Tagged with renewable energy

‘Limitless Applications’: The ‘Magic Powder’ That Could Prevent Future Crises

It sounds like a distant dystopian crisis: a world where global food and water supply chains buckle under the strain of overpopulation and climate change, before being contaminated by weapons of mass destruction unleashed in a desperate fight for access to what little is left.

Photo: article supplied

While the crisis may not be as unrealistic or far away as it seems, scientists are already coming up with potential solutions. One is the curiously named metal organic frameworks (MOFs), a powder of nano-engineered crystals with an apparently endless variety of uses.

One teaspoon of these crystals contain the surface area of an entire football field, and scientists have been able to customise them to absorb and store vast quantities of a desired substance.

In 1998 Professor Omar Yaghi, a chemist who now works at the University of California, Berkeley, made the breakthrough that showed it was possible to craft structures that can be imagined as metal scaffolding at a molecular level, bound together by organic links.

Less than two decades later, MOFs are being applied to purposes that even he could not have imagined, many of which would be particularly handy in a world falling apart – such as fabrics that can protect against chemical weapons, devices that can artificially replicate photosynthesis to transform carbon emissions into oxygen, and glowing crystals that can detect and trap contaminants in water.

Yaghi himself has developed a MOF that enables the harvesting of moisture out of the sky, and unlike other technologies that can already do this in high-humidity areas, the device using Yaghi’s powder works in the dry desertified conditions that are gradually expanding around the globe.

“We are living in an uncertain time,” Yaghi observes, “and fresh water is going to be one of the most precious and sought-after resources to humanity.”

In 2014, Yaghi reached out to MIT mechanical engineer professor Evelyn Wang about creating a machine capable of using his MOF technology. Wang and her team developed a transparent box with a top surface painted black to absorb solar heat, which prompts a reaction that delivers enough drinking water for a person’s daily needs with 1kg of the powder, even in areas of 20% air humidity.

“During the night, these MOFs soak up the water from air, and when the sun comes up, the MOFs will release water to be collected due to the warmth of the sun,” Yaghi says. “Then these empty MOFs will be ready to absorb water from the air at night again.”

Yaghi hopes these devices will enable people to access what he calls “personalised water” – off-grid and free of any impurities.

This article was originally published by The Guardian.

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New Printed Batteries To Transform Australian Renewables

Solar panels could soon be made with their own embedded battery storage in what is an Australian global first.

Batteries would be laminated to the back of the panels and deliver “in-built” storage, making it eventually standard for them to deliver energy day or night as required.

It’s one of several plans for ultra-thin, flexible screen-printed batteries that could eventuate within three years and offer new opportunities for manufacturing.

Currently companies such as Tesla and South Australia’s Redflow offer solar panel and battery solutions, but the batteries are separate entities. If this idea takes hold, printed-on storage could be part of an ordinary solar panel.

printed batteries

Photo: article supplied

Because they can be printed in any shape, printed batteries could also power electronic skin treatment patches and other wearable technology.

The project is being undertaken by Printed Energy Pty Ltd, an investee company within the St Baker Energy Innovation Fund, in collaboration with two of Australia’s leading universities in the field of energy storage and materials science, the University of Queensland and the University of New South Wales.

Printed Energy is the principal financial backer. It is providing $1.5 million in direct funding for the project, and $6 million in-kind assistance.

Trevor St Baker, founder of ERM Power and the St Baker Energy Innovation Fund, said printed batteries could transform everyday life.

“Unlike traditional batteries, the printed battery can be any shape required for the specific application, such as wearable electronics and medical and healthcare products such as skin treatment patches,” he said.

“It’s literally the printing of solid state batteries in a thin, flexible format that can be adapted to almost any shape.”

He said printed batteries would transform solar generation from day time energy generation to night time energy delivery.

The $12 million project has also received another shot in the arm: a $2 million grant from the Australian Government’s Cooperative Research Centres Projects scheme.

University of NSW Dean Mark Hoffman hailed the breakthrough as delivering the missing piece of the puzzle for renewable energy.

“The world is crying out for storage solutions, and this partnership has the potential to deliver on that urgent need. What’s exciting is that this technology also has immediate applications in wearables and small-scale devices.”

Chris Greig, director of The University of Queensland Dow Centre for Sustainable Engineering Innovation and the UQ Energy Initiative is enthused about how the technology could transform Australian manufacturing.

This article was originally published by The Australian.

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Community Energy Opportunities in Regional Australia

In 2016 the ACT government committed to a target of 100% renewable energy by 2020, moving the target forward and reflecting a growing commitment by sub-national and local governments, and city administrations to changing their energy dependencies and the energy mix, and decentralising the energy production process (reference – Paris Council of the Parties on Climate Change in 2015).

Governments are recognising the growing interest in renewable energy in their constituencies, and in fact the public is arguably leading the political agenda.

Dr Kate Auty

The regional Victorian experience in relation to community energy is instructive.

Daylesford began a conversation about two community owned wind turbines a decade ago.  That community is now held up as an example of change. They engaged in a massive amount of community discussion, forged a new way of funding the proposal, built constructive relationships with government, and then built two turbines which now produce the energy for the township. Recently they celebrated their success.  Soren Hermansen, the Danish community energy advocate from the island of Samso, a world energy transition leader embraced their work. Regional small towns Newstead and Yackandandah are working towards a 100% commitment.

Seymour and Euroa have formed a community alliance and been afforded a small grant to conduct a pre-feasibility study for pumped hydro energy storage in respect of three dams in the Strathbogie Ranges and the Trawool reservoir above the Goulburn River.  Recent scholarship recognises this as a significant component of any energy future. Changing conditions in the energy market, networks with experts and community determination made this submission possible.

Beyond the engineering, academic expertise and commitment to changing infrastructure, however, there are compelling social and cultural reasons why a submission such as this comes together.

Communities which start where they are, in the places they know and care about, will always be capable of and interested in driving change. Baseline knowledge – social, economic, cultural and political – is already available. Communities want to see the co-benefits. In regional settings communities also understand the need to organise, share and take responsibility to attain outcomes.

The final attribute in a regional theory of change should always be a desire to show what has been done. It is important to provide demonstration sites for innovation, illustrating successes and reflecting on mistakes.

Author: Dr Kate Auty, Commissioner for Sustainability and the Environment

Lower Costs, Greater Investment Produces Record Year for Australian Renewable Energy

Renewable energy produced a record share of Australia’s electricity in 2016, with a slew of new projects putting Australia on track to reach the 2020 Renewable Energy Target.

More than 17 per cent of Australia’s electricity came from renewable sources last year, up from 14.6 per cent in 2015, thanks to greater rainfall in key hydro catchments and a series of new wind and solar projects, according to a new report from the Clean Energy Council.

Photo: article supplied

Clean Energy Council Chief Executive Kane Thornton said the industry was set for another record year in 2017.

“Every month brings new project announcements. While total investment in large-scale renewable energy was $2.56 billion last year, $5.20 billion worth of projects have secured finance in just the first five months of 2017 and have either started construction or will begin this year,” Mr Thornton said in a statement.

Approximately 17,500 gigawatt-hours (GWh) of renewable energy was generated in 2016, accounting for just over half of the Renewable Energy Target (RET), which is set at 33,000 GWh for 2020.

Hydro generation was the greatest source of renewable energy, providing 42.3 per cent of the total, followed by wind and small-scale solar PV.

Tasmania remained the leader in renewable power generation among the states and territories, producing 93 per cent of its electricity from hydro.

The report released on Tuesday said investor confidence had recovered since the Abbott Government’s review of the RET and had been aided by the plunging costs of solar and wind technology.

This article was originally published by SBS.com.au.

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German Battery Giant Teams with Australian Solar Tile Maker to Take on Tesla – Again

German battery storage giant and major Tesla rival, Sonnen, has opened up competition on yet another front in Australia, with the announcement this week of a partnership with a local roofing company that is set to launch its own version of an integrated solar tile.

Sonnen said on Thursday that it had signed an agreement with Australian company Bristile Roofing to be the national supplier of solar powered energy storage systems for homes using its new solar tile, which is due to hit the market in September.

Image: One Step Off The Grid

Under the deal, Bristile will offer the Sonnen AC Coupled modular battery storage system to the builder market, as well as its new Sonnen DC Hybrid range.

The storage system includes an inverter, battery modules, and an energy management system with built-in smart appliance control. The systems have a 10-year guarantee, but are designed for a 20-year life, according to Sonnen.

Bristile, which is a part of the building materials group Brickworks, says it expects to target the estimated 102,000 new-build homes throughout Australia in 2017-18, with a number of builders the company deals with “looking to offer integrated solar systems” as a standard feature of off-the-plan homes.

Sonnen, which launched its battery line in Australia just over a year ago, has since claimed that it is its biggest market outside Europe, and says it could soon be its biggest market in the world.

Article originally published by One Step Off The Grid.

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