New York's Sunset Park recycling facility has got a very pleasant visitor's center, which provides detailed information on how the plant functions, as well as some hands-on displays for students that lets them experiment a bit with mechanical separation. It's all very clean and appealing; Sims Municipal Recycling, which operates the facility, has done a nice job of sanitizing a very messy process.
One flight upstairs is a walkway that takes you to a viewing platform inside the recycling facility itself (technically the "Material Recovery Facility), and it's a completely different experience. The facility handles waste of various sorts on a massive scale, and the building literally shakes with activity, at the same time your senses are being assaulted with the sights, sounds, and smells of the activity it contains.
Recyclable trash in the city—cans, bottles, plastic containers of all sorts—are required to be placed in transparent plastic bags (blue or clear only, please) and placed on the curb of every building. Picked up by same style of sanitation trucks that handle the refuse, 15,000 tons of that material is brought to the Sunset Park facility every month, either by truck or barge.
Once it's here, the refuse shifts from being a sanitation problem to being a materials science problem. The metals and plastics it contains are valuable only if they are above a certain degree of purity—steel without polycarbonates, polycarbonates without aluminum, and so on. (The visitor's center updates the price you can get for each of the materials it separates) It's possible for trained individuals to separate these different materials out by hand, but it's ferociously expensive and inefficient. The materials science problem, then, is how to separate out each individual component of the waste with minimal human involvement.
The process starts as the material arrives in bulk on sanitation trucks or by a larger truck that helps unload barges. That's dumped onto the floor of the facility, where inspectors remove large items—I saw one pulling out an intact child's bicycle. The rest is then taken by a large front loader and dumped onto a conveyor belt. This begins the process of spreading the recyclables out so that the system doesn't get swamped with more than it can handle. That's continued by a drop that scatters it further and splits it into two streams that are handled in parallel.
Because Europe took to recycling well before the US, the equipment to do this separation is mostly manufactured there; the Sunset Park facility uses equipment from a Dutch company called Bollegraaf. And the company has a finely tuned set of methods for pulling out different materials based on their properties. For example, tin cans are mostly steel, and a large rotating magnetic drum poised above the recycling stream plucks these items out. (This was buried too far inside the facility to see, but the visitor's center had video of it.)
-
All plastics are not the same. Here you can see the distinct chemistry behind some commonly used containers.John Timmer
-
The prices the facility gets for each of the materials it isolates. Note that unrecycled trash has a negative value.John Timmer
-
Trucks and barges deliver the city's recyclables in massive volumes to the facility.John Timmer
-
Massive piles of recycling are gradually shifted inside the facility by a combination of this front loader and the conveyor belt on the left.John Timmer
-
The first ramp ends in a drop that helps spread the material out evenly before it gets into the processing hardware.John Timmer
-
Don't cross the streams! Two streams run through the facility in parallel, created simply by dropping the stream onto a prism-shaped divider.John Timmer
-
On the other side of the divider, the streams move off for separation.John Timmer
-
A wide-angle view of the entire New York Sunset Park recycling facility. Lots of individual machinery is tightly clustered around this three-dimensional system of conveyors.John Timmer
-
You can see multiple streams of material moving through the system here, as well as the large dumpsters where they collect.John Timmer
-
Lots of the action goes on out of sight, behind some of that green metal you can see here.John Timmer
-
Humans are involved in the process, but only as a last-minute catch for things that slipped past the machines. You can see one wearing a yellow smock inside the white structure in the center here.John Timmer
-
The material comes here in plastic bags, and these are pulled out and recycled as well. Here you can see a stream of pure bags after separation.John Timmer
-
These are the dumpsters where a single material's stream ends. Things collect there until they're ready to be sent for baling.John Timmer
-
Here, you can see dumpsters filling up, a pile of material heading for the compressor, and a bale of compressed material on the floor.John Timmer
-
All that material will get smushed down into a single block for shipping.John Timmer.
-
Here, a pile of material inches its way from the dumpster to the compressor that will smash it into a bale. To the left, a forklift shifts a bale to a collecting point.John Timmer
-
The person driving this forklift gives you a sense of the size of the bales used for holding the sorted recyclables.John Timmer
-
A close-up of the recycled glass shows that it had its origin in bottles of many different colors.John Timmer
-
The walkway to the buildings main entrance features a decorative area filled with glass shards.John Timmer
-
Outside the facility, piles of bales await shipment for use in entirely new products.John Timmer
Glass typically comes to the facility pre-crushed by the trucks that carry it. But further equipment grinds it down to small fragments that then fall out of the stream. An area in front of the facility shows off the results: multicolor glass shards are used as decorative fill.
Plastics are formed from a variety of chemically-distinct polymers, as a sign in the visitor's center showed off: a plastic bag is not a soda bottle is not a detergent bottle. Here, Bollegraaf's equipment uses their chemical properties—they absorb different wavelengths of near-infrared light—to pull different types of plastic out of the general stream and into one dedicated to that material.
Human beings are involved in separating the waste stream, but only after the machinery has gotten it into a mostly pure state. They act more like inspectors, plucking out the relatively rare bit of material that's found its way into the wrong stream.
Once a stream is as pure as it's going to get, it gets dumped into a large container, similar to the ones used to collect construction waste. Each type of waste has several of these containers dedicated to it. When they reach a critical point, the ends of the dumpsters open and their contents are pushed out onto a large track. Since several dumpsters all need to empty at once, they open their doors in a synchronized series, laying out a steady flow of material onto the track.
The track ends by dumping it all into a compressor that squeezes it all down into a single rectangular block that was over a meter long on every side. Forklifts carried these to collections outside the facility floor (we saw large metallic cubes while leaving the facilities).
Overall, it's a fantastically impressive operation to visit. While being outdoors in sub-freezing temperatures didn't do much for my video capture, it did help with one issue: there was a distinctive aroma to the flow of trash moving through that I worry would be overpowering on a warm day.
reader comments
88