SubsidieMeestersPretreatment and Upgrading of Liquefied waste plastic to Scale up circular Economy
Project PULSE aims to integrate Neste's chemical recycling technologies into refinery operations in Finland to process 400,000 tonnes of waste plastic annually, significantly reducing greenhouse gas emissions.
Projectdetails
Introduction
Project PULSE (Pretreatment and Upgrading of Liquefied waste plastic to Scale up circular Economy) implements Neste’s proprietary technologies for chemical recycling of waste plastic and gradually integrates them into the company’s refinery operations in Porvoo, Finland.
Objectives
PULSE will reach a processing capacity of 400,000 tonnes of liquefied waste plastic per year.
Environmental Impact
It will contribute to EU climate neutrality objectives by a total of 10.3 Mt greenhouse gas emission avoidance during its first 10 years of operation.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 135.000.000 |
| Totale projectbegroting | € 135.000.000 |
Tijdlijn
| Startdatum | 1-4-2022 |
| Einddatum | 31-12-2037 |
| Subsidiejaar | 2022 |
Partners & Locaties
Projectpartners
- NESTE OYJpenvoerder
Land(en)
Vergelijkbare projecten binnen Innovation Fund
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Fully electrified chemical recycling of plastic waste for deep decarbonisation of the polymer industryLyondellBasell's MoReTec project aims to recycle post-consumer plastic waste into feedstock for new materials, enhancing circularity and reducing greenhouse gas emissions through advanced technology. | Innovation F... | € 40.000.000 | 2024 | Details |
FUse, REuse,ReCycleThe FUREC project converts non-recyclable waste into 54,000 tonnes of hydrogen annually, supplying the chemical industry while achieving a 101% reduction in greenhouse gas emissions. | Innovation F... | € 108.000.000 | 2023 | Details |
Innovative and cost-efficient production process for Power-to-Liquid using industrial off-gasesThe E-Fuel Pilot project aims to establish a pioneering synthetic fuel plant in Norway using P2X technology to produce 8,000 tonnes/year of eco-friendly syncrude, significantly reducing GHG emissions. | Innovation F... | € 40.000.000 | 2024 | Details |
Fully electrified chemical recycling of plastic waste for deep decarbonisation of the polymer industry
LyondellBasell's MoReTec project aims to recycle post-consumer plastic waste into feedstock for new materials, enhancing circularity and reducing greenhouse gas emissions through advanced technology.
FUse, REuse,ReCycle
The FUREC project converts non-recyclable waste into 54,000 tonnes of hydrogen annually, supplying the chemical industry while achieving a 101% reduction in greenhouse gas emissions.
Innovative and cost-efficient production process for Power-to-Liquid using industrial off-gases
The E-Fuel Pilot project aims to establish a pioneering synthetic fuel plant in Norway using P2X technology to produce 8,000 tonnes/year of eco-friendly syncrude, significantly reducing GHG emissions.
Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Re-thinking plastics in a sustainable circular economyPlastLIFE aims to transition Finland to a sustainable circular economy for plastics by reducing litter, increasing recycling, and replacing fossil plastics with bio-based alternatives by 2035. | LIFE Strateg... | € 11.955.784 | 2022 | Details |
Demonstration of a new circular waste treatment process with higher recycling rates and a smart customised production of alternative fuel from unrecyclable fractions for EIIs and advanced power plantsSRF 4.0 aims to reduce EU waste by developing a pioneering plant for sorting and processing waste into high-quality solid recovered fuel and recyclable materials, promoting a circular economy. | LIFE Standar... | € 3.478.709 | 2023 | Details |
Eco conversion of lower grade PET and mixed recalcitrant PET plastic waste into high performing biopolymersECOPLASTIC aims to transform unrecyclable PET plastic waste into high-performance bioplastics through innovative depolymerization and biopolymer production, promoting true circularity and sustainability. | EIC Pathfinder | € 3.045.502 | 2022 | Details |
Recovering landfill waste through an innovative and integrated process committed to the circular economyThe LIFE ZEROLANDFILLING project aims to demonstrate a sustainable management system for non-recyclable municipal solid waste, converting it into valuable products while significantly reducing CO2 emissions. | LIFE Standar... | € 2.956.383 | 2023 | Details |
Chemische recycling ‘moeilijke’ kunststof reststromenHet project onderzoekt chemische recycling van 'moeilijke' kunststof reststromen met een innovatieve reactor voor lokale verwerking. | Mkb-innovati... | € 20.000 | 2023 | Details |
Re-thinking plastics in a sustainable circular economy
PlastLIFE aims to transition Finland to a sustainable circular economy for plastics by reducing litter, increasing recycling, and replacing fossil plastics with bio-based alternatives by 2035.
Demonstration of a new circular waste treatment process with higher recycling rates and a smart customised production of alternative fuel from unrecyclable fractions for EIIs and advanced power plants
SRF 4.0 aims to reduce EU waste by developing a pioneering plant for sorting and processing waste into high-quality solid recovered fuel and recyclable materials, promoting a circular economy.
Eco conversion of lower grade PET and mixed recalcitrant PET plastic waste into high performing biopolymers
ECOPLASTIC aims to transform unrecyclable PET plastic waste into high-performance bioplastics through innovative depolymerization and biopolymer production, promoting true circularity and sustainability.
Recovering landfill waste through an innovative and integrated process committed to the circular economy
The LIFE ZEROLANDFILLING project aims to demonstrate a sustainable management system for non-recyclable municipal solid waste, converting it into valuable products while significantly reducing CO2 emissions.
Chemische recycling ‘moeilijke’ kunststof reststromen
Het project onderzoekt chemische recycling van 'moeilijke' kunststof reststromen met een innovatieve reactor voor lokale verwerking.