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Contractor Rubble Bags

Sleek and simple, designed for the planet.

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Drawstring Bags

Secure, sustainable, and stylishly compact.

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Drum Liners

Sleek and simple, designed for the planet.

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Hotel/ Laundry Bags

Room for more, with care for the earth.

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Poly Tubing And Film

Secure, sustainable, and stylishly compact.

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Medical Waste Bag

Sleek and simple, designed for the planet.

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Medical Waste Bag

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Gloves

Secure, sustainable, and stylishly compact.

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Large Bin Liners

Sleek and simple, designed for the planet.

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Shrink Wrap

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Stretch Wrap

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Ice Bags

Sleek and simple, designed for the planet.

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2D Pouches

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Pallet Cover

Secure, sustainable, and stylishly compact.

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Carrier On Roll

Expanding possibilities, reducing impact.

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Suit Carrier

Strong, versatile, and eco-conscious.

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Knot Bag

Practical and sustainable with a touch of style.

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Flat Bag On A Roll

Expanding possibilities, reducing impact.

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Drawstring Bag

Strong, versatile, and eco-conscious.

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Nursery Bags

Expanding possibilities, reducing impact.

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Chutney Pouches

Strong, versatile, and eco-conscious.

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Compostable Lollipop Sticks

Practical and sustainable with a touch of style.

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Dry Clean Bags

Expanding possibilities, reducing impact.

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Garbage Bags

Dispose responsibly, protect the planet.

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Straws

Sip sustainably, one straw at a time.

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Poop Bag

Clean up with care, for a greener tomorrow.

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Grocery Bags

Carry essentials, leave no footprint.

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Carry Bags

Strong, stylish, and sustainable for every need.

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Courier Bags

Delivering sustainability, one package at a time.

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Flat Bags

Sleek and simple, designed for the planet.

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Bottom Gusset Bag

Room for more, with care for the earth.

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Envelope Bag

Secure, sustainable, and stylishly compact.

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Side Gusset Bag

Expanding possibilities, reducing impact.

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Vest Carrier

Strong, versatile, and eco-conscious.

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Wavy Top Carrier

Practical and sustainable with a touch of style.

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Frequently Asked Questions

What is biodegradation?

Biodegradation is a chemical process in which materials are metabolised to CO2, water, and biomass with the help of microorganisms.

The process of biodegradation depends on the conditions (e.g. location, temperature, humidity, presence of microorganisms, etc.) of the specific environment (industrial composting plant, garden compost, soil, water, etc.) and on the material or application itself. Consequently, the process and its outcome can vary considerably.
Compostable plastics disintegrate after 12 weeks and completely biodegrade after six months. That means that 90 percent or more of the plastic material will have been converted to CO2. The remaining share is converted into water and biomass, which no longer contains any plastic. No heavy metal contents and no harmful substances should be left behind.
Bio-based plastics have the same properties as conventional plastics but also feature the unique advantage to reduce the dependency on limited fossil resources and to potentially reduce greenhouse gas emissions.

Moreover, bioplastics can make a considerable contribution to increased resource efficiency through a closed resource cycle and use cascades, especially if bio-based materials and products are being either reused or recycled and eventually used for energy recovery (i.e. renewable energy).
Using biodegradable and compostable plastic products such as biowaste bags, fresh food packaging, or disposable tableware and cutlery increases the end-of-life options. In addition to recovering energy and mechanical recycling, industrial composting (organic recovery / organic recycling) becomes an available end-of-life option.

The use of compostable plastics makes the mixed waste suitable for organic recycling (industrial composting and anaerobic digestion), enabling the shift from recovery to recycling (a treatment option which ranks higher on the European waste hierarchy). This way, biowaste is diverted from other recycling streams or from landfill and facilitating separate collection – resulting in the creation of more valuable compost.
If a separate recycling stream for a certain plastic type exists, the bioplastic material can simply be recycled together with their conventional counterpart – e.g. biobased PE in the PE-stream or bio-based PET in the PET stream – as they are chemically and physically identical in their properties.

The post consumer recycling of bioplastics materials for which no separate stream yet exists, will be feasible, as soon as the commercial volumes and sales increase sufficiently to cover the investments required to install separate recycling streams. It is expected, that new separate recycling streams for PLA for example will be feasible and introduced in the short to medium term.

Compostability is a clear benefit when plastic items are mixed with biowaste. Under these conditions, mechanical recycling is not feasible, neither for plastics nor biowaste. The use of compostable plastics makes the mixed waste suitable for organic recycling (industrial composting and anaerobic digestion), enabling the shift from recovery to recycling (a treatment option which ranks higher on the European waste hierarchy). This way, biowaste is diverted from other recycling streams or from landfill and facilitating separate collection – resulting in the creation of more valuable compost.
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Characteristics Petroleum-Based Plastics Bioplastics
Energy Consumption in Production High 48% lower than petroleum based plastic production
Raw Materials Petroleum, a non-renewable resource Biomass obtained from starch of corn, sugarcane, potato and other renewable crops
Carbon Footprint High as petroleum is involved 62% less emission of CO2 which is significantly less than traditional plastics
Presence of Phemicals Presence of Bisphenol A (BPA) which is a potential hormone disrupting chemical No presence of any toxic chemical
Physical Properties Highly stable and thermo-plastic Equally stable with high thermo-plasticity as traditional plastics
Biodegradability Could take more than 500 years to decompose completely; needs to be recycled Decomposes inside 180 days if decomposed in the right environment; releases methane on decomposition which can be harnessed to produce energy
Effect on Holding Contents Fails to retain the flavor and scent of the food stored in them; potentially releases harmful substances in the food on long exposures Retains the original flavor and scent of the food being carried in them
Price Low 20%-100% higher than traditional plastics

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