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Material Recovery Facility

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Material recovery facilities receive recyclables collected from curbside pickups. Trucks dump the loads which are then sorted through a process involving breaking open bags, conveying materials to sorting lines where staff separate items into bins by material type. The sorted materials are baled and stored for shipment. MRFs use various mechanical and manual techniques like size reduction, air classification, screening, and magnetic separation to efficiently separate and prepare recyclables for end users.

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Material Recovery Facility - Solid waste management Presented by: Maaz Shaikh Basade Juned MHSSCOE

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Where do they go? • Many towns and municipalities offer recycling services that pick up materials like paper, plastic and cardboard from the curb. • Where do these materials go after pickup?

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Material Recovery Facility (MRF) • Once recyclables are picked up from the curb on trash day, they are generally transported to a material recovery facility.

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Recyclable Materials • Recyclable materials include plastic containers and bottles and fiber materials such as phonebooks and newspapers. • Plastic bags are more difficult to recycle and are not accepted at most MRFs because they create problems during processing. • The first step in recycling is proper separation and sorting of materials curbside, so the individual who recycles has an important responsibility

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At the MRF • At an MRF, trucks drop off load of recyclables in the receiving area. • The trash and non-recyclable items are removed from the recycling process and the clean recyclables are sorted. • Bags of materials are broken open, and a conveyor transports the recyclables to a sorting line. • There, MRF staff manually sort out the different types of materials into various holding bins. • The recyclables are then transported via an incline conveyor into a baler, which crushes the materials together and binds them with wire bands. • The bales are then stored in stacks for shipment.

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The Don’ts • Materials that are not recyclable must be separated from the waste stream because they can create problems in the recycling process. • Some examples of non-recyclable materials include aluminum foil, Styrofoam, food wraps, ceramic and clay pots, porcelain, light bulbs and fabrics.

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Defination: A materials recovery facility is a specialized plant that receives, separates and prepares recyclable materials for marketing to end-user manufacturers. There are three types of MRF:  Clean MRF  Dirty MRF  Wet MRF

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Material Recovery Facility

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Material Recovery Facility

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Material Recovery Facility

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Principle of Material Recovery Facility • Mixed solid waste are separated based on their source for recovery of materials. • The process depends on degree of source separation of waste. • The nature and design of each unit process accommodate the physical and chemical characteristics of the source material. • Resource recovery plays an important role in the economies of developing nations

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Ma Material Recovery Facility

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Process involved in MRF Techniques Manual methods Mechanical methods • Electromagnetic separation • Fluid dynamics • Pneumatics • Others Processes: • Size reduction • Air classification • Screening

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Manual Processing • Bulky items (appliances, furniture, etc.) and specified contaminants (e.g., hazardous waste) • Manual separation is applicable to the removal of contaminants from source-separated materials • Equipment involved in manual separation of materials usually includes a sorting belt or table, which contains a mixture of materials • Hoppers or other receptacles for receiving removed items are positioned within easy reach of the sorters.

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Manual Processing • Newspaper (700 to 4,500kg/hr/person) • Corrugated (700 to 4,500kg/hr/person) • Glass containers (mixed colour) (400 to 800kg/hr/person) • Glass containers (by colour) (200 to 400 kg/hr/person) • Plastic containers (PET, HDPE) (140 to 280 kg/hr/person) • Aluminum cans

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Mechanical Separation • Size reduction • Glass separation • Air classification • Non-ferrous separation • Screening • Densification • Magnetic separation • Conveyors

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Size reduction Technique • The term “size reduction” has a number of synonyms in solid waste management, including “shredding” and “grinding”. • Reduces bulky items to particles, the sizes of which are compatible with the processing equipment. • This uniformity is a requirement of some mechanical sorting systems

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Size reduction Technique • The hammer mill is a type of high-speed shredder frequently used for size reducing solid waste. • Low-speed, high-torque; flail mill-type shredders; and shear shredders are also used in some cases for size reducing solid waste. • On the basis of orientation of the rotor -- namely, horizontal and vertical.

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Horizontal Hammer mill

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Vertical Hammer mill structure

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Shear shredders Shear shredder is also used to size reduce mixed waste. This size reduction device is characterized by its high torque and low rpm. The unit consists of two horizontal, counter rotating shafts. Each shaft contains cutters to tear and shear the material. In shear shredders, shear and deformation are the primary mechanisms of particle size reduction. The cutters typically operate within a range of 20 to 70 rpm.

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AIR classification • Air classification is a process of separating categories of materials by way of differences in their respective aerodynamic characteristics. • The aerodynamic characteristic of a particular material is primarily a function of the size, geometry, and density of the particles. • The suspended fraction conventionally is referred to as the “air classified light fraction” and the settled fraction is termed “air-classified heavy fraction”. • The confined volume in which the separation takes place is called an “air classifier”.

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Horizontal air classifier Vibrating inclined air classifier Inclined air classifier Types of vertical air classifiers

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Screening • Screens are used for achieving efficient separation of particles through dependence on differences between particle sizes with respect to any two dimensions. • Screening process: Oversized feedstock, Undersized feedstock

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Types of Screening Trommel Screening: • The trommel has proven to be quite effective and efficient for processing mixed waste and other mixtures where large, flat particles (e.g., paper) and aggregate-type particles (e.g., crushed glass) must be separated.

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Types of Screening Disc screen: • Disc screens have been employed in many waste processing facilities. The predominant applications to date are effecting the separation of inorganic materials from refuse-derived fuel fractions, from paper materials, or from wood waste.

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Magnetic Separation • Magnetic separation is a process used to segregate magnetic (i.e., ferrous) metal from a mixture of different types of materials, e.g., mixed waste or commingled metal, glass, and plastic containers. The process is technically simple and of relatively low cost.

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Material Recovery Facility

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Aluminium and Glass Separation • The predominant non-ferrous metal represented in the waste stream is usually aluminium, and it is oftentimes a target for recovery. • In the case of aluminium, heavy media and eddy current separation are possibilities. • Eddy current separation is, at present, the more commercially feasible. • Separation is brought about by the ejection of aluminium particles from a moving waste stream due to the force exerted on the metallic particles as they pass through an electromagnetic flux generated by the equipment.

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Conclusion • By Material recovery facility the Waste management system functions efficiently. • MRF methods provides recycling of raw materials for Industrial uses.

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Material Recovery Facility

More Related Content

Material Recovery Facility

  • 1. Material Recovery Facility - Solid waste management Presented by: Maaz Shaikh Basade Juned MHSSCOE
  • 2. Where do they go? • Many towns and municipalities offer recycling services that pick up materials like paper, plastic and cardboard from the curb. • Where do these materials go after pickup?
  • 3. Material Recovery Facility (MRF) • Once recyclables are picked up from the curb on trash day, they are generally transported to a material recovery facility.
  • 4. Recyclable Materials • Recyclable materials include plastic containers and bottles and fiber materials such as phonebooks and newspapers. • Plastic bags are more difficult to recycle and are not accepted at most MRFs because they create problems during processing. • The first step in recycling is proper separation and sorting of materials curbside, so the individual who recycles has an important responsibility
  • 5. At the MRF • At an MRF, trucks drop off load of recyclables in the receiving area. • The trash and non-recyclable items are removed from the recycling process and the clean recyclables are sorted. • Bags of materials are broken open, and a conveyor transports the recyclables to a sorting line. • There, MRF staff manually sort out the different types of materials into various holding bins. • The recyclables are then transported via an incline conveyor into a baler, which crushes the materials together and binds them with wire bands. • The bales are then stored in stacks for shipment.
  • 6. The Don’ts • Materials that are not recyclable must be separated from the waste stream because they can create problems in the recycling process. • Some examples of non-recyclable materials include aluminum foil, Styrofoam, food wraps, ceramic and clay pots, porcelain, light bulbs and fabrics.
  • 7. Defination: A materials recovery facility is a specialized plant that receives, separates and prepares recyclable materials for marketing to end-user manufacturers. There are three types of MRF:  Clean MRF  Dirty MRF  Wet MRF
  • 11. Principle of Material Recovery Facility • Mixed solid waste are separated based on their source for recovery of materials. • The process depends on degree of source separation of waste. • The nature and design of each unit process accommodate the physical and chemical characteristics of the source material. • Resource recovery plays an important role in the economies of developing nations
  • 13. Process involved in MRF Techniques Manual methods Mechanical methods • Electromagnetic separation • Fluid dynamics • Pneumatics • Others Processes: • Size reduction • Air classification • Screening
  • 14. Manual Processing • Bulky items (appliances, furniture, etc.) and specified contaminants (e.g., hazardous waste) • Manual separation is applicable to the removal of contaminants from source-separated materials • Equipment involved in manual separation of materials usually includes a sorting belt or table, which contains a mixture of materials • Hoppers or other receptacles for receiving removed items are positioned within easy reach of the sorters.
  • 15. Manual Processing • Newspaper (700 to 4,500kg/hr/person) • Corrugated (700 to 4,500kg/hr/person) • Glass containers (mixed colour) (400 to 800kg/hr/person) • Glass containers (by colour) (200 to 400 kg/hr/person) • Plastic containers (PET, HDPE) (140 to 280 kg/hr/person) • Aluminum cans
  • 16. Mechanical Separation • Size reduction • Glass separation • Air classification • Non-ferrous separation • Screening • Densification • Magnetic separation • Conveyors
  • 17. Size reduction Technique • The term “size reduction” has a number of synonyms in solid waste management, including “shredding” and “grinding”. • Reduces bulky items to particles, the sizes of which are compatible with the processing equipment. • This uniformity is a requirement of some mechanical sorting systems
  • 18. Size reduction Technique • The hammer mill is a type of high-speed shredder frequently used for size reducing solid waste. • Low-speed, high-torque; flail mill-type shredders; and shear shredders are also used in some cases for size reducing solid waste. • On the basis of orientation of the rotor -- namely, horizontal and vertical.
  • 20. Vertical Hammer mill structure
  • 21. Shear shredders Shear shredder is also used to size reduce mixed waste. This size reduction device is characterized by its high torque and low rpm. The unit consists of two horizontal, counter rotating shafts. Each shaft contains cutters to tear and shear the material. In shear shredders, shear and deformation are the primary mechanisms of particle size reduction. The cutters typically operate within a range of 20 to 70 rpm.
  • 22. AIR classification • Air classification is a process of separating categories of materials by way of differences in their respective aerodynamic characteristics. • The aerodynamic characteristic of a particular material is primarily a function of the size, geometry, and density of the particles. • The suspended fraction conventionally is referred to as the “air classified light fraction” and the settled fraction is termed “air-classified heavy fraction”. • The confined volume in which the separation takes place is called an “air classifier”.
  • 23. Horizontal air classifier Vibrating inclined air classifier Inclined air classifier Types of vertical air classifiers
  • 24. Screening • Screens are used for achieving efficient separation of particles through dependence on differences between particle sizes with respect to any two dimensions. • Screening process: Oversized feedstock, Undersized feedstock
  • 25. Types of Screening Trommel Screening: • The trommel has proven to be quite effective and efficient for processing mixed waste and other mixtures where large, flat particles (e.g., paper) and aggregate-type particles (e.g., crushed glass) must be separated.
  • 26. Types of Screening Disc screen: • Disc screens have been employed in many waste processing facilities. The predominant applications to date are effecting the separation of inorganic materials from refuse-derived fuel fractions, from paper materials, or from wood waste.
  • 27. Magnetic Separation • Magnetic separation is a process used to segregate magnetic (i.e., ferrous) metal from a mixture of different types of materials, e.g., mixed waste or commingled metal, glass, and plastic containers. The process is technically simple and of relatively low cost.
  • 29. Aluminium and Glass Separation • The predominant non-ferrous metal represented in the waste stream is usually aluminium, and it is oftentimes a target for recovery. • In the case of aluminium, heavy media and eddy current separation are possibilities. • Eddy current separation is, at present, the more commercially feasible. • Separation is brought about by the ejection of aluminium particles from a moving waste stream due to the force exerted on the metallic particles as they pass through an electromagnetic flux generated by the equipment.
  • 30. Conclusion • By Material recovery facility the Waste management system functions efficiently. • MRF methods provides recycling of raw materials for Industrial uses.