Food waste can happen at all stages of the food production process, from agriculture to post-harvest-and-slaughter, processing to packaging, and distribution to market. In this blog, Zarina Mohd, process project manager at IFP will explore different methods for reducing food waste, and how different technologies and techniques can lessen its impact on the environment.
The biggest cause of waste is perishability, and those foods with the shortest shelf life or that are easily damaged are the most susceptible. The result is water, energy, and space resources are wasted in producing and distributing food that will never be eaten. Food waste costs money for manufacturers as it increases food prices and also has a severe impact on the environment.
A large amount of food that is purchased often ends up in the refuse bin, either as leftovers or it is thrown out as it is no longer fresh. As this decomposes, a large amount of methane is produced – which as we know is a powerful greenhouse gas that contributes to global warming. Composting food waste properly can help to avoid the creation of methane as the food gets to break down aerobically, creating carbon dioxide instead, which is a much less powerful greenhouse gas.
It is not just food products that fill our bins, it is also the packaging that comes with it. It’s difficult to determine how much food packaging we throw out each year, but it does account for a significant proportion of our domestic waste. Consumer awareness in planning more carefully when shopping can help reduce such waste. Adopting a packaging-free, or packaging-reduced lifestyle where possible, or even using biodegradable and environmental-friendly and sustainable packaging, will help both the producer and consumer to reduce their environmental impact.
Food waste does have the potential to be converted into energy, for example it can generate biodiesel, which is produced from waste cooking oil and can be used in diesel engines. Unfortunately, there will only be enough recycled frying oil to power a tiny proportion of vehicles, and the rest of the world’s biodiesel comes from food crops. These plant-based alternatives often have a larger carbon footprint due to clearing of rainforest to make way for agricultural land.
Another method for converting food waste into energy is through the use of an anaerobic digester. When food waste is at landfill, it decomposes and releases methane; the anaerobic digestion system captures the methane that is otherwise released into the atmosphere. Organic food waste that is digested under anaerobic conditions can provide sources of renewable energy such as methane-rich biogas, which can then be used to power electricity generators and provide heat – the residuals can also be re-used as fertilizer for crops.
The best way individuals can personally take responsibility for their own food waste is through precise food and meal planning before buying, including making use of leftovers rather than letting them sit in the fridge or cupboard decaying. Improper food storage also causes food to spoil at a faster rate, and where suitable, the freezer should be used to prolong the life of foods that are likely to go stale. Not only will this serve a positive environmental impact, but the consumer will also benefit financially from undertaking this small step.
The way that food is grown and produced means it will always have some level of detrimental impact on the environment, as energy is consumed during every stage of its life cycle. Add to this the wide use of plastics to package food, and the wastage from is having a growing impact on global warming. It’s vital that businesses and individuals acknowledge this and take responsibility for reducing food waste at every stage of the food process, from the farm, through production, transportation, distribution and of course, in the home.
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