RWM – Resource & Waste Management Expo
Accelerating the Circular
Economy – STEINERT's
Proven Technologies drive
higher recycling rates
The upgrade to 11 t/h throughput makes the STEINERT PLASMAX | LIBS an absolute
benchmark for sorting aluminium alloys. Photo: STEINERT
With increasing pressure on the UK's recycling
industry to achieve higher recovery rates and
meet sustainability targets, STEINERT's proven
technologies offer practical solutions that
enhance operational efficiency.
MSort technology: Effective throughput for
plastics, metals, and glass recycling
Since July 2024, STEINERT has expanded its product line with
the MSort technology, providing efficient sorting capacities for
essential material streams. The MSort systems reliably deliver
improved throughput rates for plastics and metals and
efficiently sort glass—addressing multiple key recycling
priorities simultaneously.
Global success and new performance milestone
for the STEINERT PLASMAX | LIBS
Introduced at RWM 2024, the STEINERT PLASMAX | LIBS has
quickly become widely adopted and further advanced
technically. Now featuring a working width of one metre, it
achieves throughput rates of up to 11 tonnes per hour—
setting new standards in high-purity aluminium scrap sorting.
The system separates aluminium scrap efficiently into three
distinct quality categories in one processing step. Its multi-spot
laser analysis ensures consistent accuracy and reliable sorting
performance.
Enhanced ferrous processing with STEINERT
UMP Multipol
The STEINERT UMP Multipol improves ferrous concentrate
quality by effectively removing non-magnetic contaminants
through alternating magnetic poles, resulting in purer non-
ferrous fractions and reduced copper losses during WEEE
processing. Already successfully established, this system
continues to drive higher recycling rates.
Advanced AI sorting with UniSort PR:
Facilitating food-grade recycling
The UniSort PR addresses challenging sorting tasks such as
separating food-grade PET containers (e.g., trays) from non-
food PET bottles to produce high-quality recyclate suitable for
food-contact applications. Using the Intelligent
Object.Identifier (IOI), this AI-driven solution leverages
sophisticated pattern recognition to identify complex materials
beyond traditional NIR technology.
We build the World’s
Toughest Recycling Plant
In today’s demanding waste and recycling
sector, operators face stricter regulations,
tighter purity targets, and the need for
continuous uptime. That’s why more companies
around the world choose Kiverco. We design
and build the world’s toughest recycling plants,
delivering more uptime, higher sustained purity,
and longer useful life.
For over 30 years, we’ve engineered recycling plants that
outlast and outperform the competition, providing some of
the most sustainable and cost-effective solutions on the
market. Built to withstand the toughest environments, our
systems ensure consistent, high-quality output.
At Kiverco, we
know that in
recycling, purity
means profit. Our
systems are built
to separate
materials with
precision, helping
our customers
recover more
value from every
tonne of waste
processed. By
working with
industry-leading
technology
partners, we
incorporate the
latest
Experience these proven technologies at
ESS Expo: RWM Stand ME-B254 and
CARS Stand CAR-D324
innovations in sorting and recovery.
Modular design allows for easy expansion and adaptation to
evolving market needs, whether that means boosting capacity
or integrating new technologies. Less downtime means lower
maintenance costs and a better return on investment.
Every Kiverco plant is designed to meet your specific needs.
From consultation and design through to installation and
aftercare (Kivercare), we provide a bespoke solution backed
by expert support. As environmental targets become more
ambitious, we continue to lead through innovation.
We’ll be exhibiting at the RWM Show in
Birmingham, stand ME-D200. Stop by and
discover why we build the world’s toughest
recycling plant.
www.hub-4.com July/Aug - Issue 93
| p21 |