NGR: Difference between revisions
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{{ Category Icons | Recycling }} | |||
{{Infobox company | {{Infobox company | ||
| name = NGR Next Generation Recyclingmaschinen GmbH | | name = NGR Next Generation Recyclingmaschinen GmbH | ||
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| divisions = | | divisions = | ||
| subsid = | | subsid = | ||
| website = [http://www.ngr.at www.ngr. | | website = [http://www.ngr.at/ www.ngr.at] | ||
}} | }} | ||
=== Company Profile === | |||
'''NGR''' has been building plastics recycling machines in Austria for more than twenty years. These machines turn plastics waste into high-quality pellets in more than 70 countries worldwide. The company is continuously developing and improving plastics processing and machine components. | |||
NGR has been building plastics recycling machines in Austria for more than twenty years. These machines turn plastics waste into high-quality pellets in more than 70 countries worldwide. The company is continuously developing and improving plastics processing and machine components. | |||
The Next Generation Group consists of NGR, Britas and Collin, and with 225 employees, the Group has an annual sales of EUR 55 million. Next Generation Recyclingmaschinen GmbH provides recycling solutions for industrial plastics processors with the aim of implementing zero-scrap production. The main driver here is clearly the desire to reduce costs in plastics recycling. With machine models for preparing end-of-life plastics, we round out the plastics cycle. | The Next Generation Group consists of NGR, Britas and Collin, and with 225 employees, the Group has an annual sales of EUR 55 million. Next Generation Recyclingmaschinen GmbH provides recycling solutions for industrial plastics processors with the aim of implementing zero-scrap production. The main driver here is clearly the desire to reduce costs in plastics recycling. With machine models for preparing end-of-life plastics, we round out the plastics cycle. | ||
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=== Products / Technology === | === Products / Technology === | ||
NGR PET improvement systems | NGR PET improvement systems | ||
==== Liquid State Polycondensation ==== | ==== Liquid State Polycondensation ==== | ||
The P:REACT follows the design principles of LSP (Liquid State Polycondensation) and considerably improves the properties of PET. This system has received the FDA-Letter of Non-Objection for food-contact applications in 2013 and is suitable for bottle flakes, fibers, wovens, non-wovens, sheets, thermoform-skeletons, preforms, start-up lumps and trays. The market introduction of P:REACT was world premiere at the NPE2015. | |||
The LSP-Process utilizes the inherent capability of PET to post condensate in the molten phase under vacuum. This post condensation leads to an increase of IV. The high performance vacuum effectively decontaminates the material from harmful chemicals - securing further use of the material for 100% food contact. As molten PET enters the vertical part of P:REACT, strands are formed to create a suitable surface to volume ratio. The material is then collected in a horizontal drum and slowly pushed forward. Post condensation starts immediately as the strands are formed and is set forth until PET exits P:REACT. IV increase is controlled by the residue time of the molten PET inside P:REACT and therefore can be adjusted to a desired level. The settings of parameters allow the control unit to maintain the desired IV-level within a small tolerance-band. | The LSP-Process utilizes the inherent capability of PET to post condensate in the molten phase under vacuum. This post condensation leads to an increase of IV. The high performance vacuum effectively decontaminates the material from harmful chemicals - securing further use of the material for 100% food contact. As molten PET enters the vertical part of P:REACT, strands are formed to create a suitable surface to volume ratio. The material is then collected in a horizontal drum and slowly pushed forward. Post condensation starts immediately as the strands are formed and is set forth until PET exits P:REACT. IV increase is controlled by the residue time of the molten PET inside P:REACT and therefore can be adjusted to a desired level. The settings of parameters allow the control unit to maintain the desired IV-level within a small tolerance-band. | ||
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======================Ende der Anleitung================================= | ======================Ende der Anleitung================================= | ||
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{{PP Articles | {{PP Articles | ||
|2024|12|28|High-quality rPET granules from mixed streams| | |||
|2024|11|10|Josef Hochreiter takes over operational management of NGR GmbH| | |||
|2024|07|39|Cutter-compactor-extruder combination| | |||
|2023|12|38|Liquid state polycondensation bottle-to-bottle recycling plant in Japan| | |||
|2023|09|6|Next Generation Group invests in Hydrodyn, expanding its presence in the plastic recycling market| | |||
|2023|01|47|PET recycling system| | |||
|2022|09|7|Gerhard Ohler new CEO of Next Generation Recyclingmaschinen GmbH (NGR)| | |||
|2021|03|21|Improving PET bottle-to-bottle recycling| | |||
|2020|11|14|Rapid IV build-up| | |||
|2017|07|6|NGR strenghtens its sales organisation in China and South Asia| | |||
|2016|10|69|Recycling solutions| | |||
|2015|09|10|Rethinking the next generation of PET recycling| | |2015|09|10|Rethinking the next generation of PET recycling| | ||
|2014|03|44|LSP PET recycling process| | |||
|2013|09|13|NGR on the up| | |||
|url1=http://www.ngr.at|urlname1=NGR Website | |url1=http://www.ngr.at|urlname1=NGR Website | ||
}} | }} | ||
{{Companies}} | |||