TOMRA Sorting Recycling introduces AUTOSORT COLOR, a new machine that works in combination with AUTOSORT LASER to separate glass from municipal solid waste (MSW).
Even though it is common to collect glass waste separately, a significant amount of recoverable glass remains mixed in with MSW from households and businesses. AUTOSORT COLOR achieves purity rates greater than 95 percent at high throughput rates, even when input materials are wet, dusty or dirty, according to the company.
AUTOSORT COLOR enables sorting operations to extract and sell glass that would otherwise fail to make it through to the recycling process. AUTOSORT COLOR also helps sorting businesses minimize the risks of disruption, downtime and repair costs arising from damage to components in sorting machines not intended for glass.
“We started with AUTOSORT LASER for glass cleaning from the single stream plants. Now, many municipalities and recovery facilities can significantly improve the recovery of glass from household and business waste,” said Carlos Manchado Atienza, TOMRA Sorting Recycling regional director Americas, in a statement. “Separating more glass from the waste stream is better for the environment and better for sorting businesses’ profitability, and with AUTOSORT COLOR, both of those benefits are now achievable.”
During AUTOSORT COLOR development, TOMRA established industry standard-setting goals of recovering a minimum of 80 percent of glass from MSW with more than 95 percent of the recovered glass of saleable quality. These targets were met over many months at four test facilities, including one that separates up to 3,300 tons of glass annually. These high recovery rates were made possible by a two-machine sorting process, first using AUTOSORT LASER and then AUTOSORT COLOR.
The first step in the process of removing glass from MSW is pre-treatment. After the MSW passes through a bag opener or shredders, conventionally the fine fraction is screened out. This fraction is then split into three categories by a double-deck vibrating screen: fine fractions of 0-0.25 inches in diameter, such as organic waste and sand; a middle fraction of 0.25-2.5 inches; and an oversize fraction of 2.5-3 inches.
In the second step, the middle fractions, which contain the highest glass content, are subjected to density separation. This removes the lighter fractions and sends the heavier fractions to the AUTOSORT LASER unit. Here, a combination of laser and near-infrared detection technologies enables the separation of glass from the rest of the materials.
In the third and final step of the process, the AUTOSORT COLOR machine classifies the glass fractions with a high-performance camera and separates any remaining impurities from the higher-quality glass. The result is the recovery of saleable glass with a consistently high purity of more than 95 percent, the company said.