Development of biopolymers composite processing technology (PLA, PHA) and production of multi-layer packaging with controllable biodecomposition time (Q2686587): Difference between revisions
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(Changed label, description and/or aliases in en, pl, and other parts: Moving texts from en to pl) |
(Changed label, description and/or aliases in en, and other parts: Adding English translations) |
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Development of biopolymers composite processing technology (PLA, PHA) and production of multi-layer packaging with controllable biodecomposition time | |||||||||||||||
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SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014). The research project aims to develop technologies for the production of ecological and biodegradable packaging in a multilayer system using plant components. PLA packaging components will be complemented by PHA produced by microorganisms and flexible biodegradable polymers, fillers, hydrolytic stablilisers and chain extensions. The content of the PHA composition will increase impact strength, and control of the amounts of composites will allow you to reduce the biological distribution time of the packaging after consumption from a few to a dozen weeks. Reactive extrusion technology will be applied. The desired chemical transformation of component polymers will occur during the processing process and not only at the stage of the primary formation of the constituent polymers of the packaging material. New packaging will be more durable and resistant to mechanical crushing and damage than biodegradable packaging on the market. Innovative reactive extrusion technology will strengthen the hydrolytic resistance and mechanical strength of packaging and will enable the production of packaging with uniform distribution of the material throughout the packaging mass. The development and implementation of biopolymers processing technologies and the production of packaging controlled according to the needs, after which they will be fully biologically decomposed after consumption, is part of the idea of creating a group of “smart packaging” and the European Strategy for Plastics in the Circular Economy 2018. The newly developed multi-layer technology will allow the use of light fillers in the middle layers, which will reduce the weight of packaging and the tonnage of packaging substances entering the consumer markets. (English) | |||||||||||||||
| Property / summary: SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014). The research project aims to develop technologies for the production of ecological and biodegradable packaging in a multilayer system using plant components. PLA packaging components will be complemented by PHA produced by microorganisms and flexible biodegradable polymers, fillers, hydrolytic stablilisers and chain extensions. The content of the PHA composition will increase impact strength, and control of the amounts of composites will allow you to reduce the biological distribution time of the packaging after consumption from a few to a dozen weeks. Reactive extrusion technology will be applied. The desired chemical transformation of component polymers will occur during the processing process and not only at the stage of the primary formation of the constituent polymers of the packaging material. New packaging will be more durable and resistant to mechanical crushing and damage than biodegradable packaging on the market. Innovative reactive extrusion technology will strengthen the hydrolytic resistance and mechanical strength of packaging and will enable the production of packaging with uniform distribution of the material throughout the packaging mass. The development and implementation of biopolymers processing technologies and the production of packaging controlled according to the needs, after which they will be fully biologically decomposed after consumption, is part of the idea of creating a group of “smart packaging” and the European Strategy for Plastics in the Circular Economy 2018. The newly developed multi-layer technology will allow the use of light fillers in the middle layers, which will reduce the weight of packaging and the tonnage of packaging substances entering the consumer markets. (English) / rank | |||||||||||||||
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| Property / summary: SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014). The research project aims to develop technologies for the production of ecological and biodegradable packaging in a multilayer system using plant components. PLA packaging components will be complemented by PHA produced by microorganisms and flexible biodegradable polymers, fillers, hydrolytic stablilisers and chain extensions. The content of the PHA composition will increase impact strength, and control of the amounts of composites will allow you to reduce the biological distribution time of the packaging after consumption from a few to a dozen weeks. Reactive extrusion technology will be applied. The desired chemical transformation of component polymers will occur during the processing process and not only at the stage of the primary formation of the constituent polymers of the packaging material. New packaging will be more durable and resistant to mechanical crushing and damage than biodegradable packaging on the market. Innovative reactive extrusion technology will strengthen the hydrolytic resistance and mechanical strength of packaging and will enable the production of packaging with uniform distribution of the material throughout the packaging mass. The development and implementation of biopolymers processing technologies and the production of packaging controlled according to the needs, after which they will be fully biologically decomposed after consumption, is part of the idea of creating a group of “smart packaging” and the European Strategy for Plastics in the Circular Economy 2018. The newly developed multi-layer technology will allow the use of light fillers in the middle layers, which will reduce the weight of packaging and the tonnage of packaging substances entering the consumer markets. (English) / qualifier | |||||||||||||||
point in time: 3 December 2021
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Revision as of 11:14, 3 December 2021
Project Q2686587 in Poland
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of biopolymers composite processing technology (PLA, PHA) and production of multi-layer packaging with controllable biodecomposition time |
Project Q2686587 in Poland |
Statements
5,974,376.88 zloty
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14,184,418.75 zloty
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42.12 percent
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1 December 2019
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31 May 2023
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GRUPA INCO SPÓŁKA AKCYJNA
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51°59'3.8"N, 21°12'50.4"E
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SA.41471(2015/X) Przeznaczenie_pomocy_publicznej: art. 25 rozporządzenia KE nr 651/2014 z dnia 17 czerwca 2014 r. uznające niektóre rodzaje pomocy za zgodne z rynkiem wewnętrznym w stosowaniu art. 107 i 108 Traktatu (Dz. Urz. UE L 187/1 z 26.06.2014). Projekt badawczy ma na celu opracowanie technologii wytwarzania ekologicznych i biodegradowalnych opakowań w systemie wielowarstwowym z wykorzystaniem komponentów roślinnych. Komponenty opakowań z PLA będą uzupełnione PHA wytwarzanym przez mikroorganizmy i elastycznymi polimerami biodegradowalnymi, napełniaczami, stablilizatorami hydrolitycznymi oraz przedłużaczami łańcucha. Zawartość w kompozycie PHA zwiększy udarność, a sterowanie ilościami kompozytów umożliwi skrócenie czasu biologicznego rozkładu opakowania po zużyciu od kilku do kilkunastu tygodni. Zastosowana zostanie technologia wytłaczania reaktywnego. Pożądane przemiany chemiczne polimerów składowych zachodzić będą w trakcie procesu przetwarzania, a nie tylko na etapie pierwotnego powstawania polimerów składowych tworzywa opakowaniowego. Nowe opakowania będą trwalsze i odporniejsze na mechaniczne zgniatanie i uszkodzenia od obecnych na rynku opakowań biodegradowalnych. Innowacyjna technologia wytłaczania reaktywnego pozwoli wzmocnić odporność hydrolityczną i wytrzymałość mechaniczną opakowań oraz umożliwi produkcję opakowania o równomiernym rozłożeniu tworzywa w całej masie opakowania. Opracowanie i wdrożenie technologii przetwarzania biopolimerów i wytwarzania opakowań o sterowanych w zależności od potrzeb okresach, po których ulegną pełnemu biologicznemu rozkładowi po zużyciu wpisuje się w idei tworzenia grupy „inteligentnych opakowań” i Europejskiej Strategii na rzecz tworzyw sztucznych w gospodarce o obiegu zamkniętym 2018. Nowoopracowana technologia wielowarstwowa pozwoli na zastosowanie w środkowych warstwach lekkich wypełniaczy, dzięki czemu zmniejszy się waga opakowań i tonaż substancji opakowaniowych wprowadzanych na rynki konsumenckie. (Polish)
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SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014). The research project aims to develop technologies for the production of ecological and biodegradable packaging in a multilayer system using plant components. PLA packaging components will be complemented by PHA produced by microorganisms and flexible biodegradable polymers, fillers, hydrolytic stablilisers and chain extensions. The content of the PHA composition will increase impact strength, and control of the amounts of composites will allow you to reduce the biological distribution time of the packaging after consumption from a few to a dozen weeks. Reactive extrusion technology will be applied. The desired chemical transformation of component polymers will occur during the processing process and not only at the stage of the primary formation of the constituent polymers of the packaging material. New packaging will be more durable and resistant to mechanical crushing and damage than biodegradable packaging on the market. Innovative reactive extrusion technology will strengthen the hydrolytic resistance and mechanical strength of packaging and will enable the production of packaging with uniform distribution of the material throughout the packaging mass. The development and implementation of biopolymers processing technologies and the production of packaging controlled according to the needs, after which they will be fully biologically decomposed after consumption, is part of the idea of creating a group of “smart packaging” and the European Strategy for Plastics in the Circular Economy 2018. The newly developed multi-layer technology will allow the use of light fillers in the middle layers, which will reduce the weight of packaging and the tonnage of packaging substances entering the consumer markets. (English)
3 December 2021
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Identifiers
POIR.01.01.01-00-0781/19
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