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‘Waste to Energy’ Incineration Industry

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Garbage in, energy out: creating biofuel from plastic waste

An Australian startup has found a way to transform end-of-life plastics into bio-crude fuel. But is this a sustainable solution or just pollution displacement?

https://www.theguardian.com/sustainable-business/2016/jun/21/garbage-in-energy-out-creating-biofuel-from-plastic-waste

A McDonald’s container washed up on the beach.

A McDonald’s container washed up on the beach.

At first glance, the polystyrene container buried amid the beach detritus was unremarkable. Closer inspection however yielded something jarring about this discarded filet-o-fish box. Discovered by locals cleaning up in the wake of a storm last month on a South Australian beach, the polystyrene-based clamshell container bore a stylistically-dated design and logo, yet the packaging itself appeared as good as new.

It wasn’t new – McDonald’s stopped using such containers in 1991, so it had drifted in the Gulf St Vincent and beyond or lain buried within sand dunes for at least two-and-a-half decades.

By the life cycle standards of plastics however, this humble burger container was just beginning its journey; polystyrene foam remains intact for about 500 years before breaking down into chemicals that linger far longer than that.

Historians typically define eras by the type of material civilisations leave behind: the stone age, the bronze age, the iron age. The archeologists of the future may well look back on the modern era as the plastic age, our legacy piling up in landfill, clogging up rivers, floating about the oceans, and choking or poisoning wildlife – and the humans who eat the wildlife – for centuries to come.

If University of Sydney Prof Thomas Maschmeyer has anything to do with it, the historians of tomorrow will have to, at a certain point, refer to a different material to chart human progress. That’s not because he has worked out a way to replace plastic, but rather a way to get rid of it.

Maschmeyer’s renewable energy startup Licella is taking a more refined approach to the idea of waste incineration, pioneering a method to transform end-of-life plastics into a bio-crude petroleum substitute.

Renewable Chemical Technologies Ltd (RCTL), backed by UK energy investor Armstrong Energy, is investing A$10m (£5m) into Licella’s plan to build the world’s first commercial hydrothermal waste upgrading plant. Licella will develop and test a recycling plant in Australia before shipping it to the UK, with the first plant to be integrated into an existing facility, which Licella hopes will be the first of many.

The aim of the partnership is for RCTL to develop projects to convert end-of-life plastics into high-quality oil, suitable for blending into standard hydrocarbon fuels, using Licella’s proprietary catalytic hydrothermal reactor platform that has been developed in partnership with the University of Sydney.

Maschmeyer says the partnership will tackle the issue of what to do with end-of-life plastics – the remnants of mixed plastics with small amounts of paper and cardboard that are left over from more easily recyclable components.

“Dealing with end-of-life plastics is challenging and expensive, as they vary considerably and have traditionally had to be sorted in order to be recycled effectively,” he says.

“This investment will allow for the deployment of our technological solution on a commercial scale, with up to 20,000 tonnes to be transformed from waste to product annually from next year just from the first plant alone,” says Dr Len Humphreys, chair of Licella.

Virgin Australia and Air New Zealand are interested in making use of such fuel, and the process can also turn waste products from the pulp and paper industry into bio-crude, a possibility that has attracted Canadian pulp and paper producer Canfor onboard to develop a full-scale commercial operation.

However, experts warn that bio-crudes are not without their own environmental consequences.

Dr Tom Beer, honorary fellow at the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and former leader of the transport biofuels stream of the CSIRO energy transformed flagship, says turning plastics into bio-crude does present an environmental trade-off in respect to carbon emissions.

“Of the oil that gets extracted out of the ground, about a third is used to produce plastics, which effectively locks the carbon up into plastic,” he says.

“If you then turn it into bio-crude and burn it, that is no longer the case. It depends what you value most, do you want to get plastic out of landfill, and out of the oceans, then fantastic, but it does mean carbon emissions.”

Prof David Cohen, a specialist in the use of nuclear techniques to track fine particle air pollution at the Australian Nuclear Science and Technology Organisation, says carbon would not be the only thing emitted in the use of bio-crude.

“At the front end, production of a product like this is going to involve an energy component to convert it into fuel,” he says.

“Then at the back end, if you convert organic material into fuel and then burn it – then you are going to end up with a combination of carbon, hydrogen, oxygen and byproducts that could include soot, volatile organic carbons and carbon dioxide, which are all not so good for the atmosphere.

“Technologies like these are a step in the right direction, but in my opinion it’s renewable or low emission energies that will deliver the output you want – power – without what is essentially pollution displacement.”

“It’s like squeezing a long balloon. You squeeze the middle and the ends get bigger. You squeeze both ends and the middle gets bigger. You squeeze one end and the rest gets bigger.”

Maschmeyer says that in terms of processing, Licella has managed to dramatically reduce carbon emissions via a groundbreaking technique that involves extracting hydrogen from water, and has a much lower carbon footprint than typical crude oil processing.

“The crude oil refining process takes about 12% of the oil ending up as CO2 before burning the oil, just in the process of taking it out of the ground,” he says.

“What we do is taking something already purified, and all we are doing is re-purifying.”

In terms of the end use of the bio-crude, he says that the economy is not 100% green just yet, and for as long as fossil fuels need to be used – such as in jet fuel – bio-crude is a more environmentally-friendly option given the comparatively lower carbon emissions and the added benefit of removing plastic from the environment.

“It is reusing, not renewable, but whilst [we’re still] using fossil fuels, reuse is certainly more attractive.”

UN climate chief says there is “no space” for new coal

AcidNews June 2015

On 7 May Christina Figueres, the UN climate chief, met with representatives from seven Australian governments to encourage the states and territories to assist the federal government to help deliver a strong global deal at the UN COP21 negotiations in Paris at the end of the year.

She told them that there is “no space” for new coal development and highlighted the benefits of ambitious clean energy.

Asked about the country’s reported lack of enthusiasm for ambitious carbon emissions reductions, Figueres said: “like the oceans, there are ebbs and flows about everything.

We welcome that the federal government is turning in its national target by July and I’m confident it will encompass what the states and territories are doing,” she said. “I’m confident we will be pleasantly surprised.”

Australia’s federal government has begun consulting over emission reduction targets beyond 2020, which will be the main focus of the COP21 climate meeting.

Source: Climate Action/ UNEP press release 7 May 2015 http://www.climateactionprogramme.org/news/un_climate_chief_says_there_is_no_space_for_new_coal

WASTE TECHNOLOGIES: WASTE TO ENERGY FACILITIES

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REVIEW OF STATE-OF-THE-ART WASTE-TO ENERGY TECHNOLOGIES

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INVESTIGATION INTO THE PERFORMANCE OF WASTE TO ENERGY TECHNOLOGIES INTERNATIONALLY

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Review of state-of-the-art for WtE technologies

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