GaBi Solutions

Extension database XIX: Bioplastics

Process nameCountryTypeData source

Aliphatic/aromatic copolyester
polyesterification of adipic acid, butanediol and dimethyl terephthalate;
single route, at plant;
25 MJ/kg net calorific value

DEaggts

Aliphatic/aromatic copolyester
polyesterification of adipic acid, butanediol and dimethyl terephthalate;
single route, at producer;
25 MJ/kg net calorific value

USaggts

Aliphatic/aromatic copolyester granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

EU-28p-aggts

Aliphatic/aromatic copolyester granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

USp-aggts

Aliphatic/aromatic copolyester granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

DEp-aggts

Aliphatic/aromatic copolyester in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 25.1 MJ/kg

USp-aggts

Aliphatic/aromatic copolyester in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 25.1 MJ/kg

DEp-aggts

Aliphatic/aromatic copolyester in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 25.1 MJ/kg

EU-28p-aggts

Diesel mix at refinery
from crude oil and bio components;
production mix, at refinery;
10 ppm sulphur, 7.18 wt.% bio components

DEaggts

Diesel mix at refinery
from crude oil and bio components;
production mix, at refinery;
10 ppm sulphur, 6.99 wt.% bio components

EU-28aggts

Diesel mix at refinery
from crude oil and bio components;
production mix, at refinery;
15 ppm sulphur, 3.48 wt.% bio components

USaggts

Material credit

GLOu-sots

Plastic waste

GLOu-sots

Polyamide (PA) 4.10 (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 32.1 MJ/kg

EU-28p-aggts

Polyamide (PA) 4.10 (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 32.1 MJ/kg

DEp-aggts

Polyamide (PA) 4.10 (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 32.1 MJ/kg

USp-aggts

Polyamide (PA) 4.10 granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

EU-28p-aggts

Polyamide (PA) 4.10 granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

USp-aggts

Polyamide (PA) 4.10 granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

DEp-aggts

Polyamide (PA) 6.10 (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 33.3 MJ/kg

DEp-aggts

Polyamide 4.10 granulate (PA 4.10) (biobased from castor oil) (sebacic acid average)
TMDA, CN biobased sebacic acid (average case);
single route, at plant;
stoichiometrical estimation, sebacic acid biobased and TMDA fossil based ; 71% biogenic and 29% fossil share based on total carbon amount

EU-28aggts

Polyamide 4.10 granulate (PA 4.10) (biobased from castor oil) (sebacic acid average)
TMDA, CN biobased sebacic acid (average case);
single route, at plant;
stoichiometrical estimation, sebacic acid biobased and TMDA fossil based ; 71% biogenic and 29% fossil share based on total carbon amount

USaggts

Polyamide 4.10 granulate (PA 4.10) (biobased from castor oil) (sebacic acid average)
TMDA, CN biobased sebacic acid (average case);
single route, at plant;
stoichiometrical estimation, sebacic acid biobased and TMDA fossil based ; 71% biogenic and 29% fossil share based on total carbon amount

DEaggts

Polyethylene (PE) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 43.5 MJ/kg

EU-28p-aggts

Polyethylene (PE) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 43.5 MJ/kg

DEp-aggts

Polyethylene (PE) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 43.5 MJ/kg

USp-aggts

Polyethylene (PE) granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

DEp-aggts

Polyethylene granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

EU-28p-aggts

Polyethylene granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

USp-aggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from corn)
hydrogenation of corn ethanol to ethylene, polymerisation;
single route, at plant;
915 to 940 kg/m3, 43 MJ/kg net calorific value

USaggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from corn)
from biobased ethylene based on US corn;
production mix, at plant;
0.91- 0.96 g/cm3, 28 g/mol per repeating unit

EU-28aggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from corn)
hydrogenation of corn ethanol to ethylene, polymerisation;
single route, at plant;
915 to 940 kg/m3, 43 MJ/kg net calorific value

DEaggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from sugar beet)
hydrogenation of sugar beet ethanol to ethylene, polymerisation;
single route, at plant;
915 to 940 kg/m3, 43 MJ/kg net calorific value

DEaggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from sugar beet)
from biobased ethylene based on sugar beet;
production mix, at plant;
0.91- 0.96 g/cm3, 28 g/mol per repeating unit

EU-28aggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from sugar cane)
from biobased ethylene based on BR sugar cane (45% slash and burn);
production mix, at plant;
0.91- 0.96 g/cm3, 28 g/mol per repeating unit

USaggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from sugar cane)
from ethylene based on sugar cane (45% slash and burn);
production mix, at plant;
0.91- 0.96 g/cm3, 28 g/mol per repeating unit

EU-28aggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from sugar cane)
hydrogenation of sugar cane based ethanol to ethylene, polymerisation;
single route, at plant;
915 to 940 kg/m3, 43 MJ/kg net calorific value

DEaggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from wheat)
hydrogenation of wheat based ethanol to ethylene, polymerisation;
single route, at plant;
915 to 940 kg/m3, 43 MJ/kg net calorific value

DEaggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from wheat)
from biobased ethylene based on wheat;
production mix, at plant;
0.91- 0.96 g/cm3, 28 g/mol per repeating unit

EU-28aggts

Polyethylene Low Density Granulate (LDPE/PE-LD) (biobased from wheat)
hydrogenation of wheat based ethanol to ethylene, polymerisation;
single route, at plant;
915 to 940 kg/m3, 43 MJ/kg net calorific value

USaggts

Polyethylene terephthalate (PET) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 22.2 MJ/kg

DEp-aggts

Polyethylene terephthalate (PET) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 22.2 MJ/kg

EU-28p-aggts

Polyethylene terephthalate (PET) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 22.2 MJ/kg

USp-aggts

Polyethylene terephthalate (PET) granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

EU-28p-aggts

Polyethylene terephthalate (PET) granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

DEp-aggts

Polyethylene terephthalate (PET) granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

USp-aggts

Polyethylene terephthalate granulate (PET) (partially biobased from sugar beet)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on sugar beet;
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

DEaggts

Polyethylene terephthalate granulate (PET) (partially biobased from sugar cane)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on sugar cane (60% slash and burn);
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

DEaggts

Polyethylene terephthalate granulate (PET) (partially biobased from US corn)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on US corn;
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

DEaggts

Polyethylene terephthalate granulate (PET) (partially biobased from wheat)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on wheat;
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

DEaggts

Polyethylene terephthalate granulate (PET) via terepht. acid + EG (partially biobased from corn)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on US corn;
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

USaggts

Polyethylene terephthalate granulate (PET) via terepht. acid + EG (partially biobased from corn)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on corn;
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

EU-28aggts

Polyethylene terephthalate granulate (PET) via terepht. acid + EG (partially biobased from wheat)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on wheat;
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

EU-28aggts

Polyethylene terephthalate granulate (PET) via terepht. acid + EG (partially biobased from wheat)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on wheat;
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

USaggts

Polyethylene terephthalate granulate (PET) via terepht. acid + EG (partially biobased, sugar beet)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on sugar beet;
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

EU-28aggts

Polyethylene terephthalate granulate (PET) via terepht. acid + EG (partially biobased, sugar cane)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on sugar cane (45% slash and burn);
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

USaggts

Polyethylene terephthalate granulate (PET) via terepht. acid + EG (partially biobased, sugar cane)
partially biobased via terephthalic acid and ethylene glycol from ethylene based on sugar cane (45% slash and burn);
single route, at plant;
PET bottle grade, Ethylene glycol biobased and terephthalic acid fossil based ; 20% biogenic and 80% fossil share based on total carbon amount

EU-28aggts

Polylactic acid (PLA) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 17.9 MJ/kg

DEp-aggts

Polylactic acid (PLA) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 17.9 MJ/kg

USp-aggts

Polylactic acid (PLA) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 17.9 MJ/kg

EU-28p-aggts

Polypropylene (PP) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 43.5 MJ/kg

DEp-aggts

Polypropylene (PP) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 43.5 MJ/kg

EU-28p-aggts

Polypropylene (PP) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 43.5 MJ/kg

USp-aggts

Polypropylene (PP) granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

DEp-aggts

Polypropylene granulate (PP) (biobased from BR sugar cane)
fully biobased, via dimerization and metathesis of biobased ethylene based on sugar cane (45% slash and burn);
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

USaggts

Polypropylene granulate (PP) (biobased from corn)
fully biobased, via dimerization and metathesis of ethylene based on corn;
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

USaggts

Polypropylene granulate (PP) (biobased from corn)
fully biobased, via dimerization and metathesis of ethylene based on corn;
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

EU-28aggts

Polypropylene granulate (PP) (biobased from corn)
fully biobased, via dimerization and metathesis of ethylene based on US corn;
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

DEaggts

Polypropylene granulate (PP) (biobased from sugar beet)
fully biobased, via dimerization and metathesis of ethylene based on sugar beet;
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

DEaggts

Polypropylene granulate (PP) (biobased from sugar beet)
fully biobased, via dimerization and metathesis of ethylene based on sugar beet;
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

EU-28aggts

Polypropylene granulate (PP) (biobased from sugar cane)
fully biobased, via dimerization and metathesis of ethylene based on sugar cane (60% slash and burn);
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

DEaggts

Polypropylene granulate (PP) (biobased from sugar cane)
fully biobased, via dimerization and metathesis of ethylene based on sugar cane (45% slash and burn);
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

EU-28aggts

Polypropylene granulate (PP) (biobased from wheat)
fully biobased, via dimerization and metathesis of ethylene based on wheat;
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

USaggts

Polypropylene granulate (PP) (biobased from wheat)
fully biobased, via dimerization and metathesis of ethylene based on wheat;
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

DEaggts

Polypropylene granulate (PP) (biobased from wheat)
fully biobased, via dimerization and metathesis of ethylene based on wheat;
single route, at plant;
100 % biogenic carbon, net calorific value 43.5 MJ/kg

EU-28aggts

Polypropylene granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

USp-aggts

Polypropylene granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

EU-28p-aggts

Polyvinyl chloride (PVC) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 18.0 MJ/kg

DEp-aggts

Polyvinyl chloride (PVC) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 18.0 MJ/kg

EU-28p-aggts

Polyvinyl chloride (PVC) (biobased) in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 18.0 MJ/kg

USp-aggts

Polyvinyl chloride (PVC) granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

USp-aggts

Polyvinyl chloride (PVC) granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

EU-28p-aggts

Polyvinyl chloride (PVC) granulate secondary (biobased)
from post-consumer biobased plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

DEp-aggts

Polyvinyl chloride granulate (S-PVC) (biobased from corn)
fully biobased from ethylene based on corn;
single route, at plant;
100 % biogenic carbon

EU-28aggts

Polyvinyl chloride granulate (S-PVC) (biobased from corn)
fully biobased from ethylene based on US corn;
single route, at plant;
100 % biogenic carbon

DEaggts

Polyvinyl chloride granulate (S-PVC) (biobased from corn)
fully biobased from ethylene based on corn;
single route, at plant;
100 % biogenic carbon

USaggts

Polyvinyl chloride granulate (S-PVC) (biobased from sugar beet)
fully biobased from ethylene based on sugar beet;
single route, at plant;
100 % biogenic carbon

EU-28aggts

Polyvinyl chloride granulate (S-PVC) (biobased from sugar beet)
fully biobased from ethylene based on sugar beet;
single route, at plant;
100 % biogenic carbon

DEaggts

Polyvinyl chloride granulate (S-PVC) (biobased from sugar cane)
fully biobased from ethylene based on sugar cane (45% slash and burn);
single route, at plant;
100 % biogenic carbon

EU-28aggts

Polyvinyl chloride granulate (S-PVC) (biobased from sugar cane)
fully biobased from ethylene based on sugar cane (45% slash and burn);
single route, at plant;
100 % biogenic carbon

USaggts

Polyvinyl chloride granulate (S-PVC) (biobased from sugar cane)
fully biobased from ethylene based on sugar cane (45% slash and burn);
single route, at plant;
100 % biogenic carbon

DEaggts

Polyvinyl chloride granulate (S-PVC) (biobased from wheat)
fully biobased from ethylene based on wheat;
single route, at plant;
100 % biogenic carbon

EU-28aggts

Polyvinyl chloride granulate (S-PVC) (biobased from wheat)
fully biobased from ethylene based on wheat;
single route, at plant;
100 % biogenic carbon

DEaggts

Polyvinyl chloride granulate (S-PVC) (biobased from wheat)
fully biobased from ethylene based on wheat;
single route, at plant;
100 % biogenic carbon

USaggts

Recycling of Aliphatic/aromatic copolyester - scrap credit (open loop) ; including CO2 Adjustment

GLOu-sots

Recycling of bio-based plastics - scrap credit (open loop) ; including (biotic) CO2 adjustment

GLOu-sots

Starch/polyethylene (PE) blend
partially biobased, via compounding;
single route, at plant;
34% biogenic and 66% fossil share based on total carbon amount

EU-28aggts

Starch/polyethylene (PE) blend
partially biobased, via compounding;
single route, at plant;
34% biogenic and 66% fossil share based on total carbon amount

DEaggts

Starch/polyethylene (PE) blend
partially biobased, via compounding;
single route, at plant;
34% biogenic and 66% fossil share based on total carbon amount

USaggts

Starch/polyethylene (PE) blend granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

USp-aggts

Starch/polyethylene (PE) blend granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

EU-28p-aggts

Starch/polyethylene (PE) blend granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

DEp-aggts

Starch/polyethylene (PE) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 20.1 MJ/kg

EU-28p-aggts

Starch/polyethylene (PE) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 20.1 MJ/kg

USp-aggts

Starch/polyethylene (PE) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 20.1 MJ/kg

DEp-aggts

Starch/polylactic acid (PLA) blend
fully biobased, via compounding;
single route, at plant;
100 % biogenic carbon

DEaggts

Starch/polylactic acid (PLA) blend
fully biobased, via compounding;
single route, at plant;
100 % biogenic carbon

USaggts

Starch/polylactic acid (PLA) blend
fully biobased, via compounding;
single route, at plant;
100 % biogenic carbon

EU-28aggts

Starch/polylactic acid (PLA) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 16.6 MJ/kg

DEp-aggts

Starch/polylactic acid (PLA) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 16.6 MJ/kg

USp-aggts

Starch/polylactic acid (PLA) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 16.6 MJ/kg

EU-28p-aggts

Starch/polyvinyl alcohol (PVA) blend
partially biobased, via compounding;
single route, at plant;
45% biogenic and 55% fossil share based on total carbon amount

DEaggts

Starch/polyvinyl alcohol (PVA) blend
partially biobased, via compounding;
single route, at plant;
45% biogenic and 55% fossil share based on total carbon amount

USaggts

Starch/polyvinyl alcohol (PVA) blend
partially biobased, via compounding;
single route, at plant;
45% biogenic and 55% fossil share based on total carbon amount

EU-28aggts

Starch/polyvinyl alcohol (PVA) blend granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

DEp-aggts

Starch/polyvinyl alcohol (PVA) blend granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

USp-aggts

Starch/polyvinyl alcohol (PVA) blend granulate secondary
from post-consumer plastic waste, via grinding, metal separation, washing, pelletization;
single route, at consumer;
plastic waste without metal fraction

EU-28p-aggts

Starch/polyvinyl alcohol (PVA) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 17.7 MJ/kg

DEp-aggts

Starch/polyvinyl alcohol (PVA) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 17.7 MJ/kg

USp-aggts

Starch/polyvinyl alcohol (PVA) blend in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 17.7 MJ/kg

EU-28p-aggts

Thermoplastic starch polymer (TPS), unblended
Extrusion to granulate;
single route, at plant;
unblended, 100 % biogenic carbon

EU-28aggts

Thermoplastic starch polymer (TPS), unblended
Extrusion to granulate;
single route, at plant;
unblended, 100 % biogenic carbon

USaggts

Thermoplastic starch polymer (TPS), unblended
Extrusion to granulate;
single route, at plant;
unblended, 100 % biogenic carbon

DEaggts

Thermoplastic starch polymer (TPS), unblended in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 16 MJ/kg

EU-28p-aggts

Thermoplastic starch polymer (TPS), unblended, in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 16 MJ/kg

USp-aggts

Thermoplastic starch polymer (TPS), unblended, in waste incineration plant
waste-to-energy plant with dry flue gas treatment, without collection, transport and pre-treatment;
production mix, at plant;
Net calorific value 16 MJ/kg

DEp-aggts

Truck, Euro 5, 14 - 20t gross weight / 11,4t payload capacity
diesel driven, Euro 5, cargo;
consumption mix;
14 - 20t gross weight / 11,4t payload capacity

GLOu-sots

Truck, Euro 5, 28 - 32t gross weight / 22t payload capacity
diesel driven, Euro 5, cargo;
consumption mix;
28 - 32t gross weight / 22t payload capacity

GLOu-sots

Plans

Process name

Country

Type

Data source

Recycling of aliphatic/aromatic copolyester

EU-28

LC

ts

Recycling of aliphatic/aromatic copolyester

US

LC

ts

Recycling of aliphatic/aromatic copolyester

DE

LC

ts

Recycling of biopolyamide (PA) 4.10

US

LC

ts

Recycling of biopolyethylene (PE)

US

LC

ts

Recycling of biopolyethylene terephthalate (PET)

US

LC

ts

Recycling of biopolypropylene (PP)

US

LC

ts

Recycling of biopolyvinyl chloride (PVC)

US

LC

ts

Recycling of polyamide (PA) 4.10 (biobased)

EU-28

LC

ts

Recycling of polyamide (PA) 4.10 (biobased)

DE

LC

ts

Recycling of polyethylene (PE) (biobased)

DE

LC

ts

Recycling of polyethylene (PE) (biobased)

EU-28

LC

ts

Recycling of polyethylene terephthalate (PET) (biobased)

DE

LC

ts

Recycling of polyethylene terephthalate (PET) (biobased)

EU-28

LC

ts

Recycling of polypropylene (PP) (biobased)

EU-28

LC

ts

Recycling of polypropylene (PP) (biobased)

DE

LC

ts

Recycling of polyvinyl chloride (PVC) (biobased)

DE

LC

ts

Recycling of polyvinyl chloride (PVC) (biobased)

EU-28

LC

ts

Recycling of starch/polyethylene (PE) blend

EU-28

LC

ts

Recycling of starch/polyethylene (PE) blend

US

LC

ts

Recycling of starch/polyethylene (PE) blend

DE

LC

ts

Recycling of starch/polyvinyl alcohol (PVA) blend

US

LC

ts

Recycling of starch/polyvinyl alcohol (PVA) blend

DE

LC

ts

Recycling of starch/polyvinyl alcohol (PVA) blend

EU-28

LC

ts