Reusable containers aren’t always better for the environment than disposable ones – new research

We are facing a waste crisis, with landfills across the world at full capacity and mountains of “recycled” waste dumped in developing countries. Food packaging is a major source of this waste, giving rise to an industry of “environmentally friendly” reusable food and drink containers that’s projected to be worth £21.3 billion worldwide by 2027: well over double its 2019 value of £9.6 billion.

But while it might seem like reusing the same container is better than buying a new single-use one each time, our research shows that reusable containers could actually be worse for the environment than their disposable counterparts.

Reusable containers have to be stronger and more durable to withstand being used multiple times – and they have to be cleaned after each use – so they consume more materials and energy, increasing their carbon footprint.

Our research set out to understand how many times you have to reuse a container for it to be the more eco-friendly choice, in the context of the takeaway food industry.

We looked at three of the most widely used types of single-use takeaway containers: aluminium, polypropylene (PP) and extruded polystyrene (commonly known as Styrofoam®, but correctly referred to as EPS). We compared these with commonly used reusable polypropylene food containers, popular among eco-conscious consumers.

Types of food containers we investigated

The results showed clearly that Styrofoam® containers are by far the best option for the environment among single-use food containers. This is mainly due to their use of only 7.8g of raw materials compared with PP containers’ 31.8g. Also, they require less electricity for production compared with aluminium containers.

Even a reusable container would have to be reused between 16 and 208 times for its environmental impact to equal that of a single-use Styrofoam® container.

We assessed 12 environmental impacts across the entire life cycle of a food container. These included the container’s contribution to global warming and to acid rain, its toxicity to humans and natural ecosystems and its effects on the ozone layer.

Taking these into account, you’d have to reuse a container 16 times to “counteract” the impact on air pollution of using the single-use container – and 208 times to counteract the impact of resource consumption.

When it comes to endangering our landscapes, reusable containers are always a worse option – regardless of the number of times used – due to the electricity required to heat the water for washing them. This is thanks to the emission of substances like heavy metals in electricity generation, which are toxic to many land-based organisms.

Offsetting damage through reuse

Similar results to ours have been reported for coffee cups, with one study concluding that it takes between 20 and 100 uses for a reusable cup to offset its higher greenhouse gas emissions compared to a disposable cup.

Alternatives

A common criticism of Styrofoam® containers is that they are not currently recycled. Although technically possible, the low density of Styrofoam® (containing 95% air) means that vast amounts need to be collected and compressed before they can be shipped to a recycling plant, making Styrofoam® recycling economically tricky.

However, we found that increasing recycling rates for the three types of single-use takeaway containers to the level of the EU’s 2025 packaging waste recycling target (75% for aluminium and 55% for plastic) would reduce their impacts by 2% to 60%. This includes an annual drop in carbon emissions equivalent to taking 55,000 cars off the road.

That doesn’t mean that reusing containers is always worse for the planet. We just need to be realistic about the number of reuses it takes to make environmental sense. But reuse is a considerable challenge for an industry optimised for “on-the-go” consumption.

Unless it is highly convenient or they’re offered an incentive (such as money back), customers aren’t likely to carry around empty containers until they can return or reuse them. There are also potential issues with liability for food poisoning and cross-contamination from allergens when reusing containers.

Despite this, reuse has been shown to work in the takeout sector, as with reusable box schemes like reCIRCLE in Switzerland. However, systems like this require considerable investment, particularly to help customers return containers.

A more promising model may be one where the vendor directly collects empty containers from the customer to be refilled with the same substance, in the style of old-fashioned milk delivery rounds. Similar models, like Terracycle’s Loop, aim to reuse each container up to 100 times.

The bigger picture

Unfortunately, single-use takeaway containers frequently end up contaminating natural environments. Almost half of the plastic polluting the world’s oceans comes from takeaway containers.

But instead of switching from single-use, a better environmental solution may be to encourage food companies to invest in more efficient recycling systems worldwide.

The takeaway message? Individual packaging choices will have limited influence as long as the whole system remains in need of a complete overhaul. For example, a consumer might opt for a compostable container, but that won’t help if their area doesn’t have a industrial composting facility.

It’s time we shifted packaging design from being product-based – focused on providing maximum features and functionality – to user-centred, focusing on improving customers’ lives by empathising with their desires for a cleaner world.

That means coupling environmentally sound and low-impact materials with a waste infrastructure that appreciates how humans actually behave and is designed to help them lead sustainable lives. When convenience and sustainability are pursued together, everyone wins.

By: Alejandro Gallego Schmid

By: Adisa Azapagic

By: Joan Manuel F. Mendoza

Disclosure statement

Alejandro Gallego Schmid receives funding from UKRI. The authors would like to thank Dr Caroline Wood for her writing assistance, language editing, and proofreading of this article.

Adisa Azapagic receives research funding from UKRI.

Joan Manuel F. Mendoza receives funding from IKERBASQUE – The Basque Foundation for Science, and is affiliated with The University of Mondragon and Ikerbasque.

This post was originally published at The Conversation.

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