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The blackbird hour, when the hedgerows thrill with song
Marshwood Vale, Dorset It’s gentle at first, a fine drizzle of notes, and then the volume swells and they warble full-throatedly
Mid-afternoon on a still, overcast day that feels as if the air will thicken into rain. Clusters of slim, pale, wild daffodils light the under-storey of the roadside hedge, still bare and broken from its winter flailing. In the Victorian language of flowers, they represented hope, folly and unrequited love. Lower down, the bank is patched with early dog violets, their tiny, scentless blooms scrunched into frowns of concentration. Both sides of the lane are splashed yellow with primroses and shiny celandines.
Continue reading...Green chemistry is key to reducing waste and improving sustainablity
The development and evolution of the chemical industry is directly responsible for many of the technological advancements that have emerged since the late 19th century.
However, it was not until the 1980s that the environment became a priority for the chemical industry. This was prompted largely by stricter environmental regulations and a need to address the sector’s poor reputation, particularly due to pollution and industrial accidents.
But the industry is now rapidly improving, and this changing mindset has provided the backdrop for the emergence of green chemistry.
What is green chemistry?Sustainability is becoming increasingly important in almost every industry and chemistry is no different.
Green chemistry aims to minimise the environmental impact of the chemical industry. This includes shifting away from oil to renewable sources where possible.
Green chemistry also prioritises safety, improving energy efficiency and, most importantly, minimising (and ideally) eliminating toxic waste from the very beginning.
Important examples of green chemistry include: phasing out the use of chlorofluorocarbons (CFCs) in refrigerants, which have played a role in creating the ozone hole; developing more efficient ways of making pharmaceuticals, including the well-known painkiller ibuprofen and chemotherapy drug Taxol; and developing cheaper, more efficient solar cells.
The need to adaptMaking chemical compounds, particularly organic molecules (composed predominantly of carbon and hydrogen atoms), is the basis of vast multinational industries from perfumes to plastics, farming to fabric, and dyes to drugs.
In a perfect world, these would be prepared from inexpensive, renewable sources in one practical, efficient, safe and environmentally benign chemical reaction. Unfortunately, with the exception of the chemical processes found in nature, the majority of chemical processes are not completely efficient, require multiple reaction steps and generate hazardous byproducts.
While in the past traditional waste management strategies focused only on the disposal of toxic byproducts, today efforts have shifted to eliminating waste from the outset by making chemical reactions more efficient.
This adjustment has, in part, led to the advent of more sophisticated and effective catalytic reactions, which reduce the amount of waste. The 2001 Chemistry Nobel Laureate Ryoji Noyori stressed that catalytic processes represent “the only methods that offer the rational means of producing useful compounds in an economical, energy-saving and environmentally benign way”.
A secret to cleaner chemistryCatalysts are substances that accelerate reactions, typically by enabling chemical bonds to be broken and/or formed without being consumed in the process. Not only do they speed up reactions, but they can also facilitate chemical transformations that might not otherwise occur.
In principle, only a very small quantity of a catalyst is needed to generate copious amounts of a product, with reduced levels of waste.
The development of new catalytic reactions is one particularly important area of green chemistry. As well as being more environmentally friendly, these processes are also typically more cost effective.
Catalysts take many forms, including biological enzymes, small organic molecules, metals, and particles that provide a better surface for reactions to take place. Roughly 90% of industrial chemical processes use catalysts and at least 15 Nobel Prizes have been awarded for catalysis research. This represents a tremendously important and active area of both fundamental and applied research.
What’s the outlook?In the past 20 years since green chemistry was established, there have been tremendous advances in the industry. Nevertheless, there remains considerable room for improvement.
The chemical industry faces a number of significant challenges, from reducing its dependence on fossil fuels to playing its part in addressing climate change more generally.
Specific challenges include: capturing and fixing carbon dioxide and other greenhouse gases; developing a greater range of biodegradable plastics; reducing the high levels of waste in pharmaceutical drug manufacture; and improving the efficiency of water-splitting employing visible light photocatalysts.
History suggests that society can develop creative solutions to complex, intractable problems. However, success will most likely require a concerted approach across all areas of science, strong leadership, and a willingness to strategically invest in human capital and value fundamental research.
Alex Bissember received a 2015 Green Chemistry for Life Grant from PhosAgro/UNESCO/IUPAC.
Barnaby Joyce wants Australia's Leadbeater's possum off endangered list to boost logging
Deputy prime minister calls for critically endangered status to be downgraded to try to save Victorian logging jobs
Barnaby Joyce is pushing for the conservation status of the critically endangered Leadbeater’s possum to be downgraded to open up areas of protected forests in Victoria for logging, in an effort to save 250 jobs at the Heyfield sawmill.
Joyce wrote to Victorian premier Daniel Andrews on Sunday criticising the decision to reduce the sawlog quota offered to Heyfield mill operators Australian Sustainable Hardwood from 155,000 cubic metres a year to 80,000 cubic metres in 2017-18 and 60,000 cubic metres in 2018-19 and 2019-20, in order to protect habitat used by the possum.
Continue reading...How Horizon Power plans to remove world’s biggest fossil fuel subsidy
Know your NEM: Policy thought bubbles no substitute for security
Australian families are turning to battery storage to beat rising power prices
There is no gas crisis in Australia, but there is an attack on our natural assets
Governments are using the confected gas crisis to push destructive projects like the Pilliga gas project on communities that don’t want them
It’s ludicrous to say there is a gas crisis in Australia when we are set to overtake Qatar to become the world’s biggest gas producer. Australia has plenty of gas to meet our needs and the world has three times as much fossil fuel reserves that can be used to keep global temperature rises below 2C.
We have so much gas that we export most of it. The gas companies are shipping off huge amounts of it because they can reap greater profits overseas, leaving Australian households and businesses to squabble over what’s left at inflated prices.
Continue reading...Elon Musk’s latest tweets: Tesla Model 3 coming, Model Y later
Batteries not configured to remove demand peaks, network says
Graph of the Day: Hazelwood winds down, last of pre-1970 plants
ARENA-backed Manildra Solar Farm reaches financial close
Media won’t let facts get in way of energy scare campaign
Testing for 'defectives'
'Fake research' comes under scrutiny
Trump to sign executive order undoing Obama's clean power plan
EPA head Scott Pruitt, who sued to halt plan as Oklahoma’s AG, claims ending restrictions on coal power plants will be ‘pro-growth and pro-environment’
Donald Trump will on Tuesday sign an executive order to unravel Barack Obama’s plan to curb global warming, the head of the Environmental Protection Agency said on Sunday, claiming the move would be “pro-growth and pro-environment”.
Related: The climate change battle dividing Trump’s America
Continue reading...Five golden rules to help solve your recycling dilemmas
Have you ever found yourself facing your recycling bin, completely befuddled about whether or not you can put a particular item in it? You’re not alone. According to Planet Ark, nearly half of Australians find recycling confusing.
Australia’s recycling rules can seem horrendously complicated, but fortunately they are becoming more simple.
In the meantime, here’s a brief guide to some of the golden rules of kerbside recycling, plus what to do with materials that can’t go in your recycling bin.
The Conversation, CC BY-NDAs the first rule above says, most papers, plastics, metals and glasses can be recycled, but there are a few exceptions and rules for special handling. To find out more, click on each material below. This will also tell you how else you can recycle the items that can’t go in your kerbside recycling bin.
Other helpful sources for recycling rules include:
Planet Ark’s mobile app, online guide and National Recycling Week website.
The Victorian government’s Get it right on bin night and the South Australian government’s Recycle right campaigns.
Sydney’s Garbage Guru, which lets you look up any item and see the best thing to do with it – it’s likely to be applicable to many other cities across the country.
Some items need special handling before they can go in kerbside recycling. These are generally either very small items, or complex/composite items.
Small items, like scraps of paper or foil, steel bottle caps or plastic bottle lids and coffee pods, can cause problems if simply placed in a recycling bin. Because they are small, they can literally fall through the cracks in sorting machines, causing damage to the machines or ending up in landfill.
Combined or composite items are complex items that contain multiple materials, such as newspapers or magazines in plastic wrap, or composite items like Pringles tubes. Automated recycling machines can cope with very small amounts of different materials, such as staples in paper, plastic windows on envelopes, paper labels on glass jars, or slight residues of food on containers. But items with multiple materials can confuse the machines and end up in the wrong category, introducing contamination.
Why is contamination an issue?Contamination is when things that can’t be recycled through kerbside recycling systems end up in the recycling system.
Contamination can create many problems: recyclable materials may need to be dumped in landfill; the output of recycled materials is less pure; workers at recycling facilities can be put at risk; and in some cases machinery can be damaged. All of these lead to increased costs of recycling that may be passed on to residents.
For example, glass recycling programs are designed only to process glass bottles and jars, which are crushed and then melted down and re-used. Drinking glasses, ceramics, plate glass (window panes) and oven-proof glass melt at higher temperatures than normal glass bottles and jars. When these are incorrectly placed in recycling, this tougher glass can remain solid among the melted glass, leading to impure glass products and damaged machinery.
Better technology is helping to remove contaminants during sorting. But it’s always best to get it right at the source. Planet Ark says that a good recycler’s motto is: “If in doubt, leave it out.”
What about things that can’t be recycled at home?Just because something can’t be recycled through kerbside collections, that doesn’t mean it can’t be recycled at all.
New channels for recycling more complex items have been pioneered by organisations such as Planet Ark and TerraCycle, as well as by local councils, industry and government under schemes such as the Australian Packaging Covenant and the National Television and Computer Recycling Scheme.
Most councils have drop-off locations for larger items that can’t go in kerbside bins, such as electronics, batteries, light bulbs, chemicals and hazardous waste, as well as pickups for white goods and mattresses.
Many supermarkets in metro areas have REDcycle bins that accept soft plastics like plastic bags, soft plastic packaging, biscuit packets and trays, dry cleaning bags, and other “scrunchable” plastics.
Industry take-back programs include Fridge Buy Back, TechCollect for electronics, and ReturnMed for unwanted or expired medicines.
Some big companies now have collection points, such as Ikea which take used batteries, light bulbs, mattresses and allen keys, and Aldi which also takes used batteries.
Free Terracycle recycling programs. Adapted from TerraCycle (http://www.terracycle.com.au)Recycling is vital to reducing resource use and waste to landfill, and so getting it right is crucial.
Jenni Downes does not work for, consult, own shares in or receive funding from any company or organisation that would benefit from this article, and has disclosed no relevant affiliations beyond the academic appointment above.
Recycling can be confusing, but it’s getting simpler
At first glance, Australians appear to be good recyclers: ABS figures report that in 2012 about 94% of households participated in some way in kerbside recycling. State waste authorities also report a consistent increase in the volume of materials recovered for recycling.
However, these figures do not justify complacency. Our total household waste is increasing and our kerbside recycling rate – the amount of materials collected for recycling as a percentage of the total waste generated – is actually relatively low by global standards, and is only growing slowly.
The recycling rate increased from 45% in 2007 to 51% in 2011, just creeping above the average of 50% across comparable countries.
One reason our kerbside recycling rate isn’t higher is because many people find the rules confusing: a Planet Ark survey found that 48% of Aussies struggle to figure out what can and can’t be recycled, and many incorrectly identified materials that could be recycled. Much of this is likely due to the variation in rules in different places, and the extent to which recycling has changed in the 35 years since it began in Australia.
Many people are confused about what can and can’t be recycled. Adapted from Planet Ark, 7 Secrets of Successful Recyclers Why is there variation in recycling rules?Every local council makes its own decisions about what it collects for recycling, based on factors like population density, economics, local infrastructure and facilities, waste contracting services available, and potential end markets.
For example, the volume and value of recyclables collected from smaller or remote populations might be too low to be economic, once the costs of collection and transport are factored in. In other words, one size will not fit all council areas.
The type of facilities available to a council also affects what can be collected. For example, combination products like Tetra Pak juice cartons are made of multiple materials: cardboard, plastic and foil linings. Specialised machinery is needed to separate the product into its component materials before it can be recycled and this may not be available in all areas.
In the past the variation between councils was big, as some got access to facilities and new technologies quicker than others.
The good news is things are getting simpler as councils move towards much greater consistency. Now more than 80% of people can place the same things in their recycling bins, by following a few golden rules.
How has recycling changed over time?Household kerbside recycling schemes were introduced in the 1980s, initially in Sydney, and then spread to the other major centres. By the early 1990s nearly half of households had kerbside collections, and by 2014 94% of Australians had access to kerbside recycling.
Early recycling collections used council-provided bags and crates, or boxes or other bins that were provided by the householder. But mobile garbage bins, better known as “wheelie bins”, have steadily gained in popularity and are now the major form of recycling bin provided by councils. This shift was in part driven by waste service contractors desiring greater cost-efficiency.
Initially, recycling had to be sorted into paper and plastic/glass. Over the past 15 years many councils have moved towards “comingled” recycling, in which all recyclables are placed in the one bin. For example, in 2006, only 47% of Sydney councils had comingled recycling, while in 2012, 95% of councils across NSW did.
Research suggests, however, that while comingled recycling is more convenient for households, it leads to lower recovery rates and more contamination than separated recycling.
Again, the shift to comingled recycling is partly due to a desire for reduced costs. While sorting was traditionally done by hand, recycling is increasingly sent straight to automated machines in materials-recovery facilities, which use the physical properties of different materials to separate them from each other.
Is recycling enough?Like most conversations about recycling, so far we have only discussed the “supply” side: how things get recycled. It is also important to recognise the “demand” side: what happens to recycled material.
A strong recycling system requires a closed loop, where there is demand for products made from recycled material. Increased demand supports a more circular economy by providing an incentive for investment in recycling collection schemes and infrastructure.
People who want to be super successful recyclers can increase demand by “buying back” their recycling; looking for products with recycled content, such as toilet paper, wrapping and copy paper, boxes, plastic containers and packaging, as well as bigger items like outdoor furniture and carpet underlay.
Recycling also needs to be considered in its appropriate place in the scheme of things. While it is extremely important to ensure useful materials don’t go to waste in landfill, many might be surprised to know that recycling sits below a number of waste avoidance actions. Recycling and other waste management should be more of a last line of defence.
The ‘waste hierarchy’ prioritises actions by those with the greatest environmental benefit. UTS: Institute for Sustainable FuturesMost of us only think about recycling when we’re disposing of something. However it’s much more effective to think about recycling where we’re acquiring it. For most of us, that is in the supermarket when buying groceries.
When considering a product, if we think about the waste that will be produced when we get home, we could choose refuse to purchase products with too much packaging, thus reducing the amount of waste that needs to be recycled. Similarly, we could buy reusable items instead of single-use, disposable items.
New social movements are also trying to encourage people to be even more creative about how they can avoid waste, introducing concepts like “repair” and “re-gifting” back into our consciousness. They are trying to create an extended waste hierarchy with more emphasis on waste avoidance.
An extended waste hierarchy, focusing on waste avoidance. UTS: Institute for Sustainable FuturesRecycling is vital to reducing resource use and waste to landfill, and getting it right is crucial. But it’s also important for recycling to take its place alongside waste-avoidance actions for a more sustainable lifestyle.
Jenni Downes does not work for, consult, own shares in or receive funding from any company or organisation that would benefit from this article, and has disclosed no relevant affiliations beyond the academic appointment above.
UK energy firms including big six miss smart meter deadline
Ofgem considering further steps to protect billpayers as a result of suppliers’ failure to cut back-bills’ limit from 12 to six months
Britain’s leading energy providers are under fire again after missing a deadline to help households with smart meters avoid being hit with unexpected bills.
Electricity and gas suppliers, including the big six and smaller providers, had pledged that by the end of 2016 they would cut back on sending backdated or catchup bills to customers whose smart meters inaccurately measured their energy usage. However, not one of the big six or dozens of smaller suppliers have met the self-imposed target of cutting the limit for back-bills from 12 months to six months.
Continue reading...Shrinking Arctic sea ice threatens the majestic Beluga whale
The beluga whale is one of the most extraordinary species of marine creature known to science. It is a gregarious, pure white Arctic dweller that emits strange, high-pitched twitters that have given it its nickname: the sea canary. Belugas are on the International Union for the Conservation of Nature’s “near threatened” list, because of past whaling and the impact of water contamination.
Now scientists have discovered that Delphinapterus leucas is facing a new global threat. Like many other species that live in the far north, their lives are being disrupted by global warming, according to Thomas Brown of the Scottish Association for Marine Science (Sams), who has been studying belugas for several years.
Continue reading...