We take your recycling to the recycling depot in Maresfield where it is bulked up for onward transport to Viridor’s Materials Reclamation Facility (MRF) in Crayford (Kent).
Where does your recycling go?
At the Materials Reclamation Facility (MRF) the materials are separated using a combination of manual and automatic processes, including magnets, conveyor belts and lasers, before being baled up and sent to different re-processors in the UK and abroad to be made into new products.
What happens to the materials we collect
Did you know?Every household in the UK uses on average 331 bottles and jars each year. If the average household recycled all their glass they would save enough energy to:
- Power a 60 watt bulb for 20 days
- Power a computer for 5 days
- Power a colour TV for nearly 4.5 days
Stage One – SortingThis is initially carried out when the plastic is delivered mixed up with all the other recyclable material to the MRF (Materials Recycling Facility) at Viridor, Kent. The first stage is to sort the plastic into the specific types. Plastic recycling is more complex than that of metal or glass recycling due to the many different types of plastic and more importantly, mixed plastic cannot be used in manufacturing without delivering poor quality products, hence why plastic recycling companies need to be thorough when it comes to sorting the waste plastic in to the different forms prior to the next stage in the recycling process.
Stage Two – WashingOnce the waste plastic has been identified and separated in to one of its many forms the cleaning process can begin, this usually starts with washing to remove paper labels, adhesives and other impurities, all the labels on your plastic containers and bottles need to be completely removed as these will lower the quality of the finished recycled plastic.
Stage Three- ShreddingThe shredding stage is when the waste plastic is taken and loaded on to conveyor belts or directly in to huge hoppers that funnel the clean scrap towards rotating metal teeth that rip the plastic in to small pellets which are bagged up afterwards ready for testing.
Stage Four – Identify and ClassifyOnce the shredded plastic has been bagged it is then chemically tested and labelled as to its exact specification, this rGrade plastic can be used “as-is” by adding to a mix of virgin plastic in a manufacturing run, alternatively the rGrade plastic can be further recycled.
Stage Five – ExtrudingThis is the final stage in recycling plastic, this involves melting the clean shredded plastic and extruding in to the form of pellets which then go on to manufacture the next lot of plastic products.
Once the paper arrives at the reprocessor it is taken from the storage bays as required and loaded onto a continuously running conveyor belt which feeds material into the Fibre Preparation Plant. Here, the recovered paper is mixed with additional magazines to a specific formula to create the ideal blend for recycled newsprint.
The material then enters two horizontal drums, these are long rotating, sloping tubes into which water and sodium silicate are added. The contents are gently tumbled along the length of the drum, just like a super sized washing machine. The fibres swell and start to separate and the ink particles become loose.
Screening separates the fibres and water from large contaminates such as cans, plastic bottles and free magazine gifts, which are ejected onto a conveyor belt for disposal. The fibre and water mixture (pulp) is then put through a series of cyclone screens, which remove smaller items such as plastics and staples.
Compressed air is used to form soap bubbles to remove the ink from the mixture. The ink sticks to the bubbles as they float to the surface so forming a scum that can be removed mechanically. The pulp then goes through further cleaning stages before hydrogen peroxide is added to brighten the fibres. The resulting pulp has a consistency of 12% fibre in water and it is now held in storage towers ready to enter the paper making process.
When needed the fibres are distributed evenly across the paper machine’s 10 metre width by injecting the pulp upwards into the forming section. Here, the fibres are trapped between two continuous woven nylon supports to form a sheet of paper.
A Vacuum helps squeeze water from the sheet of paper, and moves onto the press section. Here, it is supported on one side only by a synthetic felt with a high water holding capacity. The sheet is rotary pressed to reduce the water content, leaving a consistency of 50% fibre to water.
Now recognisable as a sheet of paper, it proceeds through a drying process, which incorporates rollers filed with steam and simultaneously pumped hot air. The final result is paper with a moisture content of just 9% – the standard amount for newspapers.
Once given a surface treatment, the paper is checked and monitored for quality. It is then stored until required.
As the paper leaves the mill, the recycling process is complete. Yesterday’s newspapers will soon reappear on newsstands across the UK and Europe. The only thing to change will be the stories.
This is taken directly to Veolia’s Woodlands Composting Facility in Whitesmith. The garden waste is shredded and piled into large rows called ‘windrows’. Natural micro-organisms break it down into compost which is screened, sieved and used as soil conditioner in the agricultural industry.
The soil conditioner is also available for residents to buy at all the household waste recycling sites in East Sussex.
Watch a short video to find out what happens to the garden waste we collect.
After the rubbish is collected from your home, it is taken to one of the waste transfer stations in East Sussex, e.g. at Maresfield which is run by East Sussex County Council’s contractor, Veolia Environmental Services. It is then taken to the Energy from waste facility – Newhaven. This uses the heat from burning up to 210 thousand tonnes of waste, per year, to generate electricity for the National Grid to power about 25,000 homes.
The following film shows you what happens to your recycling, how we collect it, how it’s separated and how it’s used again.