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Meet the anti-plastic warriors: the pioneers with bold solutions to waste

Meet the anti-plastic warriors: the pioneers with bold solutions to waste


Powered by Guardian.co.ukThis article titled “Meet the anti-plastic warriors: the pioneers with bold solutions to waste” was written by Tim Lewis, for The Observer on Sunday 22nd April 2018 07.00 UTC

Among retailers and manufacturers, they talk of “the Blue Planet effect”. The BBC series, screened late last year, was the moment that many of us realised the catastrophic impact our use of plastics was having on the world’s oceans. Scenes such as a hawksbill turtle snagged in a plastic sack, the albatrosses feeding their chicks plastic or the mother pilot whale grieving for her dead calf, which may have been poisoned by her contaminated milk, are impossible to unsee.

It’s a crisis that affects us all, and the facts make for dispiriting reading. If nothing changes, one study suggests that by 2050 our oceans will have more plastic swimming around, by weight, than fish. It’s already estimated that one third of fish caught in the Channel contain plastic; another piece of research found that “top European shellfish consumers” could potentially consume up to 11,000 pieces of microplastic a year.

Suddenly our use of plastics is firmly on the political and cultural agenda. While impassioned individuals have been pushing to reduce our use of plastics for a few years, the volume of the debate has been turned up dramatically in recent months.

There is hope, too, that the message is getting across. The 5p charge on carrier bags, introduced in 2015, has led to an 85% drop in their use across England; an astonishing 9bn bags. Here, we highlight pioneers who are tackling the issue of plastics in creative ways.

Chelsea Briganti and Leigh Ann Tucker: ‘Imagine a lemon-flavour straw and a grapefruit cup or a vanilla straw for your iced latte’

Leigh Ann Tucker, left, and Chelsea Briganti
Leigh Ann Tucker, left, and Chelsea Briganti inventors of Loliware, edible and hypercompostable straws and cups. Photograph: Christopher Lane/The Observer

Across the US, around 500m plastic straws are used and discarded every single day. “We could fill 125 school buses,” says Leigh Ann Tucker, co-founder of Loliware. The straws are made from polypropylene, a petroleum by-product, which is technically recyclable in large formats, but this is practically impossible with something the size of a straw. “So they end up as landfill or ocean pollutants,” Chelsea Briganti, Loliware’s other half, chips in. “We’re drowning in our plastic.”

Britain sucks, too. Here, we throw away an estimated 8.5bn straws annually, easily the most in Europe. In London alone, more straws are used than the whole of Italy. Most campaigns focus on getting rid of plastic straws or using longer-lasting or biodegradable alternatives and these have had considerable traction – now the UK government has announced a consultation on banning plastic straws.

However, Briganti and Tucker have a more playful solution. This summer in the US, and next year in the UK, they are launching the Lolistraw, a straw that you can drink from and then eat – they call it “biodegr(edible)”.

The main ingredient is seaweed, which can have different flavours or nutrients added. The material can also be fashioned into cups and lids, all of which can be munched on after you’ve finished drinking.

“Imagine a lemon straw with a blood orange lid and a grapefruit cup,” says Briganti, in a call from Beacon, New York, where Loliware has its offices in an old silk factory. “Or a flavoured vanilla straw for your iced latte. There’s an inherent idea that there needs to be a trade-off, but actually we can offer something more exciting. We want to invigorate the discussion of ‘What does sustainability mean now? And how does that benefit me?’, rather than asking people to compromise as a consumer.”

The neologisms do not end there: Loliware has also created a designation called “hypercompostable”. “We wanted to distinguish ourselves from industrial compostable materials such as PLA [polylactic acid] plastic, which is often made from GM corn, because we wanted to show people what real compostability means,” explains Briganti. “If this cup or straw ends up in a waterway, it’ll simply dissolve; if it ends up in the natural environment, it will break down in 60 days.” PLA, meanwhile, though technically biodegradable, can take a long time to decompose (anywhere from 100 to 1,000 years in a landfill) and also needs to be kept separate when it’s recycled because it can contaminate the recycling stream.

Loliware launched in March 2015, but Briganti and Tucker had been working together since they’d met a few years earlier at the Parsons School of Design in New York. Their first product was an edible cup and it immediately caused a stir. In October 2015, Loliware pitched on Shark Tank – the US version of Dragons’ Den – and there was a “shark brawl” as all of the entrepreneurs tore strips off each other to invest.

The original cup proved popular – deals were sealed with the Four Seasons hotel group, 60,000 were bought by Absolut and so on – but at nearly a unit, it was too expensive for mainstream penetration.

That has changed with a new material they call Lolizero, which is “cost-competitive” with paper and PLA. Loliware is currently in discussion with global chains in the coffee and fast-food sectors, as well as more upmarket chains, about using its cups, lids and straws. “Just to give you an idea,” says Tucker. “One big account, replacing 10% of their straws, is so significant it’s in the hundreds of millions.”

Briganti and Tucker are confident their products will make a big dent in the single-use drinks market – and they’re especially proud to have made an impact as a pair of female innovators.

“Women solving the challenges for Mother Earth, if you will,” Briganti says with a laugh. “We have a direct connection with her.”

Vin and Omi: ‘People ask “Is this silk?” No, it’s 11 small Evian bottles’

Fashion designers Vin and Omi photographed in London.
Eco-fashion designers Vin and Omi, who use recycled and salvaged plastic, photographed in London. Photograph: Katherine Anne Rose/The Observer

The eco fashion designers Vin and Omi are tricky men to pin down. They don’t like to use their real names. They are vague about their ages and where they live, though it’s usually either London or New York. It’s not impossible to find photos of them, but they often wear masks or, as was the case at end of one catwalk show, cardboard boxes with holes hastily punched for their eyes. “The Daily Mail called us the Banksys of fashion,” says Omi with a giggle, the slighter of the pair and originally from Singapore, when we meet at the Andaz hotel in east London.

Perhaps inevitably, the pair dislike the tag “fashion designers” too, though they concede this objection is getting harder to sustain now they have shown their clothes a dozen times at London fashion week. They also have enough celebrity admirers to fill Grazia many times over: Michelle Obama, Lady Gaga and Miley Cyrus have all worn Vin + Omi. Walking in their shows they’ve had rappers, Jane Horrocks, the boxer Nicola Adams and “someone from Made in Chelsea”.

But what’s certainly true is that Vin and Omi do not really fit in the fashion world. In an industry famed for waste, excess and ethically dubious practices, they try to do things the right way. They started in 2004, working with latex – “really organic and sustainable!” says Omi – and a doomed attempt to make it breathable. This led them on to plastics and a quest to make beautiful, tactile garments from recycled materials.

“We’re on the cover of Recycling & Waste World soon,” mock-boasts Vin, who has a background as a sculptor and in public art projects.

“It’s brilliant,” adds Omi; away from work, the pair have been married for 17 years. “Instead of Vogue, we get Waste World.”

And yet perhaps the day when they appear in both those market‑leading publications isn’t too far away. Scattered around the hotel room are a selection of clothes, made from 12 fabrics unique to Vin + Omi. They are vibrant and outlandish, some are plain bizarre, but what’s really surprising is how enjoyable they are to hold. Most are made from recycled and often salvaged plastics, but there’s also a no-kill fleece and a “leather-esque” vest made from chestnut skins.

“When the first T-shirt made from plastic came back we were amazed – it was softer than a normal cotton T-shirt by far,” says Vin. “That had to come from Canada, which was a shame, but people would ask, ‘Is this silk?’ And we’d say, ‘No, it’s 11 small plastic Evian bottles.’”

Perhaps their biggest champion is Debbie Harry. Last year, they created the wardrobe for Blondie’s world tour: 12 pieces all made from recycled or salvaged plastic included blouses, capes and an especially eye-catching smock inscribed with “Stop Fucking the Planet” in block capitals. “Debbie said, ‘Just design me anything,’” recalls Vin. “And we said, ‘Are you sure? Right, it’s going to be Stop Fucking the Planet and you’re wearing it.’ And she did.”

Vin and Omi certainly enjoy a mischievous stunt. They are currently collecting Coca-Cola bottles. The beverage giant sells more than 110bn single-use plastic bottles every year according to Greenpeace, and has promised to collect and recycle the equivalent of all its packaging by 2030, but has been lambasted by the environmental group for not setting a target on reducing the amount of plastic it production. When they have enough bottles, Vin and Omi will create a lavish garment and hand-deliver it to Coca-Cola’s CEO. Omi smiles, “The note will say, ‘Look, we can help bring your quota down. You can use this for your marketing.’”

Until now, Vin and Omi have concentrated on one-off, high-fashion pieces, but in the next year or so, they would like to open a shop in London selling more affordable designs. They also hope that more established labels will start to follow their path. “Eventually, plastic will be banned,” predicts Vin, “but in the interim period, if all designers did what we were doing on a larger scale, there would be no plastic in the ocean. They would pay to have salvage operations, because they’d get free raw material. It’s a lot of planning, but it’s worth it.”

Rodrigo García González and Pierre-Yves Paslier: ‘Corporations think they can keep on with the current system but people are desperate to try something else’

Pierre-Yves Paslier, left, and Rodrigo García González with their Ooho! water pouches.
Edible packaging inventors Pierre-Yves Paslier, left, and Rodrigo García González of Skipping Rocks Lab, with their Ooho! water pouches. Photograph: Antonio Olmos/The Observer

When people hear the concept for Ooho!, they often assume it’s a joke. Much like the notion of food pills, the idea of water delivered in a transparent membrane you swallow whole seems too futuristic for 2018. “When we started crowdfunding, people called us fake news,” says Pierre-Yves Paslier, the 30-year-old French co-founder of Skipping Rocks Lab, the east London-based startup that makes Ooho!. “They couldn’t believe it was a real thing.”

“We had to organise events for investors,” adds 33-year-old co-founder, Rodrigo García González, a Spaniard, “so they could touch it, taste it and see it was real.”

I can confirm that Ooho! very much exists, but there is definitely something bizarre about popping the little pouches in your mouth. First, you explode it in your cheek and get a pleasant rush of filtered water. Then you decide what to do with the membrane, which is made from seaweed – you can spit it out – it is biodegradable in four to six weeks – or you can chew it. “It has a bit of texture, it doesn’t really have a specific taste,” explains Paslier. “It’s a texture found a lot in south-east Asian food, but we are not very familiar with it in the west.”

García González and Paslier met while studying for a masters in innovation design engineering, offered jointly by the Royal College of Art and Imperial College London. The idea for Ooho!, says García González, was borrowed from the natural world: “In nature, to contain liquids, such as fruits or eggs, they normally use membranes. It’s the most efficient way to contain any type of liquid, because you need the minimum amount of material.” This led them on to spherification, a process invented in the 1950s that was then used to make fake caviar and had a revival in 2003 at Ferran Adrià’s modernist restaurant, elBulli. Since their discovery, Skipping Rocks Lab has been working out how to refine and package its offering.

There is obviously a market to disrupt here. It’s estimated that 1m plastic bottles are bought every minute around the world. García González and Paslier cheerfully accept that it would be better if everyone carried reusable bottles and there were plenty of water fountains. However, until that’s the case, they believe Ooho! can fill a gap at music festivals, running events, offices and takeaway lunch spots. Ultimately, sachets will be delivered by an on-site dispenser like a coffee machine. These should start rolling out later in the year.

Skipping Rocks Lab believes its technology could be adapted to face other challenges such as disposable cutlery or coffee cups. And its experience of crowdfunding suggests that there is public demand. Recently, it set out to raise £400,000 via Crowdcube; in the event, 900 investors pledged almost £850,000. “People are ready for an alternative,” says Paslier. “The corporations think they can keep on with the current system but people are desperate to switch to something else.”

It might seem surprising that a European-led company would choose Brexit Britain as a base, but García González and Paslier insist they are happy here. They have received strong support from Imperial College and Innovate UK and have a close relationship with other startups such as Aeropowder, which creates new materials from waste feathers. “It’s still really great to be here,” says Paslier. “The clean-tech sector is booming.”

Siân Sutherland:‘What we’re asking for is difficult, but we have to turn off the plastic tap’

Siân Sutherland from A Plastic Planet.
Siân Sutherland, whose campaign group A Plastic Planet wants a plastic-free aisle in every supermarket. Photograph: Sonja Horsman/The Observer

“I’m probably your least likely eco-warrior,” says Siân Sutherland, a 56-year-old British entrepreneur and co-founder of the campaign group A Plastic Planet. I have an idea what she means – she has glitter on her jacket and bag and her blond hair is flecked with blue – but I ask her to clarify. “There’s a bit of a mould isn’t there, where you think, ‘She’s a right old activist.’ You know, knitted armpits, sandals. But there’s a whole new wave now – it doesn’t have to define your look.”

For most of her life, Sutherland had given little thought to the environment. In her 20s, she opened and ran a Michelin-starred restaurant in Soho; she has also set up a design and branding agency and founded a skincare brand for pregnant women. “I did that for 10 years in the UK and the US, so you can imagine that my personal plastic footprint is huge,” she says. “It’s a very competitive space and I didn’t really think about what happens to those white plastic bottles afterwards.”

A Plastic Planet was born when she was asked by an old friend, Frederikke Magnussen, to help with the launch of a documentary, A Plastic Ocean. This was 2016 and, says Sutherland, you had to “strong-arm” anyone to take any interest in the subject. But she and Magnussen quickly realised that this was a problem that went far beyond the oceans and started their campaign.

“You go to your supermarket and it’s a sea of plastic and you have no choice,” says Sutherland. “It’s almost like this human right has been taken from us. So this is really about two unreasonable women saying, ‘Why can it be that we’re now made to feel bad about our shopping habits and we have no choice?’”

Right now, A Plastic Planet has a very straightforward goal: a plastic-free aisle in every supermarket. It focuses on this area because this is where Sutherland and Magnussen believe they can make the greatest difference. In Europe in 2016, 40% of all plastic was used for packaging, and nearly half of that wrapped food and drink. Earlier this year, a Guardian investigation estimated that British supermarkets were responsible for more than 800,000 tonnes of plastic packaging waste every year; that’s enough to bury Greater London 2.5cm deep.

“It’s indefensible for us to use something that is so indestructible as plastic, which we now know is going to exist on the planet for centuries, to just wrap our perishable food and drink in,” Sutherland seethes. “It makes no sense. We just got it wrong.”

A Plastic Planet’s campaign has already made global headlines. The world’s first plastic-free supermarket aisle opened in February in Amsterdam. Ekoplaza, a Dutch chain, had around 700 products at its pilot launch and everything was packaged, just in glass, metal, cardboard or a compostable, plant-based biofilm.

“We really had no idea it would be the media storm that it was,” says Sutherland. “Personally I did 55 interviews in 24 hours. But the story is not: the people of Amsterdam can buy plastic-free; this is a message to the world that we don’t need to wait five years. We don’t need to wait 25 years definitely. I’ll be dead. Half the planet will be dead. We can do it now.”

In the UK, Sutherland has not yet spoken to Theresa May or Michael Gove, the environment secretary, though she offers them both an open invitation. But she has had discussions with the firm Iceland, which has committed to eliminate plastic packaging for all its own-brand products by 2023, and also the Co-op, Asda, Waitrose and Marks & Spencer: “I love the fact that this is not an affordability issue and it can’t be.” A Plastic Planet also receives inquiries from around the world – recently Portugal, Korea and China. “China will save the world in my opinion,” she says.

Sutherland does not lecture individuals – “I’m no plastic saint” – but she thinks the main thing we can do is support any supermarket with a plastics-reduction scheme.

“The quicker they do this, we the public have to make it a success,” she says. “Because I know what we’re asking for is difficult; it is inconvenient, it might have a cost implication. But it’s essential. We can’t hide behind words like ‘recycling’ any more. They are not the solution. We have to turn off the plastic tap.”

Bex Band and Erin Bastian: ‘Every change that’s happened in the history of mankind has come from individuals taking a stance’

Erin Bastian, left, and Bex Band of Paddle Pickup. Photograph by Antonio Olmos for the Observer
Erin Bastian, left, and Bex Band of Paddle Pickup, who clean up Britain’s waterways by kayak. Photograph: Antonio Olmos/The Observer ( With thanks to The Pirate Castle, Camden for equipment)

For the inaugural Paddle Pickup last year a group of women kayaked from Bristol to London. They covered 300km in 15 days, negotiated 151 canal locks and collected 3,240 pieces of plastic pollution. “We pulled out all sorts of weird stuff,” says 29-year-old adventurer Bex Band, who came up with the idea along with Erin Bastian, also 29. “We found a Santa Claus, chairs, bikes, a rubber duck, Viagra. A bag of class A drugs … ”

What did she do with those? “I disposed of the contents and took the plastic away,” Band laughs. “And I thought: ‘Maybe that’s not the right thing to do. Maybe the fish wouldn’t appreciate that.’”

Band first made contact with Bastian, a sea kayak guide and founder of Evoke Adventure, after seeing her website: “We’re both in the adventure scene and it’s quite a small scene,” says Band. The idea for Paddle Pickup came up in that first conversation and two months later they were on the water. The trip was great fun, but their main takeaway was the realisation of just how dirty Britain’s waterways have become. “I had a day in Reading where it was so bad we weren’t even scraping the surface,” says Bastian. “And you can’t help thinking, ‘What difference are we actually making? It’s not even 1% of the plastic that’s there.’”

“It’s a constant battle, where I’m trying to fight this hopelessness,” adds Band. “But if we don’t have hope, we have nothing. People say ‘What’s the point?’ But every change that’s ever happened in the history of mankind has come from individuals taking a stance.”

So, undeterred, Paddle Pickup returns at the end of May and this time they are kayaking from one end of Wales to the other, via the river Severn, again collecting plastic as they go. This trip is 240km, and it’s divided into three, five-day sections. A few places are still available; no previous kayaking experience required.

Why just women? “A lot of women struggle to get involved in adventure because it’s such a competitive and masculine environment and they’re lacking in confidence,” says Band, whose company Love Her Wild specialises in all-female expeditions. “So by making it all women, it breaks down that barrier.”

If last time is anything to go by, the trip will be hard but rewarding. And it might just be the start of something: one woman from the 2017 Paddle Pickup is now cycling around New Zealand, speaking in schools about plastic pollution; another is rowing across the Pacific Ocean. “It’s a ripple effect,” says Bastian. “You go on one adventure and then you’re like: ‘Now I can think bigger.’”

Band and Bastian hope they can inspire informal Paddle Pickups all over the country – and that, as word spreads, change will follow. Band says: “My favourite message from the last trip was one guy who said that he’d read about us in the local paper. He went to buy his lunch that morning as usual and he didn’t buy a water bottle, he used a reusable one. And he said he wasn’t going to buy a [disposable] water bottle again. That’s amazing: we can take away the plastic, but that doesn’t solve the long-term problem. We need people to change their habits.”

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Will the Labrador energy switcher make you switch suppliers?

Will the Labrador energy switcher make you switch suppliers?


Powered by Guardian.co.ukThis article titled “Will the Labrador energy switcher make you switch suppliers?” was written by Adam Vaughan, for The Guardian on Sunday 11th March 2018 16.13 UTC

A device that plugs into a home broadband router and automatically switches supplier when cheaper deals become available is set to revolutionise the home energy market.

The launch of Labrador comes as more and more people are changing their energy companies.

The company’s free service is primarily targeted at the growing number of households which have smart meters, which automate readings. More than 8m have been installed in the UK so far, and energy suppliers have to offer one to every home in the UK by the end of 2020.

Unlike conventional price comparison sites, which require people to actively search for a better deal and input their details and energy use, Labrador will automatically switch people’s accounts when it finds a cheaper tariff.

Jane Lucy, founder and CEO of Labrador, said: “We’re not about behaviour change: we assume consumer lethargy will remain.”

Flipper is a similar service that launched in 2016, relying on accessing a customer’s energy bills, which might be estimated. Labrador believes it will be more accurate, as it use a device that plugs into a customer’s broadband router and talks wirelessly to their smart meters, taking readings direct from them.

While Flipper charges an annual £25 fee, Labrador makes its money like a switching site, by being paid an acquisition fee by suppliers.

Lucy said she expected customers would be switched 1-3 times a year and save on average £300 a year. They are given the choice to tailor their preferences, for example, to just green energy tariffs.

The company has signed up about 500 customers since a soft launch in February, but aims to take 3% of the switching market within five years. In the future the company may branch out into home automation and helping consumers identify individual energy-guzzling appliances, Lucy said.

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Australian homes among first to get Tesla’s Powerwall solar-energy battery

Australian homes among first to get Tesla’s Powerwall solar-energy battery


Powered by Guardian.co.ukThis article titled “Australian homes among first to get Tesla’s Powerwall solar-energy battery” was written by Oliver Milman, for theguardian.com on Friday 18th September 2015 03.08 UTC

Australia will be one of the first countries in the world to get Tesla’s vaunted Powerwall battery storage system, as several other companies scramble to sign up Australia’s growing number of households with solar rooftops.

US firm Tesla said that its 7kWH home energy storage units would be available by the end of the year in Australia, ahead of previous predictions it would arrive in 2016.

The Powerwall is a unit that sits on an interior wall. It has a lithium-ion battery, used to store energy created by solar panels on the household roof.

Tesla, which also makes electric cars, is the most high-profile company in the emerging battery storage industry – an area that is seen as crucial in making intermittent renewable energy such as solar and wind into a reliable accompaniment, or even alternative, to fossil fuel-fired power grids.

Canberra-based firm Reposit Power, which enables people to directly buy and sell their stored electricity, has partnered with Tesla for Powerwall’s launch.

There are a handful of existing Australian alternatives to the Powerwall, such as Redflow, headed by Simon Hackett, who founded Internode. Hackett also sits on the board of the NBN.

“Tesla’s arrival is important because they have such a high profile,” said Prof Anthony Vassallo, a sustainable energy expert at the University of Sydney. “The Tesla product isn’t unique by any stretch, but it’s the Apple brand of the battery storage industry, they have the sex appeal that others don’t.

“Solar PV and batteries are such a wonderful combination. Australians have demonstrated they are quite happy to purchase PV systems, Australia has a great solar resource and to have a battery to store that makes a lot of sense.

“There are packages of PV and batteries being offered by retailers and, as prices come down, we’ll see a lot more of this. Tesla’s price point in the US – of about US,000 (,173) – would be competitive here, it will sharpen up the players to make more efficient and higher-performing systems.”

Vassallo pointed out that the technology still has some way to improve – a 7kWH system will store little more than an hour’s electricity generated by a typical 5kWH solar system, meaning that some people may have to have several Powerwall, or equivalent, systems on their walls.

“I’d be wary of claims that people can go entirely off the grid, but it’s a first step,” he said. “Australia has high electrity prices, and once the price is acceptable I think the take-up will be strong.”

There are more than 1.3m households in Australia with rooftop solar, with the number increasing rapidly as the price of PV systems tumble. State-based tariffs have been gradually withdrawn across the country, while the federal government announced in July that it would instruct the Clean Energy Finance Corporation to favour large-scale solar over rooftop solar in its funding decisions.

Labor has set a target of Australia generating 50% of its electrity from renewable energy by 2030, although has provided little detail on how this would be achieved. The prime minister, Malcolm Turnbull, said the goal was “reckless” as the cost of it has not been quantified.

Vassallo said, “Australia could reach that 50% target, it just requires well-designed policies and markets that allow a transition from centralised, large-scale fossil fuels to efficient but variable renewables.

“Storage is a key part to make that happen. The beauty of renewables is that once you’ve managed the capital cost, there is no fuel cost. There’s an energy security there you don’t get with fossil fuels.”

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The self-healing concrete that can fix its own cracks

The self-healing concrete that can fix its own cracks


Powered by Guardian.co.ukThis article titled “The self-healing concrete that can fix its own cracks” was written by Rosie Spinks, for theguardian.com on Monday 29th June 2015 06.00 UTC

Of all the carbon emitters that surround us every day it’s easy to overlook one of the most ubiquitous: concrete.

The material that builds our buildings, paves our roads and spans our bridges is the most widely produced and consumed material on earth apart from water, according to a WBCSD report. By 2030, urban growth in China and India will place global cement output at 5bn metric tons per year, with current output already responsible for 8% of the global emissions total, according to a WWF report.

Although its environmental impact is far from benign, concrete – defined as the mixture of aggregates, water and the hydraulic powder material known as cement – is incredibly useful and widely applicable. Thanks to its durability, easily-sourced raw materials and thermal resistance, it is unlikely that an alternative building material will replace it on a large scale any time soon.

Hendrik Jonkers, a microbiologist at Delft University and a finalist at the recent 10th annual European Inventor Awards, has a plan to increase the lifespan of concrete. His innovation, which embeds self-activating limestone-producing bacteria into building material, is designed to decrease the amount of new concrete produced and lower maintenance and repair costs for city officials, building owners and homeowners.

Jonkers’ self-healing concrete marries two fields: civil engineering and marine biology.

“One of my colleagues, a civil engineer with no knowledge of microbiology, read about applying limestone-producing bacteria to monuments [to preserve them],” Jonkers said. “He asked me: ‘Is it possible for buildings?’ Then my task was to find the right bacteria that could not only survive being mixed into concrete, but also actively start a self healing process.”

When it comes to Jonkers’ concrete, water is both the problem and the catalyst that activates the solution. Bacteria (Bacillus pseudofirmus or Sporosarcina pasteurii) are mixed and distributed evenly throughout the concrete, but can lie dormant for up to 200 years as long as there is food in the form of particles. It is only with the arrival of concrete’s nemesis itself – rainwater or atmospheric moisture seeping into cracks – that the bacteria starts to produce the limestone that eventually repairs the cracks. It’s a similar process to that carried out by osteoplast cells in our body which make bones.

Healing these cracks the old-fashioned way is no small expense. According to HealCON, the project working on the self-healing concrete, annual maintenance cost for bridges, tunnels and other essential infrastructure in the EU reaches €6bn (£4.2bn) a year.

The invention comes in three forms: a spray that can be applied to existing construction for small cracks that need repairing, a repair mortar for structural repair of large damage and self-healing concrete itself, which can be mixed in quantities as needed. While the spray is commercially available, the latter two are currently in field tests. One application that Jonkers predicts will be widely useful for urban planners is highway infrastructure, where the use of de-icing salts is notoriously detrimental to concrete-paved roads.

Encouraging as it sounds, Jonkers’ self-healing concrete can’t cure very wide cracks or potholes on roads just yet; the technology is currently able to mend cracks up to 0.8mm wide. And while making better concrete is a more feasible approach to sustainable building than shifting to an entirely new building material, that doesn’t mean the innovation is a sure bet. The current cost would be prohibitive for many. A standard-priced cubic meter of concrete is €70, according to Jonkers, while the self-healing variety would cost €100.

John Alker, director of policy at the UK Green Building Council, says the success of any new green infrastructure technology relies on innovators like Jonkers being able to demonstrate the particular benefit of a product, whether that’s around cost or enabling a client to meet environmental targets.

“We’ve seen a lot of innovation around concrete as it is a highly impactful product in terms of the energy that goes into producing it and it’s simultaneously a very important construction product globally,” Alker said. But persuading the construction industry to change its behaviour will be tough, he says. “It comes down to innovative clients and developers being willing to experiment with their building and try and test these materials and prove a track record before others will follow.”

Though Jonkers is aware of the challenges of reaching wide adoption of the material, he points out that in particularly vulnerable environments – such as coastal communities or tropical regions that are increasingly experiencing extreme rainfall – some are already seeing the cost-benefit analysis of using this technology from the outset.

“We did a project in Ecuador where we made a concrete canal and irrigation system with self-healing concrete,” Jonkers said. “We are doing tests all over the world in developing countries where they realise that though this is more expensive than current tech, they see the profit because they will have to avoid repair down the line.”

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The streets were paved with algae: a greener material?

The streets were paved with algae: a greener material?


Powered by Guardian.co.ukThis article titled “The streets were paved with algae: a greener material?” was written by Rich McEachran, for theguardian.com on Monday 8th June 2015 12.38 UTC

The process of surfacing a road isn’t complicated. Layers of asphalt, which is composed mostly of bitumen (a byproduct of crude oil distillation), are poured over an aggregate of crushed stone and sand; the asphalt acts as a glue, binding the mixture together to form asphalt concrete.

Maintaining the roads, however, is a costly job. According to the Asphalt Industry Alliance it would cost more than £12bn to restore all road networks in England alone to a reasonable condition.

Simon Hesp, a professor and chemical engineer at Queen’s University in Ontario, believes standard industry asphalt is not sustainable. “The problem with the composition is that it’s poorly controlled … it uses materials with poor performances,” he says. Hesp says the presence of certain oil residues lowers the quality of the concrete and is a key reason why roads are failing and many potholes need to be filled and cracks fixed.

But there’s not just a maintenance cost. Asphalt, dependent as it is on the oil industry, is resource- and energy-intensive, which is why the race is on to develop a greener alternative.

In Sydney an experiment is under way using printer toner waste blended with recycled oil to produce an environmentally friendly asphalt. And in the past few years there have been studies into the development of non-petroleum bioasphalts.

At Washington State University researchers developed asphalt from cooking oil, and last year academics at Wageningen University in the Netherlands found that lignin – a natural substance found in plants and trees – is another suitable replacement for crude oil bitumen. Other investigations have looked into the use of soybean and canola oil (rapeseed oil) and coffee grounds.

The WSU research, led by Haifang Wen and published at the end of 2013, concluded that the introduction of cooking oil can increase bioasphalt’s resistance to cracking . Wenn also claims it’s possible that, if commercialised, such bioasphalts could cost much less per tonne. The price of standard asphalt can fluctuate wildly as it’s dependent on the price of oil.

Hesp isn’t convinced that cooking oil is the way forward. He says, like petroleum, over time it will cause roads to fail because of weak bonds.

Bruno Bujoli, director of research at CNRS (Centre National de la Recherche Scientifique), agrees that the use of cooking oil “chemically modified to reach appropriate mechanical properties” could significantly affect quality. He also sounds a note of caution about food security, saying that asphalt based on vegetable oils could, if scaled up, affect food stocks

Bujoli recently played a key role in developing a bioasphalt from microalgae. It uses a process known as hydrothermal liquefaction, which is used to convert waste biomass, including wood and sewage, into biocrude oil. The chemical composition of the microalgae bioasphalt differs from petroleum-derived asphalt, but initial tests have concluded that it also bears similar viscous properties and can bind aggregates together efficiently, as well as being able to cope with loads such as vehicles.

How it will perform over time is yet to be determined. The findings were published in April.

Green roads

Bujoli suggests that microalgae – also known for its use in the production of cosmetic and textile dyes – is a greener and more appropriate solution than agricultural oils. The latter, he says, should be kept for food production.

“The benefits of microalgae over other sources include low competition for arable land, high per hectare biomass yields and large harvesting turnovers. There is also the opportunity to recycle wastewater and carbon dioxide as a way of contributing to sustainable development,” he adds.

It’s a neat idea, with an admirable green mission behind it, but how much of an impact can it really have? Technology such as this is still in its infancy, suggests Heather Dylla, director of sustainable engineering at the National Asphalt Pavement Association, a US trade organisation for the paving industry.

“A lot of interesting work is being done in this area, looking at everything from algae, to swine waste, to byproducts from paper making. It’s worth exploring these alternatives, but we need to be sure they provide equivalent or improved engineering properties. We need to understand how they affect the recyclability of asphalt pavement mixtures,” she says.

She points to the “unique” advantage of asphalt when it comes to recycling. “Not only are the aggregates, which make up about 95% of [asphalt concrete], put back to use, but the bitumen can also be reactivated and used again as the glue that holds a pavement together.”

Microalgae could yet put the paving industry on the road to a greener future. For now though, there are plenty of challenges – from price to scalability – for Bujoli and his team to address if the bioasphalt is to be commercialised.

“This is our research focus for the near future. Our current laboratory equipment works in a batch mode,” explains Bujoli. “Scaling up the process will require the design of a large-volume reactor that can operate under continuous flow conditions.”

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Tesla’s new low-cost battery: ‘the missing piece’ in sustainable energy?

Tesla’s new low-cost battery: ‘the missing piece’ in sustainable energy?


Powered by Guardian.co.ukThis article titled “Tesla’s new low-cost battery: ‘the missing piece’ in sustainable energy?” was written by Sam Thielman in New York, for theguardian.com on Friday 1st May 2015 12.12 UTC

Will the world become battery-powered? That’s certainly the ambition of Elon Musk, the PayPal billionaire turned would-be space explorer and electric car baron.

On Thursday night, Musk unveiled what he called “the missing piece” in sustainable energy: a range of batteries that can be used in homes and businesses to store power from wind or solar or take advantage of cheap electricity to charge up overnight and then be used in peak hours.

Two billion Powerpacks – as the batteries are called – could store enough electricity to meet the entire world’s needs.

“That may seem like an insane number,” Musk said. “We’re talking about trying to change the fundamental energy infrastructure of the world.”

The first place to feel the battery charge will be Nevada. Next year, Musk’s Tesla Motors is set to start operating a power-storage-device “gigafactory” across nearly a thousand acres of Nevada real estate. It’s required to contribute .5bn to the local economy, in return for a .25bn tax break.

Battery expert Davide Andrea, an engineer at Colorado-based battery manufacturer Elithion, worries about costs. The most basic home unit will cost ,500. No details have yet emerged about the cost of the large units Tesla is reportedly supplying to companies including Apple and Google to help manage their power supplies.

“Electricity is way too cheap to store in an expensive battery,” Andrea said. “It’s like saying I’m going to be storing my potatoes in a safe. Potatoes are too cheap to store in a safe.”

But Andrea is sold on the idea that batteries are part of a more efficient energy future. He is currently involved in a new project in Boulder to install batteries in homes, in order to ease the strain on power plants and avoid costly rewiring as the sizes of neighborhoods change.

Felix Kramer, a clean energy entrepreneur in California, said he hopes Musk’s presentation on Thursday evening changes minds.

“Tesla demolished the idea that EVs [electric vehicles] were golf carts,” Kramer said. “And maybe they’re about to do it again now. Maybe they’re about to demolish the idea that we can’t switch from coal and gas to wind and solar because of reliability issues. If they convince consumers, that changes the conversation.”

But Andrea and Kramer are enthusiastic about the possibility of greater infrastructure improvements with greater adoption of electric cars. Power provision could get a lot more efficient if cities can be persuaded to draw power from those car batteries, as well as supplying it. That would provide electricity and diminish local reliance on expensive, fossil fuel-powered generators during times of peak demand – when everyone in New York turns on the air conditioner, for example. Nissan is already trying to do this with the Leaf in Japan.

“In a home, the cost of the storage becomes much more important,” Andrea said. “It solves so many problems – the power company no longer has to turn on a dirty power plant during high-demand times. You can use the present wire infrastructure.”

If those sound like lofty goals, they had frankly better be: Musk will have to impress a great many people in order to justify the gobs of money the state of Nevada is giving him – the gigafactory will be allowed to operate essentially tax-free for 10 years and won’t pay property taxes for another 10 afterward. Beyond even that, the state is giving Tesla m in transferable tax credits, which the company can sell to other businesses in the region.

Nor is it the first time Musk has asked the government to chip in: SpaceX receives 5m in help from Nasa.

Still, if Musk’s batteries can merge wind, solar and electric car power into existing grids, that would constitute tremendous economic savings for cash-strapped municipalities everywhere.

“This is within the power of humanity to do,” Musk told the large crowd gathered at Tesla’s design center in a Los Angeles suburb on Thursday. “We have done things like this before. It is not impossible.”

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Seven things you need to know about sustainable smart technology

Seven things you need to know about sustainable smart technology


Powered by Guardian.co.ukThis article titled “Seven things you need to know about sustainable smart technology” was written by Marcus Alexander Thompson, for theguardian.com on Friday 17th April 2015 11.41 UTC

1. What is a smart machine?

It’s a cognitive, contextually aware computing system capable of making decisions without human intervention. Smart machines use machine learning and data catchments to perform work traditionally conducted by humans. They are supposed to boost efficiency and productivity, and are being pegged as a major component in building a sustainable future.

2. The range of possibility for sustainability applications of smart machines is endless …

But, like all burgeoning technologies, the limits of sustainability within this future are not yet clear. Much will be based on which smart technologies society adopts. What we do know is the smart tech revolution is the first industrial movement that holds sustainability at the forefront of its development, and that’s a good thing.

3. We don’t need to kill the forest to save a tree

Replacing manual services with smart tech is expected to significantly reduce energy consumption. But the energy required to develop, build, run and service smart technology products must be considered. This video about two men cutting grass demonstrates the redundancy of overcapitalising on technology and the dangers of manufacturing a dependancy on regressive technology.

“While I believe, in general, that we’ll save energy by incorporating these machines into our lives, we have to be mindful that they themselves consume energy”, says Marshall Cox, founder and CEO of Radiator Labs.

4. Will smart technology make us stupid?

The successful integration of smart technology will see the enhancement of creative thought. The workforce will need an increasing skill level as more and more mundane work is overtaken. There are concerns that through automation and algorithm technology, human development could be stunted and lulled into complacency. It’s important to be aware of this threat. That said, there were similar fears heading into the industrial revolution and we work harder now than ever.

Philip van Allen, interaction designer, educator and creative technologist says: “There’s a lot of potential here, smart doesn’t always mean super intelligent. If our systems can understand our context, and have access to a lot of relevant information, they can present us with interesting options.”

5. They took our jobs! What are the implications of smart machines in work?

Reducing the human workforce to subservient drones isn’t in anyone’s interest, but it’s unlikely that progress will spiral out of human control. The aspirational focus is for smart machines to enable us to be more productive and flexible. By using them we can make more efficient, sustainable use of our resources.

“From a workforce point of view, smarter machines make us more productive and this allows us to focus on value-added activities”, says Maria Hernandez from Cisco Systems.

6. Technology makes errors, but so do humans

Performance failure is raised as a frequent concern whenever smart tech is involved, especially when we are looking at self-driving vehicles and other sectors where human life could be directly affected by smart machines. There is an argument that the systems should be intelligent enough to work out areas of poor performance and correct themselves. But nothing is fail-proof and it would be naive to think smart tech will be. There will be bugs in the beginning, but hopefully the collateral eggs in this omelette are minimal.

In the best-case scenario, we’ll combine smart technology with the agility of human decision-making to make sustainable and safe decisions. For example, says Chris Bilton, director of research and technology at BT, “The machine provides you with real-time information and you have the choice as to what action to take. This makes you think actively about your behaviours”.

7. It’s coming. Evolve or move aside

Hate it or love it, be prepared for smart technology to become a much bigger part of your life. It offers unbounded potential to improve our lives and enhance sustainability from all angles – home, health, manufacturing, work, transport, energy and leisure. But we also need to address issues such as IT security, skills and labour market problems. At the forefront we need to ensure that smart machines are enabling devices and not controlling mechanisms.

“The intelligence needs to be implemented in a way that augments our creative thinking rather than replaces it, and we need to consider where those boundaries lie,” says Stephen Barker, head of energy and environmental care at Siemens.

In the end, human capital must always remain dominant. “One might say that our humanity is found in what lies between a 1 and a 0,” says Jeff Wilson, dean of Huston-Tillotson University and “professor dumpster”. “That ‘in between’ is not within a machine’s capability. To me that ‘in between’ space will be ours”.

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