24-25 Aug 2022
ICC SYDNEY

Advanced Separation Equipment Increases Ferrous and Nonferrous Recovery Rates for MSW/MRF Facilities

The sustained high value of recycled commodities has spurred mixed waste material recovery facilities (MRFs) to install the latest technologies to recover valuable ferrous and nonferrous metals.

Choosing between mechanical or manual sorting techniques is the primary decision to be made in the design and operation of a mixed waste material recovery facility. More traditional MRFs rely heavily on manual sorting, a practice which is both expensive and inefficient when handling large volumes of material.
Despite the trade-offs between labor and capital costs, most analyses show that automated processing is far more economical than manual sorting in the long term. Furthermore, automating the sorting process also reduces health and safety risks associated with workers physically handling materials.

The tremendous advantages gained from decreased personnel hazards and increased production efficiency have led many MRFs to employ a total metal recovery system to sort and recover metals. MRF operators are now utilizing innovative solutions to facilitate separation of valuable metals from the mixed waste stream. Considering the current surge in the price of metals, the pursuit of maximizing metal recovery has become a higher priority than ever for most operations.

The product development teams at leading manufacturers such as Eriez® have been a driving force in the development and ongoing improvements of many recycling technologies geared toward maximizing metal recovery. This state-of-the-art equipment is significantly boosting profits for MRFs around the country. Equipment breakthroughs now enable maximum recovery–in a smaller footprint–while providing the utmost efficiency and safety.

Technology Turns into Payback

By using the most up-to-date magnetic separation equipment, single stream MRFs are recovering nearly 98 percent of the metals passing through their facilities while greatly reducing their overall landfill costs. Technological advancements applied to separation equipment allow recyclers to recover valuable ferrous and nonferrous metals less than 1-inch (2.54 cm) in size from the material stream. These results lead not only to a reduction in the amount of waste slated for the landfill, but also enable reclamation of thousands of pounds of saleable metal each day.

Eriez works closely with MRF systems providers (OEMs) when recommending metal separation equipment. Technicians consider expected capacities, material composition ratios, material size and other variables which factor into proper equipment selection. Depending on the application, suspended magnets, drum magnets and magnetic pulleys are used to recover ferrous metals. Eddy current separators (ECS) are used to recover aluminum cans (UBCs) and other nonferrous metals.

Separation Equipment Works in Tandem for Total Recovery

A typical MRF operation utilizes a drum feeder to feed material into the system, followed by a series of disc screeners to separate newspaper, cardboard and other papers from three-dimensional objects. The separation continues with an Eriez suspended self-cleaning magnet recovering ferrous material, like tin-plated steel cans. The magnet is suspended either cross-belt (perpendicular to the product flow) or inline (parallel) above the product flow.

Self-cleaning magnet systems, such as those offered by Eriez, typically feature a rubber conveyor belt, bearings, rugged channel frame, adjustable take-ups and shaft-mounted reducer with V-belt coupling to an enclosed fan-cooled (TEFC) motor.

Heavy-duty magnetic drum separators are also a popular choice for high volume ferrous recovery. These ultra-strong magnetic drums feature a heavy-duty manganese shell that is driven around a fixed magnetic element. Ferrous metals are drawn out of the waste stream by the powerful magnetic element and held against the revolving shell. The ferrous metal is released when it reaches a discharge point beyond the magnetic field.

Permanent deep field magnetic drums can be found in many MRF operations. Certain Eriez models contain rare earth permanent magnets to project a deep magnetic field capable of recovering ferrous from distances of up to 16 inches. The drum shell that contacts the ferrous material, made up of 3/8” thick manganese steel, is abrasion resistant to extend service life.

Smaller-sized metal can be recovered downstream with a magnetic pulley, sometimes called a permanent magnet axial interpole pulley (AIP). These pulleys transform a belt conveyor into a powerful self-cleaning magnetic separator.

Ferrous material traveling down the belt conveyor enters the pulley’s magnetic field as it reaches the end of the conveyor. The tramp iron is attracted and held to the belt until it reaches the underside, passes out of the magnetic field and separately discharged. Non-magnetic material is discharged over the pulley at its normal trajectory.

Multiple combinations of pulley diameters from 8 to 36 inches and widths from 8 to 60 inches are offered by Eriez. MRFs typically use these magnetic pulleys as a secondary ferrous recovery tool when smaller, hard-to-separate ferrous materials are present.

Nonferrous Recovery Continues with Eddy Current Separators

The remaining material stream passes over eddy current separators that further separate the nonferrous materials, especially aluminum cans (UBCs). As the material stream passes over the rotor, the alternating magnetic field creates eddy currents that repel nonferrous metals away from the conveyor and over an adjustable splitter.

Eriez’ most recent addition to its line of eddy current separators features an eccentric magnetic rotor for separation of nonferrous metals at MRFs. The unit, the RevX-E® MK3 Eddy Current Separator, is designed with an eccentrically mounted magnetic rotor within the nonconductive shell. This eccentric rotor concentrates its eddy current forces into a separation zone at the end of the belt. By focusing its field, this design protects the equipment from ferrous material in the flow. This rotor design greatly reduces long-term wear caused by ferrous build-up which is common to concentric rotor assemblies.

For coarse materials greater than 1 inch, the Eriez Model LT2 Rotor provides excellent separation with a deep field rotor designed for maximum trajectory. For nonferrous fines measuring less than 1 inch, Eriez Model ST22 Rotor with its high-frequency rotor configuration concentrates the eddy currents closer to the belt surface, improving separation of this difficult material.

Eriez also offers a complete line of vibratory feeders for meter-feeding eddy current separators and sensor machines. Eriez’ heavy duty line of brute force feeders provides a cost-effective means to feed or screen large volumes of solid waste material where limited minimum feed rate adjustability is required. These mechanical feeders are simple and dependable. Multiple sizes are available and Eriez can customize trays to satisfy customers’ specific requirements. Eriez’ Brute Force Feeders are an ideal choice for metering and spreading materials across the working width of separation equipment.

To learn more about Eriez waste and resource recovery equipment, you can visit them at Stand D15 at AWRE in Sydney from 24-25 August. Find out more contact information at their exhibitor listing here, email sales.au@eriez.com or visit www.eriez.com.au.

Register online for free entry to AWRE today!

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