We need to design for human behaviour to get rid of single-use plastics
CategoriesSustainable News

We need to design for human behaviour to get rid of single-use plastics

Packaging designs aimed at boosting recycling rates and reducing the prevalence of single-use plastics are destined to fail unless they help to change people’s behaviour, writes Matt Millington.


No one is particularly happy when they find out there’s plastic waste on Mount Everest, or in the deep oceans, or in human blood. It’s not controversial to say that we need to stop churning the stuff out and throwing it away.

One way for businesses to tackle single-use plastics is to design their packaging to be reusable, but so far efforts have not succeeded at scale.

For example, reusable McDonald’s cups are only getting a 40 per cent return rate from customers in Germany, despite consumers paying a €2 deposit. When Starbucks trialled reusable cups in the closed environment of its Seattle HQ, where returning them is presumably straightforward, the return rate still didn’t exceed 80 per cent.

We weren’t exactly succumbing to dehydration on the streets before coffee shops designed takeaway cups

It’s not that we don’t care: research suggests consumer motivation towards environmentally positive behaviour is high. It’s that as a society we have developed an expectation of convenience: to have what we want, when we want it, without any consequences.

This is entirely unreasonable – we weren’t exactly succumbing to dehydration on the streets before coffee shops designed takeaway cups – but while it persists, consumers are very unlikely to switch to reusable alternatives if it puts them out. And without a high return-and-reuse rate, reusable packaging is usually worse for the environment, owing to the much higher quantities of plastic involved.

This is why we need to design for human behaviour if we’re ever to get rid of single-use plastics. You cannot control what people will do with packaging once it leaves your premises, but you can influence them by factoring behavioural psychology into the design of the packaging itself.

The first step is understanding how consumers interact with the pack, throughout its lifecycle. Where are they and what are they doing when they open it? What’s their headspace? How about when they’re finished with it? There’s a big difference between how someone interacts with a reusable plate after a meal in a cafeteria, and how they interact with the reusable salad bowl they’re gobbling from on the lunchtime rush back to the office.

Then it’s about understanding the levers you can pull to nudge people towards more planet-positive decisions. Behavioural psychology shows there are three factors that work together to drive behavioural change: increasing consumer motivation to recycle or reuse, raising their ability to do so, and providing a trigger to remind them.

Take plastic bags. While usage of single-use bags has dramatically decreased in the UK since legislation requiring retailers to charge for them came into force in 2015, reusable alternatives have had mixed success. According to a report by the Environmental Investigation Agency and Greenpeace, 57 “bags for life” were sold for each household in the country in 2019 – more than one a week.

It’s possible to go too far in signalling that a pack isn’t disposable

Online grocer Ocado uses recyclable bags instead, but it has had success in achieving returns because it pulls all three behavioural psychology levers. Consumers are happy to receive bonus reward points for each bag they give back (motivation).

The bags are straightforward to return and customers know not to throw them away because of their clear messaging and distinct off-grey colour, which follows from not using harmful bleaching agents (ability). And because the driver usually asks for old bags after delivery, they’re unlikely to forget (trigger).

Ability is the key consideration. If you wanted to return the packaging from a takeaway burger meal, it would mean washing and then carrying around a bulky burger box, fries box and cup, and either making a special trip to the restaurant or waiting until you happen upon another branch.

New Zealand start-up FOLDPROJECT has done some interesting work here, trying to make boxes more portable. It’s a simple idea: a machine-washable lunch kit that packs down to a flat sheet. The challenge is that because it is so minimal, its form and material make it look disposable.

One way to ensure a reusable design communicates its intended purpose is through material choice. For example, using explicitly post-consumer recycled plastic could be a visual shorthand to communicate a planet-positive intent, as could using longer-lasting materials like glass or stoneware.

Interestingly, it’s possible to go too far in signalling that a pack isn’t disposable. When McDonald’s introduced reusable packaging in its restaurants in France, it found the packaging kept disappearing, only to reappear on eBay. It looked reusable and on-brand, but was too novel for some, defeating the object.

So long as we have bins on every street that lead directly to landfill, we are going to struggle

Businesses cannot just switch to reusable packaging – even when intelligently designed – and expect results. So long as we have bins on every street that lead directly to landfill we are going to struggle.

We therefore need to think beyond just designing the packaging to be sustainable, and think about how we design systems to be sustainable. In a circular economy that means service and experience design, packaging, industrial design, marketing, data, artificial intelligence and logistics all working hand-in-hand to keep the pack “in the loop”. It will therefore need to be an ecosystem effort.

We’re already seeing innovations that can help make reuse and return viable in the age of convenience. For example, when is a bin not a bin? When it’s a Bjarke Ingels Group-designed TURN system – a remote, digitally connected, RFID-enabled, packaging-asset reclaim and sorting network, which rejects unwanted trash.

Similarly, we’re seeing nudge messaging along the pack journey, and even packs that communicate their status themselves. Scottish start-up Insignia has designed colour-changing labels that reveal how long a pack has been exposed to the environment. Imagine taking this further, with reusable packaging telling you what to do with it, and offering prompts or rewards to encourage you.

Reusability hasn’t hit scale yet, but we should be optimistic that it can, not least because we’ve been there before. Milk deliveries were once the norm, with bottles returned, not discarded.

There’s no reason that we can’t get back to this more sustainable approach across the board, without having to endure too much inconvenience. All that’s required is a little ingenuity, and a lot of collaboration.

The photography is by Jas Min via Unsplash.

Matt Millington is a sustainable-design strategist at PA Consulting.

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An inclusive approach to upcycling low-value plastics into new products
CategoriesSustainable News

An inclusive approach to upcycling low-value plastics into new products

Spotted: Every year, between 8 to 10 million metric tonnes of plastic end up in our oceans. Countries in Southeast Asia are among the major offenders – many lack the infrastructure to collect and process plastic waste. Vietnam, which only recycles around a third of its plastic waste, is one of these. But a startup called ReForm Plastic is aiming to change this, as well as improve the lives of Vietnamese waste pickers – who are largely women. 

ReForm focuses on repurposing different types of waste plastic into moulded plastic products such as: construction tiles, tables, chairs, waste bins, playground equipment, and holds for rock-climbing walls. However, the startup is also repurposing the waste system by transforming existing collection centres into small production facilities. 

The small recycling centres are equipped with efficient low-cost machinery, collection and processing equipment. Each centre is partially locally owned and managed, but generates products that are centrally purchased and distributed by ReForm.  

ReForm already has four factories in operation in Vietnam – and is building six more in partnership with organisations in Thailand, Bangladesh, Laos, Mozambique, and the Philippines. In addition to providing work for thousands of workers, the circular system also formalises a large proportion of the informal waste sector. 

One way that innovators are tackling plastic waste is by collecting it and turning it into new products – reducing waste as well as the use of fossil fuels to make virgin plastics. Springwise has spotted a startup making backpacks from recycled plastic and a refillable and decomposable replacement for plastic pill bottles.

Written By: Lisa Magloff

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Non-recyclable plastics added to asphalt for stronger, more sustainable roads
CategoriesSustainable News

Non-recyclable plastics added to asphalt for stronger, more sustainable roads

Spotted: Through the improvement of road construction materials, startup Ecopals has set an annual goal to take 1.5 million tonnes of plastic out of circulation and reduce carbon emissions by 1.8 million tonnes in Europe alone. Using non-recyclable plastics that would otherwise be burned, Ecopals created EcoFlakes, an asphalt additive made from a mix of waste materials and streams. Using EcoFlakes in asphalt improves road longevity and reduces the need for virgin materials and petroleum-based products such as bitumen.

A pilot site at Fraunhofer ICT has been in-situ since 2011, providing the partnership of Ecopals, Fraunhofer ICT, and the University of Kassel with 10 years of performance data. The team has found that adding EcoFlakes to roads improves overall resistance to cracking and increases strength at high temperatures, while also maintaining the expected flexibility of the road at cold temperatures.

And for each tonne of asphalt with EcoFlakes added, 6.6 kilogrammes of carbon dioxide emissions are prevented. Ecopals currently seeks feedback from users on the optimum time for mixing materials in the dry and wet stages, and the company is working with local partners in the global south to spread the use of the technology.

From a carbon-negative road repair process to the addition of plastic milk bottles to repaving materials, communities worldwide are seeking to improve the sustainability of millions of kilometres of road. 

Written by: Keely Khoury

Email: info@ecopals.de

Website: ecopals.de

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An Australian startup develops enzyme-based technology that can break down plastics
CategoriesSustainable News

An Australian startup develops enzyme-based technology that can break down plastics

Spotted: What if there was a way to help eliminate the global plastic crisis without having to significantly compromise any of the conveniences we’ve grown accustomed to in our everyday lives? Meet Samsara Eco. With enzyme-based technology that can break down plastics, the Australian enviro-tech startup may have just what we need. The company’s innovative solution can break down single-use plastics into harmless organic molecules that can be easily recycled or composted.

This ‘cradle to cradle’ solution offers a way to recycle plastics sustainably, recreating them into new plastic or upcycling them into more valuable commodities. Enzymes—organic substances that catalyse bio-reactions—are the key to the technology. The enzymes break plastic ‘polymer’ molecules down into their constituent parts – known as ‘monomers’.

Samsara’s process is carbon neutral, and can be performed at room temperature. This is a significant benefit compared to other advanced plastic recycling processes – which require large amounts of heat. The startup therefore offers a more sustainable method of recycling, estimating that it will save 3 tonnes of carbon emissions for every tonne of plastic recycled using the process.

Founder and CEO of Samsara Eco Paul Riley explains that the technology ensures that plastics no longer need to be made from fossil fuels or plants, and won’t end up in landfills or oceans. He explains, “The motivation behind this work comes from our concerns about the environment, especially relating to carbon emissions and plastic waste, combined with our love of enzyme engineering – being able to design proteins to do new and useful things.” 

Founded in 2021, the startup has a team of 13 composed of scientists, engineers, and researchers from the Australian National University in Canberra. The startup’s long-term vision is to extend its technological capabilities to infinitely recycle other oil-derived plastic products such as clothes made from polyester and nylon.

Other innovative recycling technologies recently spotted by Springwise include a decentralised network of advanced recycling sites, a chemical-free process for turning plastic into a building material, and a water-based recycling process for hard-to-recycle plastics.

Written By: Katrina Lane

Website: samsaraeco.com

Contact: samsaraeco.com/contact-us

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