Kedel Recycled Plastics

The Problems Presented By Plastic Misuse & How To Combat Them 

Today plastics dominate our lives. We use a shocking amount of plastic on a daily basis, often without even realising it. Some of the day to day plastic that we use includes plastic carrier bags, water bottles, the packaging that our food is wrapped in, beauty products, sanitary towels and cleaning products.

According to the United Nations Environmental Program, between 22 percent and 43 percent of the plastic used worldwide is disposed of in landfills. All this plastic is being wasted and more importantly, causing huge environmental problems.

It releases toxic chemicals into the atmosphere when burnt, kills ocean life and leaves unnecessary waste all over our planet. Experts are now describing some of the oceans around Australia as a ‘plastic soup’ filled with all sorts of plastic debris. Is this really how we want to treat our planet?

Plastics are here to stay. Literally. In the environment plastics will photodegrade which means they break up into smaller and smaller pieces, but they won’t disappear. To manage the build up of our waste we have a few different options: landfill, burn, or attempt to recycle.

Plastic is a killer. It kills millions of seabirds and ocean creatures every year who get caught up in plastic debris and discarded fishing nets, or end up trying to ingest plastic. In recognition of their impact countries such as Bangladesh or China banned the use of single plastic bags fourteen years ago.  The UK introduced a charge on single use plastic carrier bags in 2015.

What can you do to help?

Environmental and health issues are down to human behaviour. The good news is that this means that there is a recognisable solution, behaviour change. The bad news is that changing people’s behaviour worldwide isn’t an easy task. Plastic is one of the biggest environmental problems, yet it has a pretty straightforward solution: change behaviour.

Reduce, Reuse, Recycle kendal plastics features 2

Three simple words to live by.  If we can reduce our consumption that is great.  If you have to buy plastic then at least make an effort to reuse it. Many things can be safely reused over and over again. If you cannot reuse something then recycle it.  A lot of plastics can’t be recycled so do check with your local authority.

Plastic water bottles

Can you invest in a long lasting bottle and save yourself the hassle and money of buying single use plastic bottles? People spend a lot more than they realise on plastic bottles each year, you could save quite a bit of money by investing in a reusable water bottle.

If you are caught out and you need to buy a plastic bottle, try and remember to take the lid off and rinse it out when you recycle it.  Young children overseas painstakingly unscrew every bottle top from the plastic bottles so that the bottles can be recycled (different plastics) that high income countries ship for recycling.

Food shopping

Instead of using plastic bags, get into the habit of carrying a small foldaway bag in your handbag. Also when you are buying your weekly food shop, or any products, try and avoid buying things with lots of plastic packaging.

Make a song and dance

We need to start questioning companies not only why they are using so much plastic (it costs the earth but it also costs them and therefore us). Excessive packaging equals higher charges for us.

Can they look at innovative ways to protect our produce?  Does a beauty or hygiene product really need plastic in it? It’s frustrating that more supermarkets don’t provide biodegradable bags such as corn based for fruit and vegetables. Don’t be afraid to question companies and try and inspire change.

These are just some of the things you can do to help. There are so many ways you can alter your lifestyle in order to help the environment. You might not think you can personally make a huge difference, but every little helps.

David is an expert on recycling and is passionate about helping to save our planet. He regularly writes for environmental, eco-living and recycling websites and is a key writer for kedel.co.uk, a company that sells recycled plastics.

Here are Facebook and Twitter links

Please note…

This post was written by the contributor and  is  a PfU.K. Directory submission.

And the Pf U.K. Directory is…?

…a directory of UK-based groups, organisations businesses and individuals who are responding to the problems presented by the misuse of plastic. That does not mean anti-plastic necessarily but certainly plastic-problem aware.

The DIRECTORY is to promote their fantastic work. Read more here…

Got a project?
It is very easy to get a project featured. Each contributor submits a short synopsis of their project, focussing on the plastic aware element and I post it. You can read the submission guidelines here.

 

Incineration

Incineration is to dispose of waste materials by burning them. The end results are heat, ash and gases.
High-temperature waste treatment systems are described as “thermal treatment”.
Incinerating reduces the need for landfill but does not eliminate it. It reduces the soid mass of waste by 80–85% . The reamaining ashes still have to be disposed of.

The Process of Incineration

A dump truck drops the municipal waste into a warehouse-sized pit. Then a giant claw (much like one that picks up loot in an arcade game) grabs nearly a truckload of garbage and dumps it into an incinerator.

The incinerator is initially fired up with gas or other combustible material.

The process is then sustained by the waste itself. Complete waste combustion requires a temperature of 850º C for at least two seconds but most plants raise it to higher temperatures to reduce organic substances containing chlorine. Flue gases are then sent to scrubbers which remove all dangerous chemicals from them. To reduce dioxin in the chimneys where they are normally formed, cooling systems are introduced in the chimneys. Chimneys are required to be at least 9 meters above existing structures.

Technology developed in Europe mixes the waste at temperatures of up to 2,000 degrees Fahrenheit. The heat then makes steam, which runs a turbine and produces electricity.

sources

http://www.brighthubengineering.com/structural-engineering/89810-pros-and-cons-of-incineration-for-landfill-relief/

https://www.scientificamerican.com/article/does-burning-garbage-to-produce-energy-make-sense/

The Advantages Of Incineration & Waste To Energy

Pathogens and toxins can be destroyed by high temperatures making incineration a very good choice for certain kinds of waste.

Unlike  landfill  there is no release of methane. Every ton of MSW incinerated, prevents about one ton of carbon dioxide equivalents from being released to the atmosphere.

The leachates that are produced in landfills by waste are totally eliminated.

By reducing waste it reduces the pressure on landfill space.

Emmisions (Copied from Slate)

As for carbon dioxide—the big class of emissions that isn’t yet regulated—WTE actually performs quite well compared with other methods of electricity generation. On its face, WTE appears to be very carbon-intensive. The EPA reports that incinerating garbage releases 2,988 pounds of CO2 per megawatt hour of electricity produced. That compares unfavorably with coal (2,249 pounds/megawatt hour) and natural gas (1,135 pounds/megawatt hour). But most of the stuff burned in WTE processes—such as paper, food, wood, and other stuff created of biomass—would have released the CO2 embedded in it over time, aspart of the Earth’s natural carbon cycle.” As a result, the EPA notes, only about one-third of the CO2 emissions associated with waste-to-energy can be ascribed to fossil fuels, i.e., burning the coal or natural gas necessary to incinerate the garbage. In other words, WTE really only produces 986 pounds of carbon dioxide per megawatt hour. “So we’re roughly equivalent to natural gas, and half of coal,” Michaels says. “But coal and natural gas don’t manage solid waste.”

However not all good news….

The ashes are toxic and so need further treatment. As such they were cause for concern  however “Ash from modern incinerators is vitrified at temperatures of 1,000 °C (1,830 °F) to 1,100 °C (2,010 °F), reducing the leachability and toxicity of residue. As a result, special landfills are generally no longer required for incinerator ash from municipal waste streams”

The gases too need to be “cleaned” of pollutants before they are dispersed into the atmosphere. proponents of the technology claim that the flue scrubbers are up to the job while many others feel there is cause for concern.

Waste To Energy Systems

The heat created when incinerating the waste is used to make electricity which seems like a good idea.

It is important to remember that waste to energy systems do not make money or even cover the cost of waste incineration but they do offset it.

The plants  are very expensive to build and once built need a lot of fuel (waste) to run them. They need to be kept running. This means that alternatives forms of waste disposal like recycling are no longer promoted.

Here are some figures from 2009 for  Spokane County

WASTE TO ENERGY FACILITY

Mandatory service area: Spokane County / 430,000 ratepayers
Type of contract: Full service/Operate Wheelabrator / Waste Management
Ownership: City of Spokane 
Financing ($110 million): Revenue Bonds – Mandatory debt to entire County
Department of Ecology Grant ($60 million)
Start-up: 1991
Expenses and Revenues for 2009:
   Cost of Operation   $17.2 million  ($62 per ton)
   Cost of Ash Disposal   $4.1 million ($47 per ton)
   Cost of Debt  $9 million
TOTAL COSTS   $30.3 million
   Electricity Revenue   $11.4 million
Materials Recovery  
$0.1 million
NET COST OF OPERATIONS  
$18.8million ($68 per ton)

Refuse Combustion:

Operation: 24-hours per day, 7 days per week
Process Lines: 2 @ 400 tons-per-day
Plant maximum daily capacity: 800 tons
Average thru-put: 720 tons per day (365 days per year)
Feed system: 2 overhead refuse cranes with ram feeder
Grate design: Von Roll reciprocating
Combustion temperature: 2500° F
Auxiliary fuel: Natural gas
Waste weight reduction: 65%
Annual Greenhouse Gas Production 600,000,000 Pounds CO2
CO2 per MWH 4480 pounds of total CO2 per Megawatt Hour:
1580 pounds of fossil CO2 / MWh plus,
2900 pounds of bio CO2 / MWh
BTU values:
Garbage = 4,800/pound
Coal = 12,000/pound
Plastic = 14,000/pound
Tires = 16,000/pound

The Friends Of The Earth worries about the waste of resources.  The Following was taken from the website

Resource efficiency: Incineration wastes valuable resources such as metals, plastics, wood or biodegradable materials that could otherwise be salvaged through recycling. Every tonne of incinerated materials has to be extracted and processed again, increasing environmental damage and the European economy’s dependence on expensive imports. More energy is saved through recycling than is extracted by burning most waste

Climate change: Incineration produces greenhouse gas emissions – a typical incinerator converting waste to electricity produces around 33 percent more fossil fuel-derived carbon dioxide than a gas-fired power station. In contrast, recycling saves greenhouse gas emissions by avoiding the need to extract and process primary resources.

Jobs: Recycling creates jobs. Recycling 10,000 tonnes of waste creates up to 250 jobs, compared to 20 to 40 jobs if the waste is incinerated, and about 10 if it is landfilled.

Laura Haight, senior environmental associate at New York Public Interest Research Group (NYPIRG), says that if the petition passes, waste will take incentives away from more sustainable technologies like wind and solar. She also says that presenting the issue as though incineration offsets landfill emissions is the wrong approach.

“In framing this whole debate as incineration versus landfills, they’re pushing the needle back 20 years,” said Haight. “Twenty years ago, people used to say we need to do more recycling; now we’re talking about more burying or burning. No, we need to be doing more recycling.”

Haight points out that more energy is saved by reusing materials instead of destroying them. Also, rather than being burned, biomass could be composted and used for energy recovery, she said.

More information on waste to energy can be found here

Plastic to Energy

Burning Plastic On Open Fires 

NB Burning plastic on open fires can release carcinogens and toxins…

post

Some U.K. Recycling Stats

Here are a few statistic to whet your appetite. There are plenty more throughout the blog.

Our previous work had suggested that bottled water production was an energy-intensive process, but we were surprised to see that the energy equivalent of nearly 17 million barrels of oil are required to produce the PET bottles alone,” Cooley told PhysOrg.com.

From Container Recycling

Around 899 thousand tons of PET plastic bottles were recycled nationwide in 2013, but more than two times as much PET was wasted: 2 million tons.*

*Notes/Calculations:

Recycled: (1,798 million pounds/2,000)*1,000,000 = 899,000 tons
Total: 5,764 million pounds produced
Wasted: (3,966 million pounds*1,000,000)/2,000 = 1,983,000 tons

Plastic Sats

According to the United Kingdom (UK) Government, in 2008 the total environmental cost of waste sent to landfill and incinerators within the United Kingdom (UK)was £211 million and £125 million, respectively. ( the big green book)

Daily Mail 

In September last year, England’s household recycling rate stood at 43.9 per cent – a decline from 44.1 per cent in 2012.

And according to Pledge4Plastics, the average UK home uses 440 plastic bottles a year, but recycles just 250 of them.

One in five people admit they don’t recycle fizzy drink or milk bottles, while a quarter don’t put juice or water bottles in the correct bin.

Some 5 billion plastic bottles were sent to UK landfill sites last year.

From Gov.UK 2011

In 2011 the UK disposed of an estimated 10.8 million tonnes of packaging waste, of which around 67% was recovered. In 1998 only 27% of packaging waste was recovered.

2011 recovery and recycling achievement data

Total packaging waste arising (tonnes) Total recovered/recyled (tonnes) EU Target (%) Recovery/recycling rate (%)
Paper 3,817,860 3,232,461 60 84.8
Paper composting 6,727
Glass 2,739,989 1,751,852 60 63.9
Aluminium 160,877 73,683 45.8
Steel 648,740 373,714 57.6
Metal 447,397 50 55.3
Plastic 2,515,809 609,910 22.5 24.2
Wood composting 442
Wood 1,023,939 600,276 15 58.7
Other 22,443
Total recycling 6,649,065 55 60.8
Energy from Waste 685,612
Total Recovery 10,929,657 6,641,896 60.0 67.1

More

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