Home / Carbon emissions / Plastic as a material has a key role to play in reducing carbon emissions

Plastic as a material has a key role to play in reducing carbon emissions

A new report commissioned by Veolia and published by Imperial College highlights the importance of plastic as a material compared to alternatives when examining the carbon emissions.

The report titled ‘Examining Material Evidence – The Carbon Fingerprint’ analysed over 70 life-cycle assessments to evaluate the environmental impacts of packaging alternatives over their life-time, including impacts from mining, manufacturing, logistics, usage and end-of-life management covering recycling or disposal. By assessing many different studies with different assumptions the report states that the overarching message is clear, “that plastic can provide the lowest carbon emissions of available materials providing it is recycled properly, and effectively debunking the growing movement to switch away from plastic in all scenarios”.

Although only two per cent of British people believe that plastic contributes the least greenhouse gases to the environment from its production, use and recycling, in the majority of cases the main alternatives for packaging including cardboard, glass, steel and aluminium emit more greenhouse gases than plastic. Case in point, if all plastic bottles used globally were made from glass instead, the additional carbon emissions would be equivalent to 22 large coal-fired power plants producing enough electricity for a third of the UK. This is not to say that there are not cases where the converse is true, and for example, local supply chains for milk can mean that glass milk bottles make sense carbon wise.

According to the report, the key to limiting environmental impact and carbon emissions is the reduction, reuse, optimisation of recycled content and effective waste management to treat packaging at its end of life, and importantly recycling always wins over virgin production on all environmental indicators. For plastics, it has been shown that recycling saves between 30 per cent and 80 per cent of the carbon emissions that virgin plastic processing and manufacturing generate. If all plastic were recycled this could result in mean annual savings of 30 to 150 million tonnes of CO2, equivalent to shutting between eight and 40 coal-fired power plants globally. With the widespread application of renewable energy and demand-management strategies, increasing the recycling of plastics have the potential for both curbing the growing life-cycle GHG emissions from plastics, and also preventing them from entering the marine environment.

Richard Kirkman, Veolia UK & Ireland Chief Technology & Innovation Officer said: “As we look to build the green recovery and achieve a net-zero carbon world, this report helps to emphasise that plastic has a key role to play as a material, but only if it is responsibly minimised, produced, used and recycled. 

“With only nine per cent of plastics being recycled worldwide, there is still a lot to do to improve things. We have done it for paper, metals and glass which are widely recycled, but plastic is a newer material and so we need the right policy drivers in place, backed by consumer and manufacturer awareness, to allow us to build the new recycling infrastructure. This provide new green jobs and deliver all the advantages that plastic can offer, whilst making significant cuts to global carbon emissions.”

Professor Nick Voulvoulis, Professor of Environmental Technology, Imperial College London added: “We need to reduce plastics production while ensuring that any alternatives do not contribute more to climate change. The findings of this study demonstrate that removing, reducing, reusing or recycling the plastic packaging placed on the market is an important part of the way forward, and a better option to replacing it with current alternative materials, or waiting and hoping for solutions not yet available.”

To download the report click here.

About Sarah OBeirne

Leave a Reply

Your email address will not be published. Required fields are marked *