Our road to carbon neutrality by 2050
Increase recycled content utilisation We target reaching 50% PCR content in our resins by 2025.. Each unit of recycled PET that replaces virgin results in 75% lower energy demand and 60% reduction in greenhouse gas emissions 1 .
Research regenerative raw materials Such as bio-based alternatives. Some raw materials do not generate the same amount of greenhouse
Improve energy efficiency Continuous improvement in
Lead reforestation projects Even though reducing is our first option, Selenis will mitigate remaining emissions by leading and investing
Expand our renewable energy sources Our company will reduce our carbon footprint by transitioning to renewable energy sources. This will reduce the amount of greenhouse gas emissions associated with the production of PET products.
energy efficiency in our operations, as we are already using more energy-efficient equipment and processes. Ongoing investigation of the potential of carbon capturing technologies.
gas emissions as traditional ones.
in reforestation, afforestation and
other projects that will increase the absorption of carbon from the atmosphere.
It's important to note that reaching carbon neutrality will require a combination of all these actions and will likely also require significant investment in new technologies and processes. Collaboration with suppliers, clients, NGOs, governments, and other stakeholders is paramount to success of these strategies.
1 Information provided by NAPCOR from the studies Cradle-to-resin life cycle analysis of polyethylene terephthalate resin (March, 2020) and Life cycle impacts for postconsumer recycled resins: PET HDPE, and PP (December, 2018). All data sources may be found at www.napcor.com/sustainability/life-cycle-analysis.
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Our company
Transforming circularity
Accelerating decarbonisation
Driving positive social impact
Empowering integrity
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