- Costa Rica’s 1st Solar Power Park Completed
- Ingeteam Mobile App Allows for Solar PV Installation Monitoring
- Texas Grid Sets New Wind Power Record & Aims Much Higher
- Natural Fish Slime Fabric Sounds Gross, But At Least It’s Renewable
- Tasmania Seeks To Build Largest Windfarm In Southern Hemisphere
- 44% Of San Francisco’s City CarShare Fleet Is Electric
- New Nike Boots The Greenest Boots Available
- University Of Delaware Establishes Energy Efficiency Fund
- Solar Graph Porn
- Phenomenal Eco-Island Designed As Home To 300,000 People
Posted: 29 Nov 2012 08:00 AM PST
Costa Rica Launches First Solar Powered Plant (via Ecopreneurist)
Authorities in Costa Rica have opened the country's first large-scale solar power plants, built with a donation of $ 10 million Yens. President Laura Chinchilla and the director of the Instituto Costarricense de Electricidad (ICE), Teofilo de la Torre, inaugurated the solar park in Bagaces Miravalles…
Posted: 29 Nov 2012 07:30 AM PST
According to Solar Power World, the app will allow PV owners, promoters, and installers control of their production information, which will give a glance at how much owners are getting for their buck:
Apple's App store has the free app available in five different languages including: English, French, Spanish, Italian, and German.
Ingeteam Mobile App Allows for Solar PV Installation Monitoring was originally published on: CleanTechnica
Posted: 29 Nov 2012 07:00 AM PST
Wind turbines generated 8,521 megawatts (MW) of electricity just after 10:00 a.m. on November 10. More than 7,000 MW came from wind farms in West Texas, with around 1,100 MW coming from installations along the Gulf of Mexico coast.
This mark beat the previous record by more than 150 MW, was enough to power 4.3 million average Texas homes, and represented 85% of the state's optimal wind generation output, according to the Electric Reliability Council of Texas (ERCOT). Wind has represented around 9% of ERCOT's supply for much of 2011, but that share is growing.
Could Texas Reach 75% Wind?
ERCOT manages the grid for 85% of the state's total electric load, matching supply and demand for 23 million customers across 40,500 miles of transmission lines. Texas already has the most installed wind capacity of any state in America with a total of 10,929 MW and 10,000 MW within the ERCOT system.
But more installed wind capacity than many countries isn't enough for the state where bigger is better. Texas could conceivably triple the amount of installed wind capacity in the state.
Roughly 21,000MW of new wind turbines are under review by ERCOT, and the state is nearing the completion of several massive transmission projects designed to move wind power from West Texas to eastern metropolitan areas where demand is highest.
Winds of Economic Change
Considering the potential of West Texas wind turbines, it's not hard to see an ideal situation where 30,000 MW of installed wind capacity could meet 75% of the state's total demand – especially with 2,400 miles of new transmission lines improving the grid operator's ability to move wind across the state.
The Texas renewable energy industry report, released this summer, estimates the wind industry will help add 6,000 renewable jobs per year through 2020 and contributes to 1,300 companies and 100,000 jobs, in total. Imagine adding 200% more to those numbers.
But, of course – Texas' wind energy potential ultimately depends a great deal upon renewal of the federal Production Tax Credit. Combined with wind power records being set across the country, ERCOT's newest announcement is proof once again that wind power make economic sense regardless of party affiliation.
Image Credit: Texas wind turbines via Shutterstock
Texas Grid Sets New Wind Power Record & Aims Much Higher was originally published on: CleanTechnica
Posted: 29 Nov 2012 06:30 AM PST
It’s ironic that the hagfish could play a major role in an industry characterized by constant change, since this ancient eel-like species has undergone very little change itself for the past 300 million years. However, in the search for renewable fabric alternatives to nylon, Kevlar and other petroleum-based products, the hagfish seems to be on track to come out on top.
Silk vs. Slime for the Renewable Fabric of the Future
When you think about it, wearing fish slime on your back is hardly any more gross than wearing the worm secretions known as silk.
The advantage of hagfish over silkworms is partly one of sheer productivity. When an Atlantic Hagfish is threatened it can spit out quarts of slime in a matter of mere seconds, which seems to be at least enough to make a nice scarf. Try that with a silkworm!
Of course, the raw slime is not exactly fit for use. Hagfish slime is partly composed of mucous, which we’re not interested in. The part that is really intriguing consists of tens of thousands of protein threads.
According to the University of Guelph, the threads are classified as an “intermediate filament.” Each is 100 times thinner than a human hair, but has “remarkable mechanical properties that rival those of spider silks.”
A Slimy Path to Artificial Spider Silk
Spider silk is outrageously strong for its weight, so much so that it has the potential to outperform petroleum-based products like Kevlar.
But, of course, unlike silkworms, spiders are notoriously hard to motivate for commercial-scale silk production. That’s where the hagfish could come in.
Researchers have been studying ways to create artificial spider silk from more cooperative renewable sources, but hagfish offer the prospect of cutting out the middleman and going straight to the source.
The research team, headed by Atsuko Negishi with co-authors from Guelph as well as McMaster and Dalhousie universities, has just published a paper showing that protein threads isolated from hagfish slime can be purified and spun into fibers. That leads to the possibility of using similar slimes from other animal proteins:
“This work is just the beginning of our efforts to apply what we have learned from animals like hagfishes to the challenge of making high-performance materials from sustainable protein feedstocks."
So far, the researchers have found that higher levels of protein concentration yield materials with potentially useful properties. The next step is to find efficient ways to spin fibers, leading to commercial-scale production.
Big Demand for Alternative Fabric
It’s not like hagfish slime is ready for its Top Model moment any time soon, but when it does break through, it could find a whole range of uses as a renewable alternative for petroleum-based products.
Ford, for example, is pushing hard to introduce renewable and recyclable materials in upholstery and other automotive fittings that are typically made from synthetic petroleum-based materials.
The sporting goods industry is another area in which lightweight, high performance petroleum alternatives would find an eager market.
Image: Hagfish courtesy of NOAA, via wikipedia
Follow me on Twitter: @TinaMCasey
Natural Fish Slime Fabric Sounds Gross, But At Least It’s Renewable was originally published on: CleanTechnica
Posted: 29 Nov 2012 06:00 AM PST
OK. In reality, there are many things in love, but I promise that wind energy and Australia are on my list, and so when I saw that Hydro Tasmania is looking at building the biggest wind farm in the Southern Hemisphere, I was immediately intrigued.
For those unsure of the geography of Australia, here’s a little helper-image I whipped up for you.
As you can see, the ugly stepchild we on the mainland call Tasmania floats off the bottom of our continent like an unwanted piece of driftwood. King Island is probably what Tasmanians consider their ugly stepchild, drifting around off the northeast of the island.
And according to Hydro Tasmania, King Island is where the company hopes to build the $2 billion project that is expected to create up to 500 jobs during the two-year construction period.
If built — and at the moment it is currently an ‘if’ — the 600-megawatt wind farm would produce approximately 2400 gigawatt-hours of renewable electricity for the national market, using around 200 wind turbines. That’s enough energy to supply nearly 240,000 homes with electricity, and would represent more than 5% of Australia’s Renewable Energy Target, as well as reducing the amount of carbon entering the atmosphere by around 1.9 million tonnes a year.
David Crean, Hydro Tasmania Chair, said that for the past 15 months Hydro Tasmania had been assessing the wind farm concept on the island to utilise the world-class resource of the prevailing Roaring Forties, the name given to the strong westerly winds that blow between the latitudes of 40 and 50 degrees in the Southern Hemisphere (i.e. right over the top of King Island).
“While sitting in the path of the world-class wind resource that is the Roaring 40s makes King Island the perfect location for such a project, it is important to emphasise that it is very early days," Dr Crean said.
Dr Crean said the work done to date indicated it was broadly feasible from a technical, economic, and environmental perspective. The Tasmanian Government had expressed its strong support for the project proceeding to the consultation stage.
“It is most important that we seek the views of the King Island community,” he said. “Their support is crucial for the project to go to the full feasibility stage.”
Here’s more from Dr Crean:
Tasmania Seeks To Build Largest Windfarm In Southern Hemisphere was originally published on: CleanTechnica
Posted: 29 Nov 2012 05:30 AM PST
City CarShare’s fleet is now made up of 160 hybrids, 13 plug-in electric hybrids, and 5 all-electric vehicles.
This high percentage of electric vehicles helps City CarShare’s fleet prevent 80 million pounds of CO2 from entering the atmosphere each year.
"We are very close to meeting one of our mission goals of converting half of our fleet to electric or hybrid by 2015," says Rick Hutchinson, City CarShare CEO. "By offering innovative and greener mobility options to individuals and businesses, we are significantly reducing gas consumption and CO2 emissions, making the Bay Area a more livable place."
A recent survey of City CarShare members found that many favoured electric and hybrid vehicles as a transportation option. When asked why, members indicated the following reasons:
Source: City CarShare
44% Of San Francisco’s City CarShare Fleet Is Electric was originally published on: CleanTechnica
Posted: 29 Nov 2012 05:00 AM PST
The Nike GS 2 is described as being “the lightest, fastest production boot Nike has ever made and the most environmentally friendly boot available.”
It also features “All Conditions Control (ACC) technology,” which sounds to me as if it’s actually a car but apparently delivers enhanced ball control in both dry and wet weather conditions (which, in hindsight, still leaves it sounding like a car).
Nike said on its website that “the Nike GS 2 boot is constructed using renewable and recycled materials” and “has been optimized to reduce weight and waste.” Featuring recycled and renewable materials throughout the upper and plate design, the boot laces, lining, and tongue are made from a minimum of 70 percent recycled materials, while the toeboard and collar feature at least 15 percent recycled materials.
The Nike GS 2 will be worn by some of Europe's best young players, including Theo Walcott, Eden Hazard, Raheem Sterling, Mario Goetze, Christian Eriksen, and El Shaarawy, which I assume must be a good thing if those names turn out to be famous footballers and not the Nike press editor’s past babysitters.
Posted: 29 Nov 2012 04:30 AM PST
Their first funded project is for the replacement of outdated lighting systems found in several buildings on campus with new energy-efficient lighting alternatives.
The new lighting will meet national lighting standards per the Illuminating Engineering Society of North America (IESNA), which address lighting levels and energy usage. The new light systems will reduce energy use through a combination of controls for electricity usage and conversion from electricity to available, non-electric light sources.
Source: The University of Delaware
University Of Delaware Establishes Energy Efficiency Fund was originally published on: CleanTechnica
Posted: 29 Nov 2012 04:00 AM PST
Someone recently passed along these great graphs from a German website (you can see an English translation of the webpage they came from here). The overall message: solar PV prices in Germany have dropped considerably in the past few years (as installation has boomed), and the prices are pretty darn low these days.
More specifically, note that the graphs are not for the same time period — they are sequential. So, basically, the price just dropped and dropped and dropped and dropped. (The same thing is happening in the US, just not as fast, since installation isn’t happening as fast and because of some other factors, like balance of system or “soft” costs and subsidies.)
Take a look at the graphs below and let me know if anything else comes to mind for you (note: prices are per kWp for plants up to 100 kWp solar power plants):
Amazing, isn’t it?
And here’s the price history in list form (again, prices are per kWp for plants up to 100 kWp solar power plants):
Posted: 29 Nov 2012 03:30 AM PST
Renowned New York designer Dror Benshetrit knows what he’d do. He’d build HavvAda, one of the most forward thinking eco-islands in the world, which challenges many of the established principles of high-density living and brings people together into a social whole.
Challenge number one: get rid of the sky scrapers. These buildings have long been criticised by environmentalists because of the huge foundations needed to support their weight. In short: the taller they are, the bigger the hole you have to fill with concrete at the bottom.
So lay them down flat to give even weight distribution: easy. But long straight things are pretty boring, so how about we wrap them around something… those hills for example?
There, all done!
Challenge number two: bring the people together. You remember those six hills we first made with our bucket and spade? Well it’s time to leave the bucket and spade behind and bring a little more sophistication to our eco-island. Instead of having six hills, let’s have six geodesic domes.
These will be hollow, allowing habitation and congregation to happen internally as well as externally. The floor of each dome can be dedicated to one particular facet of life shared by all (sports, culture, education, etc) while the valley in the centre of the island can be the eco-island’s main commercial hub.
With transportation links based upon communal methods like cable cars and walkways, we’re all going to get along just fine
Final challenge: make the eco-island eco-friendly. Now that our eco-island has layers of buildings wrapped around its hollow hills, we can work with that to help build the ecology of the place.
The external parts of the wrap-around buildings can be transformed into an environmental wonderland where people can walk and enjoy the outdoors, and the insides can be designed to have naturally circulating air and greenery.
What’s more, because these hills are going to be up to 400 yards high, the variation in between the plains at sea level and their summits will create genuine micro climates with diverse biodiversity and agricultural opportunities.
Finally, install all those great renewable energy systems and don’t forget rainwater harvesting alongside your wind and solar power. Heat from the sun outside and people on the inside will ensure an abundance of energy, creating a net-positive eco-island whose hills really do live as independently functioning ecosystems.
Just where’s this 2 billion tons of sand going to come from, anyway?
The rise of eastern European trade means that around 50,000 ships pass through the Bosporus every year, at least 10% of which are oil tankers. The Bosporus is a wiggly waterway which in places is only half a mile wide and the Turkish government has decided its getting way too crowded.
So they’re going to build a relief canal several miles away, very much like Suez or Panama. That’s going to need the removal of 1 billion cubic meters of earth, which equates to around 2 billion tons of sand.
You take this sand, lay it out in a 2-mile-wide circle and build your 400-yard-high domes on top of it. Cover them in a mesh and more earth and away you go.
And if you’ve read this far and are picking holes in the design: you’re right. It’s crazy, bonkers, fascinating stuff. But that’s the point: it’s a design, meant to be far-reaching and challenging, created as the pinprick of distant vision and ready to be refined and reworked by technical considerations.
But if only half of it happens (and let’s face it, two billion tons of sand isn’t going to disappear into thin air) it could be the start of a whole new way of building cities.
To find out more watch this video from the designers. And remember: design is at least two-fifths art!
Source: HavvAda Eco Island
Phenomenal Eco-Island Designed As Home To 300,000 People was originally published on: CleanTechnica
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