Tag Archives: green energy

Scientists Create Molten Metal Batteries for Storing Renewable Energy

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MIT Molten Metal Battery

The American engineers who created the liquid metal batteries point out that these won’t have a consumer application anytime soon, but are rather aimed at the grid.

Scientists have been very creative lately when it came to new ways of storing renewable energy, but most designs were for consumer electronics. These molten metal batteries, on the other hand, are meant for storing renewable energy in the grid, as there’s no way people could have the conditions for handling liquid metals at a temperature of 450C.

In an interview with BBC News, Prof Ian Fells, a fellow of the Royal Academy of Engineering and former chair of the New and Renewable Energy Centre, commented that “Sometimes, when the wind is blowing strongly, we have spare capacity available – if only we could store it, so that we could use it when the wind isn’t blowing. Using these molten metal electrodes is, it seems to me, a very good idea.”

The project’s senior researcher Prof Donald Sadoway, of the Massachusetts Institute of Technology, explained how the liquid metal batteries are supposed to work: “It’s this back and forth, of the top layer disappearing into the bottom layer to generate electricity, and then reconstituting the top layer by consuming electricity, that gives you the rechargeability of the battery.”

Sadoway added that “We wanted to decrease the operating temperature. We were thinking, we’ll take a bit of a compromise on the voltage, if it’s offset by an even better compromise on the melting point.” The 450C temperature is key to the efficiency of the batteries, and represents a clear improvement over the 700C of a previous design.

Prof Fells pointed out that the cost of this project is much lower than its alternatives: “All of these strategies are scientifically possible – it comes down to the cost. If people can make the case that this one is economic, then it’ll do well.”

Dr Frank Marken, a physical chemist at the University of Bath, while not extremely impressed by the idea, admitted that the MIT engineers have their merits: “It’s not revolutionary in the idea – but it may be revolutionary in terms of the application. One tricky aspect of this is how much do you lose in each cycle? And what they’ve done here is very clever. It needs a higher temperature, but they don’t lose much energy.”

This looks like very good news, even though it might take a while until the whole project is put into practice.

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Transparent Solar Cell Turns Screens and Windows Into Power Sources

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Transparent Solar Cell

What would it be like to power your smartphone with the energy harvested by its screen, or even better, to power your home with the energy harvested by its windows? Researchers at Michigan State University are about to turn this utopic dream into reality.

The fully transparent solar concentrator developed by the researchers is capable of turning any sheet of glass into a photovoltaic solar cell. There’s a lot of potential in this project, as research team leader Richard Lunt remarks that it could be implemented in “tall buildings with lots of windows or any kind of mobile device that demands high aesthetic quality like a phone or e-reader.”

A transparent solar cell is a bit of a contradiction in terms, as photovoltaic cells absorb photons and turn them into electrons (energy), fact that doesn’t theoretically happen if the sunlight goes passes through the cell. Particularly because of this reason, previous attempts of making a transparent solar cell resulted in partially transparent ones, and the one developed by Richard Lunt and his team is the first one featuring fully transparency.

The secret of their success is represented by the transparent luminescent solar concentrator (TLSC), which is made of organic salts that transform non-visible wavelengths of infrared and ultraviolet light into a different, non-visible infrared light. The resulting infrared light is in turn transmitted to the edge of the plastic, where typical photovoltaic solar cells transform it into electrons, and thus energy.

As expected, the main problem with this transparent solar cell is represented by its efficiency, which currently is of only 1%. However, the researchers are confident that an efficiency of 5% is attainable.

Ideally, this technology would become more efficient and would start being adopted by smartphone manufacturers and window makers. Green energy is becoming a more ardent problem with each passing day, and every development in this field should be exploited to the fullest. For the time being, the sun represents an infinite source of energy, and we should really take advantage of that. In other words, I also dream of cars that are powered by such transparent solar cells placed in their sun roofs. Of course, there are many other possible applications, so we just need to wait for this technology to become widely spread.

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UK Retailer Sainsbury’s Use Food Waste To Entire Power Store

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Sainsbury's supermarket

Swapping expensive bills for slightly smelly food waste, one UK supermarket chain has now found a smart solution to paying for power.

Pay your electricity bills folks; you never know when your lights are going to go out or your TV’s going to turn itself up right at the cliffhanger of a gripping Game of Thrones episode if you don’t. Dreadful stuff. Alternatively, if you’ve got a bio-engine just sitting around and also about 3 tonnes of gone off, stinky and completely inedible food laying around you could just take a mouldy leaf out of UK retailer Sainsbury’s book by using all of that food waste to power your electricity and heat your home. That’s what they’ve now done at one branch in Cannock, West Midlands, upon realising that it’s far cheaper (and makes a lot more sense, if you think about it) for them to utilise their leftovers instead of forking out both to dispose of it and not get anything back and to pay for electricity too.

The Sainsbury’s branch in question happens to be just down the road from Biffa, a food waste specialist company, which is why this plan is so darn clever. Biffa will use microbes to turn Sainsbury’s honking food into bio-methane after which that gas is then shuttled back to the store using a 1.5km long cable. The plan is set to be so successful that not only are they going to make good use of that Biffa bio-fuel but the supermarket is also going to go completely off of The National Grid meaning that it won’t receive any electricity from the UK’s nationwide power source whatsoever.

Sainsbury’s says that it will allow them to “close the loop on food recycling” but questions remain about what will happen to the rest of the food that isn’t turned into the eco-friendly power stuff. Well, proving that they are perhaps the philanthropists (and resourceful merchants) that we’d all like to be, any food that doesn’t get sent to Biffa (and that presumably isn’t past its use-by date) will be given to charities and food banks, which is in line with what they do already. They currently make enough food stuff waste at the store for it to power 2,500 homes a year and there are likely other branches that make even more so could this be rolled out across the country? Could it even bring British supermarket prices down? We’ll keep you posted once we know more.

Source: Sainsbury’s

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Sole Power: Charge your Phone by Walking!

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Mobile-device-charging-shoe-by-Angelo-Casimiro

Everyone’s heard of green energy sources – solar power, water power and the like; but have you heard of footstep power? This new gadget is the brainchild of a 15-year old boy from the Philippines – Angelo Casimiro. Unveiled at the Google Science Fair 2014, this piezoelectric device uses the pressure generated in the sole of the shoe while walking, to charge your electronic device. A clever idea, no doubt, but quite similar to inventor Rajesh Adhikari’s idea of a ‘shoe charger’ revealed a few months ago. Unfortunately, you can only get about 10 minutes of battery power after a two-hour game of basketball, but it’s definitely a promising technology for the future. Getting the gadget into production might be quite a challenge, so you may not be able to buy one just yet – but at least you’ll know you saw it first on OhGizmo!

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[ Product Page ] VIA [ Damngeeky ]

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America’s most sustainable city: A green dream deferred

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America's most sustainable city

It sounds like the future. Whirring electric skateboards, the joyous chatter of children in a distant playground and an unusual absence of petrol-powered machinery. It looks like the future, too. Glistening lakes dotting the background, lawns so lush they're mistaken for artwork and an unmistakable reflection from a vast solar farm that doubles as a beacon of unending hope.

The reality, however, is starkly different. The depictions here are mere conceptualizations, and the chore of concocting the most Jetsonized habitat this side of Orbit City is daunting in every sense of the word.

Gallery: Babcock Ranch in Florida, USA

America's most sustainable city A green dream deferred

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Solar Powered Plane to Fly Across America

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Airplanes consume a lot of gasoline and airplane fuel is often the most expensive and difficult to purchase because of its superior quality.

 

In order to ensure an alternative fuel source for flying airplanes, it is important to consider every source of energy as long as it promises a safe flight. ...
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