materials. Whether you're an industrial client or a local municipality, our solutions deliver sustainable and cost-efficient waste management options.
WasteSet specializes in integrated municipal solid waste, stale waste, e-waste and construction and demolition waste treatment. We provide comprehensive services including equipment, project integration, installation, commissioning, and resource utilization. Additionally, we offer industrial waste treatment solutions.
All our products incorporate advanced technologies and reliable processing methods. They have been certified to ISO9001:2000 quality standards, ensuring consistent product quality and reliability. Our company is dedicated to integrity, innovation, and excellence. We believe that strong brands are built through service, and we are committed to providing comprehensive support throughout the entire product lifecycle for our clients.
WasteSet is committed to delivering outstanding technical support to help you achieve sustainable industrial growth and maximize product value. Our goal is to create a win-win partnership while generating exceptional social value.
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WasteSet Sorting & Processing Capabilities:
WasteSet offers advanced sorting technology designed to enhance the efficiency of waste management processes. Our sorting capability typically includes:
1. Automated Sorting Systems: Utilizing a combination of conveyor belts, sensors, and robotic systems to identify and separate various types of waste materials, such as recyclables, organic waste, and contaminants.
2. High Precision: The systems are designed to accurately sort materials based on size, weight, and material composition, improving recycling rates and reducing contamination.
3. Real-Time Data: Many systems include monitoring and reporting features that provide insights into waste composition and sorting efficiency, aiding in operation optimization.
4. Scalability: Wasteomatic systems can be scaled to accommodate different capacities, making them suitable for both small facilities and large waste processing plants.
For detailed specifications and capabilities, please consult our sales team directly or refer to our technical documentation.
3D Visualization of the Sorting Process
1,000 Ton-Per-Day MSW Sorting Facility
Our 1,000 ton-per-day municipal solid waste (MSW) sorting facility is a large-scale operation designed to process and recycle significant quantities of waste. These facilities typically incorporate advanced technologies and equipment to efficiently separate various materials, such as plastics, metals, organics, and recyclables, from the overall waste stream.
Key Features and Benefits:
• High Capacity: The ability to process 1,000 tons of MSW per day significantly reduces the amount of waste sent to landfills.
• Efficient Sorting: Advanced technologies, such as optical sorters and magnetic separators, enable precise material separation.
• Resource Recovery: Valuable materials, like metals and plastics, can be recovered for recycling, reducing the demand for raw materials.
• Environmental Benefits: By diverting waste from landfills, these facilities help to conserve natural resources and reduce greenhouse gas emissions.
• Economic Benefits: Recycling recovered materials can generate revenue, offsetting the costs of waste management.
Typical Components of a 1,000 Ton-Per-Day MSW Sorting Facility:
• Incoming Material Handling: Systems for receiving, storing, and feeding waste into the sorting process.
• Pre-Processing: Equipment for shredding, screening, and removing oversized or bulky items.
• Material Separation: Optical sorters, magnetic separators, and other technologies for separating different types of materials.
• Recycling: and Recovery: Equipment for baling, compacting, and storing recyclable materials.
• Composting: Facilities for processing organic waste into compost.
• Landfill Diversion: Systems for ensuring that non-recyclable or non-compostable materials are properly disposed of.
These facilities play a crucial role in sustainable waste management by maximizing resource recovery and reducing the environmental impact of waste disposal.
The environmental impact of a 1,000-ton-per-day
waste sorting and processing facility
Landfill Diversion : 750 ton per day
Annual Diversion: 273,750 tons per year
Resource Recovery: 300 tons per day
Annual Recovery: 109,500 ton per year
Energy from Waste: 500,000 kWh per day
SUMMARY
Waste Processed Daily: 1,000 tons
Waste Diverted from Landfill: 750 tons
Recyclables Recovered: 300 tons
Energy Generated: 500,000 kWh/day
Daily Truck Trips: 100 trips
Potential Hazardous Waste: 10 tons
Annual CO₂ Removal: 136,875 tons
OUR MOTTO:
SORT. SHRED. INCINERATE. RECYCLE.
WasteSet offers cutting-edge technology and automation solutions for every stage of waste management, including:
1. Sorting: Sorting is the initial step in WasteSet's waste management, where different types of waste materials are separated based on their characteristics, such as type (organic, recyclable, hazardous), size, or composition. This process is crucial for maximizing recycling efforts, reducing contamination, and ensuring that materials are processed appropriately. Effective sorting allows for better recovery of valuable materials and minimizes the amount of waste sent to landfills.
2. Shredding: Shredding involves mechanically breaking down larger waste materials into smaller, manageable pieces. This process is essential for reducing the volume of waste and preparing it for further processing, whether recycling or incineration. Shredded materials can be more easily handled, transported, and processed, and can also enhance the efficiency of incineration by allowing for more uniform combustion.
3. Incineration: Incineration is the controlled process of burning waste at high temperatures to reduce its volume and generate energy. This method converts organic materials into ash, gases, and heat. While incineration helps minimize landfill use and can produce energy (in the case of waste-to-energy plants), it also requires effective emissions control to minimize air pollution. Properly managed incineration plays a role in integrated waste management systems by providing a way to deal with waste that cannot be recycled or reused.
Together, these processes provide a comprehensive approach to waste management, aiming to minimize environmental impact while maximizing resource recovery.
4. Recycling: The final step involves those sorted and processed materials being reprocessed into new products or materials. Recycling helps conserve natural resources, reduce pollution, and minimize the amount of waste sent to landfills. It promotes a circular economy by turning waste products back into usable materials, thereby supporting sustainability efforts.