Successful recycling with VEGA sensors

Claudia Homburg

Pyrum Innovations AG in Saarland is a model company when it comes to recycling, environmental protection and green innovation. By means of a special pyrolysis technology, used tyres from cars, trucks and bicycles are processed to produce oil, gas and recovered carbon black (rCB) as new recyclable materials. Pyrum relies on level and pressure sensors from VEGA to ensure safe and reliable processes in its state-of-the-art industrial plant.

. Around 7,500 tonnes of used tyres are turned into 5,000 tonnes of rubber granulate – this is the amount that each of the two reactors converts each year.

Where does pyrolysis take place?

The pyrolysis process takes place in a 25-metre-high reactor tower. There, the granulated waste goes through a variety of process steps spanning a total of five levels. It’s important that the correct dosages are adhered to and that pressures and temperatures are constantly monitored and controlled. This prevents viscous lumps of material from forming and contaminating or, in the worst case scenario, clogging the pipes.

What is required of the process technology?

The company uses the very latest process technology in the reactor tower. It ensures intelligent communication between the components involved – and thus process stability. Many VEGA level and pressure sensors play a key role in the process. Because “if the operation is not monitored 100 percent reliably, even the best processes won’t help us,” says Christian Maas, chief ICA engineer at Pyrum. Besides being extremely reliable, VEGA measurement technology scores points for its simplicity. “Plug in the sensor, then parameterise it via the control system, and you’re done”VEGA instruments meet this requirement with no problem.

How important are sensors for Industry 4.0?

The Pyrum plant is setting new standards in digitalisation. And the measurement technology deployed is living up to these new standards as well. The ICA team has already set its sights on the next level of efficiency: These digital models that deliver better process data insights could eventually replace previously necessary measuring points. “The basic building blocks for this are reliable sensor technology as well as suitable communication and digitalisation concepts.” explains Christian Maas.

Where exactly is the VEGA measurement technology used?

VEGA sensors monitor the pressures and filling levels throughout the entire process.

The measuring instruments are positioned along the entire recycling process, ensuring efficient workflows within the various operational steps. They can also be found in the reactor, at the heart of the whole processing facility, which Pyrum holds several international patents on. There, VEGA measuring instruments monitor and diagnose the reactions and make sure that they are taking place within the prescribed limit levels and pressure ranges.

Example: The pressure transmitter VEGABAR 83, which monitors the gas pressure inside the reactor. The condensation stages and pressures within the condensate cycles must also be precisely controlled. If deviations occur, proper separation of the valuable oil is no longer guaranteed, which can lead to contamination of the product. “The measurement technology must deliver reliable results even under difficult process conditions,” emphasises Maas.

Another advantage of VEGA measuring instruments: Multiple process data can be called up simultaneously. For example, VEGA level sensors continuously measure the level and at the same time detect the interface of a separation layer, if one exists. This capability is important in almost every vessel at Pyrum. “We can use it to monitor phase separation in the tanks and plan our maintenance operations better,” explains the senior ICA engineer. The data basis for this is provided by sensors already in use, via a second data channel. The Profibus PA communication standard is fully exploited for this, as all three outputs are in use.

What are the main challenges in coke production?

VEGABAR 83 pressure transmitters are in use.

Pyrolysis coke is a much sought-after raw material. Before it can be further processed, it has to be cooled down from 550 °C to ambient temperature in a controlled manner. It is then fed into the coke mill, where it is ground ultra-fine and pelletised into recovered carbon black. Multiple VEGA measuring instruments monitor the various process steps:

  • VEGABAR 83 pressure transmitters and the VEGAFLEX 86 radar sensors continuously measure pressures and levels to ensure that the cooling systems are operating at optimum capacity. The sensors are designed for high temperatures and use in harsh environments. .
  • The VEGASWING 61 vibrating level switches reliably monitor point levels, which are often in safety-related applications in explosive atmospheres. 

And what are the valuable recovered materials used for?

The raw materials produced are in great demand from major chemical and tyre industries, as well as many others.. They make a significant contribution to sustainability: According to Pyrum, the carbon footprint of new tyres can be reduced by 80 percent by using recovered carbon black. And with its particle size of less than 10 µm diameter, recovered carbon black also serves as a base material for paints and varnishes, for example. VEGA measurement technology is contributing to innovative recycling methods and a more sustainable economy.

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