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What is Organic Recycling and the Benefits for the Environment?

Organic recycling--often referred to as composting--is the process of converting organic waste materials into nutrient-rich compost. The process involves the decomposition of organic materials such as food scraps, garden waste, paper, and certain types of biodegradable items. This process can occur through composting or anaerobic digestion.

Composting is an aerobic process where microorganisms break down organic matter in the presence of oxygen, resulting in nutrient-rich compost. Compost can be used in landscaping and integrated into systems and treatments designed for carbon sequestration, erosion control, fire remediation, stormwater management, and other applications.

Anaerobic digestion, on the other hand, is an oxygen-free process where bacteria break down organic materials, producing biogas that can be used for biofuel and electricity. Both methods convert waste into useful products, minimising the volume of waste that ends up in landfills and reducing greenhouse gas emissions.

According to the EU Packaging and Packaging Waste Directive, organic recycling is defined as the aerobic treatment (industrial composting) or anaerobic treatment (bio gasification) of packaging waste. 

How does organic recycling work?

The process of organic recycling typically involves the following steps:

Collection: Organic waste is collected from various sources, such as households, gardens, and food processing facilities, and transported to a composting facility or designated compost area. 

Decontamination: The collected waste is sorted to remove contaminants. Any non-biodegradable substances should be removed during this step.

Preparation: Prepare the organic waste in accordance with the chosen recycling method. In composting, organic waste is shredded or broken down into smaller pieces to increase the surface area for microorganisms to act upon. 

Recycling process: The choice of recycling method should be based on the characteristics of the organic waste and the desired end products. Each recycling method has specific requirements and benefits, so selecting the appropriate one ensures optimal processing and maximises the value of the end products.

Screening and grading: After several weeks to months, depending on the method and conditions, the organic material transforms into compost, which is then screened and graded before being ready for use.

Benefits of Organic Recycling

The benefits of organic recycling are extensive, contributing positively to environmental sustainability, economic savings, and soil health.

Environmental Protection: By diverting organic waste from landfills, organic recycling helps reduce methane emissions, a potent greenhouse gas. It also mitigates the pollution associated with waste incineration. Organic recycling helps decrease the overall carbon footprint. 

Soil Enrichment: Compost produced from organic recycling enhances soil structure, fertility, and moisture, providing essential nutrients to plants. This reduces the need for chemical fertilisers, which can have detrimental environmental effects such as water pollution. 

Waste Reduction: Organic recycling significantly reduces the volume of waste that needs to be managed through conventional methods, lowering the amount of waste sent out to landfills and waste management systems.

Resource Efficiency: By transforming waste into valuable products like compost and biogas, organic recycling promotes the efficient use of resources, contributing to a circular economy where waste is viewed as a resource.

Cost Saving: Communities can save on waste disposal costs, and gardeners and farmers can reduce their expenses on soil amendments by using compost.

 

The Role of Compostable Packaging in Organic Recycling

The incorporation of compostable materials like Solinatra into this organic recycling enhances its effectiveness and aligns with global efforts to reduce plastic pollution and promote a more circular economy. Through increased adoption of organic recycling and compostable packaging, we can move towards a more sustainable future.

For products which are heavily soiled with food waste, such as coffee capsules, cutlery and food containers, the use of compostable materials makes it easier for consumers to dispose of the product correctly and can increase recycling rates. Made with compostable materials such as Solinatra, the coffee capsule can be composted – whereas a plastic or metal item would need to be emptied and cleaned before it could be added to a recycling stream.

Compostable packaging made of Solinatra contributes to organic recycling by providing a truly sustainable alternative to traditional plastic packaging. Solinatra is a 100% natural and plant-based material designed to mimic the properties of traditional plastics but with the major benefit of being fully compostable.

Unlike conventional plastics, which can take hundreds of years to decompose, Solinatra breaks down in a matter of months under composting conditions. This makes it an ideal choice for packaging applications where waste generation is significant, such as in the food and beverage industry.

How Solinatra Contributes to Organic Recycling

Biodegradability: Products made of Solinatra decompose naturally in home and industrial composting conditions. 

Plastic waste reduction: By replacing traditional plastic packaging with Solinatra, businesses and manufacturers can reduce plastic pollution.

Compatibility with composting systems: Solinatra is compostable and biodegradable and is suitable for organic recycling systems, ensuring that it can be processed alongside other organic wastes.

Zero microplastics: As Solinatra packaging decomposes, it contributes to the nutrient content of the compost, with zero microplastics or harmful pollutants.

Ready to make the switch to a truly sustainable alternative? 

Discuss with our team!