A pile of broken glass has its good side too! When it comes to recycling, glass is a grateful raw material. Not only that glass has been recycled for the longest time in the circular economy, the efficiency of glass recycling also makes other industries look jealous. Glass can be recycled 100%, can be melted down any number of times and, compared to the initial production, saves a lot of energy. According to DUH, energy consumption in glass production has decreased by around 77% over the past 50 years. This thanks to modern technologies and successful glass recycling. The focus here is on its use as food packaging, i.e. use as a bottle or jar.
Recycling of waste glass with a high recycling rate
The recycling of glass in Germany is the model student. If collected glass packaging such as bottles or canned jars are recycled, 60% of white glass and 90% of green glass can include recycled broken glass into the new product. The remainder are sand, soda, lime, dolomite and feldspar. According to the Bundesverband Glasindustrie e. V. in Germany there are around 300,000 glass containers and in 2018 the recycling rate was 83%. Thus 83% of glass packaging consisted of recycled glass. In order to really get the most out of the throws in glass containers, wind sifter technology from TRENNSO-TECHNIK is used successfully. The ZZS wind sifter has an important task in the processing technology of glass recycling. It ensures efficient organic depletion and thus helps to optimize the subsequent process steps and qualities.
ZZS wind sifter: Sorting impurities from glass is his passion
Glass or not glass, that's the question! In processing technology, a ZZS wind sifter is used as an organic separator to optimize the efficiency of glass recycling. Organic components such as foils, paper, dust, lightweight plastics or corks are sorted out by air separation. The dry separation process used by TRENNSO-TECHNIK means that pure air is used as working medium. Operated in recirculation mode, an air classifier unit is therefore an environmentally friendly system from a sustainable point of view, which consistently reflects the environmental concept of recycling.
In the air flow through the zigzag sifter
The material to be separated reaches the zigzag sifter via a rotary valve. Here it is distributed over the entire cross-section of the sifter channel and gets into the air flow. The classifying air generated by the blower flows through the zbox from bottom to top, flushing and separating the bulk material. At every bend in the classifier channel, the product has to cross the air flow and then hits the opposite wall of the sifter. The material with a higher density sinks downwards in the sifter channel as a result of gravity. Light goods are sucked out of the classifier duct in the upward airflow. The air speed of the blower is regulated by a frequency converter. Discharged air with the separated organic is cleaned by a cyclone separator.