Presentation is loading. Please wait.

Presentation is loading. Please wait.

Codex-UK ´Gebrauchsgegenstände´ 3. Juni 2008 / BMGFJ Renewable vs. Biodegradable New materials for packaging technology Michael Pitzl ofi – Department.

Published byAmice Austin Modified over 9 years ago

Similar presentations

Presentation on theme: "Codex-UK ´Gebrauchsgegenstände´ 3. Juni 2008 / BMGFJ Renewable vs. Biodegradable New materials for packaging technology Michael Pitzl ofi – Department."— Presentation transcript:

1 Codex-UK ´Gebrauchsgegenstände´ 3. Juni 2008 / BMGFJ Renewable vs. Biodegradable New materials for packaging technology Michael Pitzl ofi – Department Packaging Titelformat bearbeiten Austrian Research Institute for Chemistry and Technology - ofi www.ofi.at CROPACK 2010

2 www.ofi.at 2 An inconvient truth? Source: www.youtube.com 2010-02-18

3 www.ofi.at 3 Solution – Bioplastics?  Recent headlines: Coca-Cola Co announced the selective global roll-out of its new PET bottle made from up to 30 per cent plant materials such as sugar and molasses. Bioserie iPhone ® Case is really green!  Advertising slogan: Packaging without the guilt? Bioplastics Source: www.plasticsnews.com 2010-02-17 www.ubergizmo.com 2010-02-22

4 www.ofi.at 4 New materials?  Before 1940 approx. 80 % of commercially available biodegradable plastic and its monomers were discovered and described  1938 Polyethylen  In the 70s: Oil crises (1973) Set point for further development  In the 80s: Oil crises (1980) – pilot plants for bioplastics Oxodegrable products – inhibited the further development? Source: NARAYAN R. et al. 1994 www.n24.de 2010-02-17

5 www.ofi.at 5 Definition of Bioplastic  Up to now not fixed (CEN/TC 249/WG 17 planed release 2010)  According to European Bioplastics: Plastic based on renewable resources Biodegradable polymers which meet all criteria of scientifically recognized norms for biodegradability and compostability of plastics and plastic products (EU: EN 13432 / EN 14995, US: ASTM D-6400, ISO 17088).  NOT oxodegradable! Source: www.european-bioplastics.org 2010-02-17

6 www.ofi.at 6 Definition of Bioplastic Biodegradable material based on renewable ressources Biodegradable material based on petrochemical ressources Non degradable material based on renewable ressources Non degradable material based on petrochemical ressources (OXODEG.)

7 www.ofi.at 7 Development of the market  Capacity 2009 400.000 t worldwide  Small market, but high growth rates up to 10 % Source: www.european-bioplastics.org 2010-02-17

8 www.ofi.at 8 Research > Development > Pilot Plant > Commercialization > World-scale Plant > Industrial production State of development Source: bioplastics Magazine 03/2007

9 www.ofi.at 9 Biodegradable materials  In general 4 materials commercially available Starch-based polymers Polylactic acid Polyhydroxyalkanoates Cellulose derivates Chitosan?  Polymer blends and composites Source: www.basf.com 2008-09-12 YU L. et al. 2006

10 www.ofi.at 10  Maize and/or potatoe starch in blend with polycaprolactones and other biodegradable esters  Europeas most common bioplastic Starch-based polymers Mater-Bi ® Source: www.novamont.com 2009-12-01

11 www.ofi.at 11  Plantic ® Starch from maize and hydroxypropyl, Plantic Technologies (AUS)  Solanyl ® Starch from potatoes, Rodenburg Biopolymers (NL)  Bioplast ® Starch blend, Biotec (DE)  Biopar ® Starch from potatoes and blends, Biop AG (D) Similar to PE (converting) Limited applications! Starch-based polymers Others Source: www.plantic.com.au 2009-04-01

12 www.ofi.at 12 Polylactic acid  Main producer: NatureWorks (US)  Other Producers: Hycail (FI), Toyota (J) and Uhde Inventa (D)  Glucose from maize or lactose from whey Source: LIM L.-T. et al. 2008

13 www.ofi.at 13  Ecovio ® 45 % PLA + Ecoflex ®, BASF (D)  Ecovio ® L-Foam 75 % PLA + Ecoflex ®, BASF (D)  Bio-Flex ® PLA + Copolyester, FKuR (D) Similar to PET and/or PS (converting) Sensitive to temperature! Polylactic acid blends Source: www.basf.com 2008-09-12 YU L. et al. 2006

14 www.ofi.at 14  Mirel™ Metabolix (US)  Biomer™ Biomer (D) Fermentation of starch, rape, plant residues, etc. Only Injection Moulding! PHB, PHV, PHBV,... Polyhydroxyalkanoates Source: www.metabolix.com 2008-09-12

15 www.ofi.at 15 NatureFlex™ Innovia (UK) Cellulose derivates Source: www.innoviafilms.com 2008-09-12 Barrier coatings!

16 www.ofi.at 16 Thermal properties: Melting temperature Biopolymers comparable with conventional plastics Source: WEBER C. J. 2000 Comparision

17 www.ofi.at 17 Oxygen transmission rate Biopolymers in the midfield Source: WEBER C. J. 2000 Comparision

18 www.ofi.at 18 Water vapour transmission rate Biopolymers in the midfield Source: WEBER C. J. 2000 Comparision

19 www.ofi.at 19 Transmission of UV-light Comparision

20 www.ofi.at 20 Food safety packaging material  Nearly all starting substances are listed  Migration values are below legal limits  No significant difference in microbial growth on packaging material  No desintegration during shelf life  Migrants from PLA are safe

21 www.ofi.at 21 End of life Composting? Source: WEBER C. J. 2000 End of life

22 www.ofi.at 22 End of life Compsoting? Source: ENDRES H.-J. 2009 End of life

23 www.ofi.at 23 Michael Pitzl E-Mail: michael.pitzl@ofi.at Austrian Research Institute for Chemistry and Technology - ofi Brehmstraße 14a A-1110 Wien  +43-(0)1-798 16 01 - 597  +43-(0)1-798 16 01 - 480 THANK YOU!

Download ppt "Codex-UK ´Gebrauchsgegenstände´ 3. Juni 2008 / BMGFJ Renewable vs. Biodegradable New materials for packaging technology Michael Pitzl ofi – Department."

Similar presentations

3 (+1)R concept In solving plastic waste disposal problem by Lee Jo May Universiti Sains Malaysia Sept 20, 2010.

3 (+1)R concept In solving plastic waste disposal problem by Lee Jo May Universiti Sains Malaysia Sept 20, 2010.
Plastic Packaging and the Environment.. What are my options? Degradable / Biodegradable films 100% Biodegradable films (according to EN 13432) 100% Biodegradable.

Plastic Packaging and the Environment.. What are my options? Degradable / Biodegradable films 100% Biodegradable films (according to EN 13432) 100% Biodegradable.
DZOLV PRODUCTS PTY LTD BIO-BASED MATERIALS www.dzolv.com.au Copyright DZOLV Products Pty Ltd 2006.

DZOLV PRODUCTS PTY LTD BIO-BASED MATERIALS Copyright DZOLV Products Pty Ltd 2006.
Codex-UK ´Gebrauchsgegenstände´ 3. Juni 2008 / BMGFJ Packaging and Food Safety – A Global Approach DI Dr. tech Johannes Bergmair ofi Packaging Institute.

Codex-UK ´Gebrauchsgegenstände´ 3. Juni 2008 / BMGFJ Packaging and Food Safety – A Global Approach DI Dr. tech Johannes Bergmair ofi Packaging Institute.
Commercial Plant-based Plastics in packaging and durable applications Edward Kosior, Managing Director Nextek Ltd Plants as Providers of Fine Chemicals.

Commercial Plant-based Plastics in packaging and durable applications Edward Kosior, Managing Director Nextek Ltd Plants as Providers of Fine Chemicals.
The manufacture of plastics requires the use of non- renewable materials such as petroleum and natural gases. Many plastics are harmful to the environment.

The manufacture of plastics requires the use of non- renewable materials such as petroleum and natural gases. Many plastics are harmful to the environment.
Innovating Packaging Solutions for Fresh Fish

Innovating Packaging Solutions for Fresh Fish
Avantium Chemicals: Carbohydrate based feedstocks for biobased chemicals Ed de Jong Peter Mangnus.

Avantium Chemicals: Carbohydrate based feedstocks for biobased chemicals Ed de Jong Peter Mangnus.
2 NatureWorks LLC BIO-BASED MATERIALS February 22-23, 2005 Peter C. Clydesdale OR

2 NatureWorks LLC BIO-BASED MATERIALS February 22-23, 2005 Peter C. Clydesdale OR
Patrice Dole, INRA UMR FARE, …what about lignins?

Patrice Dole, INRA UMR FARE, …what about lignins?
Case Study: A Plastic Easy to Recycle. 2 Polylactic Acid (PLA) Plastic PLA is a new plastic made from corn instead of oil.

Case Study: A Plastic Easy to Recycle. 2 Polylactic Acid (PLA) Plastic PLA is a new plastic made from corn instead of oil.
Waste = food Lesson three: Designing food packaging Learning objectives: To learn about the materials available for packaging that are compostable To know.

Waste = food Lesson three: Designing food packaging Learning objectives: To learn about the materials available for packaging that are compostable To know.
Polymer problems.

Polymer problems.
In In the name of God. Polymer: Poly + Meros Polymers can be separated into 3 general categories: Polymers can be separated into 3 general categories:

In In the name of God. Polymer: Poly + Meros Polymers can be separated into 3 general categories: Polymers can be separated into 3 general categories:
Global Trends in Bioplastics Boris A. Miksic, FNACE® Cortec Corporation/EcoCortec.

Global Trends in Bioplastics Boris A. Miksic, FNACE® Cortec Corporation/EcoCortec.
Workshop CROATIA 2009 With the support of the European Commission.

Workshop CROATIA 2009 With the support of the European Commission.
Reducing Greenhouse Gases with Bioplastics

Reducing Greenhouse Gases with Bioplastics
By USDA AFRI Grant no. 2011-67009-30055 Bioenergy & Bioproducts Education Programs BIOENERGY AND BIOPRODUCTS.

By USDA AFRI Grant no Bioenergy & Bioproducts Education Programs BIOENERGY AND BIOPRODUCTS.
Compostable Food Serviceware What to know before purchasing.

Compostable Food Serviceware What to know before purchasing.
Symphony Environmental July 2008. As explained in the previous presentation there are different types of polymers. We want to apply d2w to the simplest.

Symphony Environmental July As explained in the previous presentation there are different types of polymers. We want to apply d2w to the simplest.

Similar presentations

Ads by Google