South Africa’s Solar Power Potential

As the United Nations climate change conference rages on, quite literally, in Durban, South Africa, experts from COP17’s host city point to one alternative energy source that could help it mitigate its emissions: solar power.

According to Dick Berlijn, of Subsolar Energy, Durban has one of the highest and most stable solar radiation levels in the world. “The variable is around 3%. That means that on a good day, solar radiation in South Africa is 100% and 97% on bad days. These conditions are extraordinary,” MD for Pretoria-based Subsolar Energy toldIndustry Leaders magazine.

With so much solar radiation, Berlijn believes solar is better qualified to produce clean energy for South Africa than wind. Besides, South Africa also has plenty of space to build solar photovoltaic (PV) plants.

South Africa needs to start moving towards alternative energy as the country still relies heavily on coal for electric power (90%). The country is the 16th biggest emitter in the global ranking, having dumped 369,4 million tons of CO2 in the atmosphere in 2009.

SolarPlaza’s Solar Future South Africa convention which will take place in Johannesburg in January 2012 will be discussing the country’s solar potential and related topics such as job creation, Feed-in Tariffs and business opportunities.

Article by Antonio Pasolini, a Brazilian writer and video art curator based in London, UK. He holds a BA in journalism and an MA in film and television.

(Source: http://blog.cleantechies.com/2011/12/02/south-africa%E2%80%99s-solar-power-potential/)

A Light Wave of Innovation to Advance Solar Energy: Researchers Adapt Classic Antennas to Harness More Power from the Sun

Some solar devices, like calculators, only need a small panel of solar cells to function. But supplying enough power to meet all our daily needs would require enormous solar panels. And solar-powered energy collected by panels made of silicon, a semiconductor material, is limited -- contemporary panel technology can only convert approximately seven percent of optical solar waves into electric current.

Profs. Koby Scheuer, Yael Hanin and Amir Boag of Tel Aviv University's Department of Physical Electronics and its innovative new Renewable Energy Center are now developing a solar panel composed of nano-antennas instead of semiconductors. By adapting classic metallic antennas to absorb light waves at optical frequencies, a much higher conversion rate from light into useable energy could be achieved. Such efficiency, combined with a lower material cost, would mean a cost-effective way to harvest and utilize "green" energy.

The technology was recently presented at Photonics West in San Francisco and published in the conference proceedings.

Receiving and transmitting green energy

Both radio and optical waves are electromagnetic energy, Prof. Scheuer explains. When these waves are harvested, electrons are generated that can be converted into electric current. Traditionally, detectors based on semiconducting materials like silicon are used to interface with light, while radio waves are captured by antenna.

For optimal absorption, the antenna dimensions must correspond to the light's very short wavelength -- a challenge in optical frequencies that plagued engineers in the past, but now we are able to fabricate antennas less than a micron in length. To test the efficacy of their antennas, Prof. Scheuer and his colleagues measured their ability to absorb and remit energy. "In order to function, an antenna must form a circuit, receiving and transmitting," says Prof. Scheuer, who points to the example of a cell phone, whose small, hidden antenna both receives and transmits radio waves in order to complete a call or send a message.

By illuminating the antennas, the researchers were able to measure the antennas' ability to re-emit radiation efficiently, and determine how much power is lost in the circuit -- a simple matter of measuring the wattage going in and coming back out. Initial tests indicate that 95 percent of the wattage going into the antenna comes out, meaning that only five percent is wasted.

According to Prof. Scheuer, these "old school" antennas also have greater potential for solar energy because they can collect wavelengths across a much broader spectrum of light. The solar spectrum is very broad, he explains, with UV or infrared rays ranging from ten microns to less than two hundred nanometers. No semiconductor can handle this broad a spectrum, and they absorb only a fraction of the available energy. A group of antennas, however, can be manufactured in different lengths with the same materials and process, exploiting the entire available spectrum of light.

When finished, the team's new solar panels will be large sheets of plastic which, with the use of a nano-imprinting lithography machine, will be imprinted with varying lengths and shapes of metallic antennas.

Improving solar power's bottom line

The researchers have already constructed a model of a possible solar panel. The next step, says Prof. Scheuer, is to focus on the conversion process -- how electromagnetic energy becomes electric current, and how the process can be improved.

The goal is not only to improve the efficiency of solar panels, but also to make the technology a viable option in terms of cost. Silicon is a relatively inexpensive semiconductor, but in order to obtain sufficient power from antennas, you need a very large panel -- which becomes expensive. Green energy sources need to be evaluated not only by what they can contribute environmentally, but also the return on every dollar invested, Prof. Scheuer notes. "Our antenna is based on metal -- aluminium and gold -- in very small quantities. It has the potential to be more efficient and less expensive."

(Source: http://www.sciencedaily.com/releases/2011/11/111110125955.htm)

Cool Gadgets Powered by Solar Energy

Everyone loves cool gadgets.  How about solar powered gadgets?  We think they’re even cooler.  We’ve put together a list of the some of the coolest solar powered products on the market and thought we’d share them with our readers.  Enjoy and feel free to share any nifty solar gadgets that you’ve come across.

1. Solar Backpack

This backpack combines the traits of a top quality bag with a new, powerful, thin-film solar module.  This solar powered backpack features multiple organizer pockets for your smart phones, iPods, accessories, and features a separate padded laptop cavity.  Coolest of all, the integrated thin-film solar charging module provides up to 4 watts of power to charge your handheld electronics quickly and efficiently.

2. Power Monkey
The Power Monkey houses a massive 9000mAh capacity Lithium Polymer battery, offers users real power in a compact, durable, solar powered shell. The unit is capable of recharging most 5V devices, including an iPhone up to 6 times, a Garmin Edge 800 up to 6 times, and standard mobiles up to 12 times. It can also be recharged in 3 ways: via the universal mains charger, via the solar panel, or via USB. The Power Monkey also has an auto shut-off function that will turn itself off after 2 minutes, so the user does not have to monitor the device and it saves power.

3. Solar Powered Fan
The Natural Light Solar Gable 20 Watt Fan is designed for home or commercial use but can also provide practical use in different applications that require air circulation. This solar energy product will provide years of use that will help reduce overall energy consumption and energy costs! It includes a 20w solar panel, gable vent fan, solar mounting rail, power cable, and mounting hardware.

4. iPod Speakers

The efficient Soulra XL can completely recharge its built-in battery in as little as five hours, depending on sunlight. It can also fully charge your docked iPod or iPhone in as little as four. And if it's rainy or dark, no problem — the included power adapter lets you charge the Soulra XL indoors, too. How much music playback can you expect? The system can deliver up to five hours on a full battery charge.

5. Solar Bikini

A solar film bikini that charges your iPod! (With a USB connection) We realize that this is a little out there, but just had to share it anyway! The suit is a custom made bikini swimsuit retrofitted with 1″ x 4″ photovoltaic film strips sewn together in series with conductive thread. The cells terminate in a 5 volt regulator into a female USB connection. A guy’s version is coming soon…

6. Solar Fountain

The Smart Solar Ceramic Cascade Solar Fountain is a perfect water feature for the hot weather. It lets you enjoy the peaceful sound of nature in your outdoor space as water tumbles from basin to basin. It costs nothing to operate, as the water is recycled via a hidden pump powered by sunlight.

7.Portable Solar Shower

Who knew you could take a hot shower virtually anywhere?  This solar shower features a wide handle grip for comfortable transport, an extra big filling valve with convenient twist off cap, variable flow on/off shower head to save water, a reflective mirror, and even pockets for soap and shampoo. Very cool for a camping trip!

8. Solar Freezer
This solar freezer is very cool (literally) solar product designed for mobile applications. Storing food, produce or any other goods in remote locations or mobile applications can easily be achieved with this freezer.  Made of galvanized steel and an aluminum interior, this environmentally friendly product is great for outdoor use or used with a mobile food cart!

9. Portable Solar Oven

This portable solar oven offers you the perfect 21st century outdoor cooking solution: a high efficiency solar oven that is capable of reaching temperatures near 400 degrees Fahrenheit or more using just direct summertime sunlight. The tri-panel design reflects direct sunlight using its large mirror finish reflector and then traps the energy inside its darkened cooking chamber. In the absence of adequate sunlight, the oven can be plugged into any 110v portable generator.

10. Solar Charged Key Chain Flashlight

This nifty key chain comes with Gama Sonic's solar-charged flashlight—the brightest in the world. Charge it in the sun for 30 minutes and have a compact, handy flashlight or a useful key ring in your pocket. The flashlight has 2 Super Bright LEDs bulbs.

(Source: http://info.ussolarinstitute.com/blog/bid/63161/Cool-Gadgets-Powered-by-Solar-Energy)

Solar Butterfly flits around endlessly (by Edwin)

As long as the sun is out, the Solar Butterfly that you see here will definitely flit around your garden joyfully, even though there is nary a single flower for it to feed on, seeing nothing but patches of weeds everywhere. All you need to do is place the stake with solar panels in your garden outdoors, although you can also opt for your favorite potted plant if you want to, and the Solar Butterfly will flutter around, moving its wings just like the real deal.

Of course, during those downcast, rainy days, if you’re so used to having a faux butterfly move around during the mornings, there is always the option to throw in a single AA battery to keep its fluttering action going. The solar stake stands at 16″ tall, where the butterfly is 2.5″ tall and 2″ wide. You will be able to choose from Orange Monarch or Yellow Swallowtail, and this is one butterfly that won’t die after a few days.

How much, you ask? The Solar Butterfly can be part of your garden’s make up for $11.99. 

(Source:http://www.coolest-gadgets.com/20110731/solar-butterfly-flits-endlessly/)

Cool Solar Gadgets For The Solar Powered Addicted Dad (by Gloria Campos)

I think solar powered gadgets are amazing, so I have put together a list of solar powered gift ideas for Father's Day.  If you still need to buy a gift for your dad or your baby's daddy take a look at the list below. You might just find what you are looking for or think of something better along the way. Either way, I hope it helps.

1. Solar Powered Electric Shaver

This is the kind of shaver dad can take camping, or take on the road with him. It takes the Solar Electric Shaver 8 hour to full charge and yes, it can also be charged by AC, if needed. The solar powered shaver uses Double independent floating blades, a high technique solar panel and a high rotate speed silver palladium alloy motor. It has an indication light to show when charging and a push type shear.

2. Solar Powered Headphones

This is solar powered gadget is a smart idea Unfortunately it still isn't on the market, but my hope is that it will be soon. What is it? Designer Shepeleff Stephen has designed a solar-powered, Bluetooth-connected Q-Sound (quantum sound) headphone set. The headphones have a flexible solar powered panels, wireless technology, and rotating earpieces. One hour in the sun will allow 2.67 hours of power. This is at maximum volume. It can run up to 40 hours when fully charged.

3. Solar Powered Coffee Maker

For the men in your life that need coffee, industrial designer Christopher G. Patton invented a Girasol, a portable solar powered coffee maker. There really isn't any explanation about the solar powered ability of this gadget, except that a, "student design group was commissioned by the Universidad de Quintana Roo in southern Mexico to design a series of coffee makers.  The intent is to generate a source of revenue that would subsidize a charitable project initiated by Quintana Roo." Considering how many people drinking coffee and how many are plugged into homes everyday this invention would save a lot of money in addition to conserving energy.  

4. Solar Powered Flashlight

I actually have one of these flashlights and I absolutely love it. Mine is blue though and I prefer it that way. My husband loves it too. There are 6 super bright LEDs and 3 standard NiMH, AA rechargeable batteries inside. It will fully charge in about 8 hours and can illuminate up to 6 hours every night. There is also a nightglow strip on the flashlight that makes it easier to find in the dark.  Amazon has an amazing collection of solar powered flashlights.

5. Solar Powered Hybrid Oven Cooker

This solar oven can cook in solar mode, electric mode or both (hybrid mode). To cook point it to the sun, adjust the back reflector panel so that the sunshine reflects into the oven's dark cooking chamber" and that is it.  If dinner is taking too long or clouds appear in the sky switch to electric. "The Solar Oven's two setting thermostat automatically controls and maintains the cooking temperature inside the oven chamber so your food is always safe and cooked to perfection even when the weather isn't."

6. One More Just For Fun

Sometimes dad needs some kid fun too. This solar gadget is a Solar Airship. It weighs 230 grams. It is 8 meters long and if you let go it can fly up to 30,000 feet in the air.  To inflate this balloon let it sit in the sun for a few minutes. The material the balloon is made of will absorb the heat from the sun and inflate. To fly it, attach the 50 meter cord provided.


If you find the list interesting feel free to share it with your friends and family. You are also welcome to add your own solar powered gift ideas in the comments section below. May you have a wonderful bright sun shiny day.

Gloria Campos-Hensley
Green Blogger 
InventorSpot.com

(Source: http://inventorspot.com/articles/cool_solar_gadgets_solar_powered_addicted_dad_28454)

Quirky Ray solar-powered charger (by Mark R - on October 10th, 2011)

We have reported on a lot solar-powered chargers here on Coolest-Gadgets, most recently the Eton Mobius.

A company/distributor known as Quirky, which puts devices from independent inventors to the spotlight, has the Ray on their catalog. The Ray is different than most chargers as it has a very powerful suction cup to hold it to where the sun shines the most: on glass. It also has a tilting kickstand that supports multiple positions to capture the sun.

The Ray has a compact battery that can store enough energy to fully charge a cellular phone. It has a USB port for easy charging, and these USB cords can be tucked for storage into the kickstand when folded closed.

I will have to admit what sold me on this Ray is how it can cling to an airplane window. Considering that you will have your cellular phone in airplane mode anyway, you might as well take advantage of the downtime and charge it. Hopefully, the passengers next to you won’t think it is rude if you block their view.

You should be able to get the Ray on the Quriky site for about $39.99. While you are there, check out some other items.

(Source:http://www.coolest-gadgets.com/20111010/quirky-ray-solarpowered-charger/#more-61329)

Eton Mobius for the iPhone 4

Eton has a lot of solar-powered products such as emergency gadgets like the Raptor and the Scorpion. Their most recent product, the Mobius, takes a page from the Mophie Juice Pack playbook as it is a portable charger specifically designed for the iPhone 4.

The Juice Pack is a battery that doubles as an iPhone case, and the Mobius is essentially the same thing, but solar-powered. According to the official Press Release, one hour of sun on the solar cells is sufficient enough for 25 minutes of talk time, 20 minutes of internet use, 35 minutes of video playback, and two hours of audio playback.

In addition the 1800 mAh rechargeable lithium ion battery pack, this extra battery power will be held until the user needs it. All it takes is a flip of a switch, and some extra juice gets squeezed to an iPhone 4. The unit also has a micro USB port which can also charge the unit with the included micro-USB cable, and it will even sync with iTunes.

I am not certain how durable the solar cells are, and I don’t want to drop it to find out. The rest of the case is hard yet light metal, and the unit weighs about 3.4 ounces.

You should be able to get the Eton Mobius for the iPhone 4 on Amazon now for $82.34 

(Source: http://www.coolest-gadgets.com/20110930/eton-mobius-iphone-4/#more-61072)

10 Interesting solar powered gadgets (Shahnawaz Naaz 22-09-2011)

solar wheelchairsolar wheelchair

‘Go Green’ is the buzz word these days with companies and innovative designers across the world coming up with the ideas of gadgets that are powered by solar energy. These solar powered devices are totally emission free and they operate using solar energy.
Here is the list of 10 interesting solar powered gadgets
1. Solar Powered Bikini

solar bikinisolar bikini

This unique bikini is fitted with small photovoltaic cells which make it work like a solar-powered gadget. Sunlight is trapped by these cells to generate electricity which can be used to recharge small gadgets. So next time when you for swimming you need not worry about battery life of your iPod.
2. Solar Powered Robot for Snow Surfing

solar robotsolar robot

The idea of Solar Robot Snow Surfing is the brainchild of researchers at Thayer School of Engineering at Dartmouth College. This robot can move at a top speed of 5mph and it can be used by scientists who are working in Antarctic. The robot has photovoltaic cells which trap solar energy and then generate power to move the robot.

3. Solar Powered Chariot

solar chariotsolar chariot

The Solar Powered Walking Chariot is designed and built by Bob Schneeveis, who is renowned for inventing eco friendly solar-electric gadgets and vehicles. Bob is well versed with robotics technology and rollerblading chariot powered by solar energy and one more example of Bob’s brilliance.
4. Solar Powered Sun Tent

solar rentsolar rent

The solar-powered air conditioned New Sun Tent is best suited for those who pitch their tent in desert and warm places. The tent is eco friendly because the air conditioned operates using the energy of the sun. The solar panels are fitted on the roof. The manufacturers of this tent claim that in future they will design foldable tent which can be carried from one place to another comfortably. The tent is priced at around $5000.
5. Solar-powered Wheelchair

solar wheelchairsolar wheelchair

A team of researchers from the Southern Taiwan University of Technology has designed and built solar-powered wheelchair which are powered by the solar panels fitted on the roof. The solar panel also protects the person sitting in the chair from rain and sunlight. It is expected that this chair will soon go for mass production. The researchers claim that the solar-powered is cheaper than electric-powered chairs.
6. Solar-Powered Car Kit

DIY KitDIY Kit

The solar-powered SUNN Solar Electric Car Kit has solar panel to charge the lead acid battery pack. The SUNN can attain a top speed of 25 mph. It has a maximum range of 37 miles. The SUNN is street legal in the US. It has a windshield wiper and disc brakes. Since the car moves at a low speed and that is why you can’t run it on highways. The solar panels are fitted on the front.
7. Solar Hearing Aid

solar hearing aidsolar hearing aid

Priced at below $100, the solar-powered SolarAid is a wonderful gadget and is set to become popular when it goes on sale. This unique gadget was created by Godisa Technologies in Botswana. The device is best for those regions where it is tough to find hearing aid batteries. The batteries of this ecofriendly solar hearing aid are recharged every four to six days.
8. Solar-powered Mower

solar mowersolar mower

The Automower Solar Hybrid designed and built by Husqvarna is worth $4000. This solar-powered mower will definitely reduce your gardening bills. Solar energy powers this gardening robot which can cut grass quickly.
9. Solar-Powered Talking Bible

Solar BibleSolar Bible

The solar-powered talking Bible is best for those who want to remain in touch with their religious values while on the go. You can carry this device in a lanyard. This ecofriendly device has a button which allows the user to hear both the old and new testaments by just a push.
10. Solar Powered Bike

solar bikesolar bike

As the name suggests, the Solartrike is solar-powered bike with a 10-mile range. The green bike can attain a high speed of 18mph and is perfect for short distance traveling. The bike is available in two models: with a 200W or 400W motor. The solar panel can generate 80 W of power.

(Source: http://www.ecofriend.com/entry/10-interesting-solar-powered-gadgets/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+ecofriend%2FWNra+%28Ecofriend%29

Solar Water Pumps

Solar water pumps are currently being used to water livestock, to provide potable drinking water and to irrigate crops. But unlike generator-powered water pumping systems, solar water pumps do not need fuel or even constant maintenance. Solar pumps usually cost less when it comes to operation and offers modular capability for it to be expanded quickly as the demand changes or increases, as compared to windmill or generator water pumps.

Features Of Solar Water Pumps 

With the advancement in technology, most solar water pumps nowadays have more improved features such as the following:

- Submersible solar pumps that can pump up to 200m heads.

- Pumps that are capable of pumping larger water volumes.

- Low maintenance requirements for as long as 3 to 5 years.

- Good performance that requires fewer solar panels but can still pump the same amount of water.

- Some solar water pumps can be backed up using a genset to generate electricity for addition water using the same pump.

- Good quality and more reliable pumps.

- Very simple to install.

- Requires very minimal attention since they are self-starting.

- Solar water pumps are good when used in boreholes as the can pump water the whole day.

- Weaker boreholes can be used effectively using a low volume pump as it pumps 8 to 10 hours per day.

- In several cases, a solar pump is considered as an ideal solution when it comes to diesel options that require operating funds, maintenance, and fuel for logistics, installation and de-installation.

- Tracking arrays can easily be used to increase the daily pumping rates of water.

- Solar water pumps can offer clean solutions as it does not pose any danger of contaminating the borehole.

Theft of solar photovoltaic panels has become a problem and so solar pump owners should know how to take preventive measures to avoid such incidents.

Solar Water Pumps Are More Cost Effective In The Long Term

Cost comparison was conducted for both solar and diesel water pumps based on the range of pumping heads as well as the range of daily flow rates. On the comparison conducted, all-inclusive costs were also taken into account. The operating costs, replacement cost, maintenance cost, initial upfront cost were all included in the comparison. To fairly compare the solar pumps against diesel pumps, all -inclusive costs should be calculated to get a more accurate result. The all-inclusive cost may usually take a long-term approach and should be calculated in a period of over twenty years, which is the minimum life expectancy of the solar panels as well.

The result of the comparison has shown that diesel pumps are almost 2 to 4 times more expensive than solar pumps in a span of 20 years, while pumping the same amount of water on average per day. So before buying water pumps for your home, make sure to do a little research. If your research and calculation show that you can save more when using solar water pumps, even with the cost of solar panels included, then it will be much better to opt for these types of pumps instead of the diesel dirty water pumps.

Solar water pumps are considered a more practical choice since it is cost effective in the long run, and does not need any means of energy-source aside from the sunlight that is generated using solar panels. To verify your cost calculations, you may wish to consult people who have used solar pumps and those who are using diesel pumps for more accurate comparison.

(Source: http://www.aboutpumpsguide.com/solar-water-pumps.html)

Solar Power May Already Rival Coal, Prompting Installation Surge (By Ehren Goossens)

Solar panel installations may surge in the next two years as the cost of generating electricity from the sun rivals coal-fueled plants, industry executives and analysts said.

Large photovoltaic projects will cost $1.45 a watt to build by 2020, half the current price, Bloomberg New Energy Finance estimated today. The London-based research company says solar is viable against fossil fuels on the electric grid in the most sunny regions such as the Middle East.

“We are already in this phase change and are very close to grid parity,” Shawn Qu, chief executive officer of Canadian Solar Inc. (CSIQ), said in an interview. “In many markets, solar is already competitive with peak electricity prices, such as in California and Japan.”

Chinese companies such as JA Solar Holdings Ltd., Canadian Solar and Yingli Green Energy Holding Co. are making panels cheaper, fueled by better cell technology and more streamlined manufacturing processes. That’s making solar economical in more places and will put it in competition with coal, without subsidies, in the coming years, New Energy Finance said.

“The most powerful driver in our industry is the relentless reduction of cost,” Michael Liebreich, chief executive officer of New Energy Finance, said at the company’s annual conference in New York yesterday. “In a decade the cost of solar projects is going to halve again.”

Installation Boom

Installation of solar PV systems will almost double to 32.6 gigawatts by 2013 from 18.6 gigawatts last year, New Energy Finance estimates. Manufacturing capacity worldwide has almost quadrupled since 2008 to 27.5 gigawatts, and 12 gigawatts of production will be added this year. Canadian Solar has about 1.3 gigawatts of capacity and expects to reach 2 gigawatts next year, Qu said.

“You have to get better at it as well,” said Bill Gallo, CEO of Areva SA (CEI)’s solar unit. The French company could shave another 20 percent from the cost of making its concentrating solar thermal technology, and the same proportion from building and deploying plants, he said.

Electricity from coal costs about 7 cents a kilowatt hour compared with 6 cents for natural gas and 22.3 cents for solar photovoltaic energy in the final quarter of last year, according to New Energy Finance estimates.

Comparisons often overstate the costs of solar because they may take into account the prices paid by consumers and small businesses who install roof-top power systems, instead of the rates utilities charge each other, said Qu of Canadian Solar.

“Solar isn’t expensive,” he said “In many areas of the solar industry you’re competing with retail power, not wholesale power.”

Rooftop solar installations also will become cheaper, the executives said.

“System costs have declined 5 percent to 8 percent (a year), and we will continue to see that,” SolarCity Inc. CEO Lyndon Rive said in an interview. The Foster City, California- based company is a closely held installer and owner of rooftop power systems. 

(Source: http://www.bloomberg.com/news/2011-04-05/solar-energy-costs-may-already-rival-coal-spurring-installation-boom.html)

Cheaper options for solar power (By Hussain Ahmad Siddiqui | InpaperMagzine)

RAPID development in solar energy technologies has made it an alternative to fossil-fuel power generation in many countries.
But Pakistan does not have to depend on borrowed ideas for generating bulk solar power at a high cost, when other economical options are available.
In a bid to overcome electricity loadshedding, the Punjab government has moved to tap possible energy resources for power generation on fast-track basis. An agreement was signed by it in July last year with a German firm to establish a 50-mw solar energy unit at Jalalpur Pirwala, Multan, apparently without conducting any project feasibility study. The first-ever solar farm costing $150 million, was to be installed within six months. But there is no physical progress achieved as yet.
Likewise, the government of Sindh has allowed an independent power producer (IPP) to construct a 50-mw solar power generation unit at Dhabeji and allotted 150-acres land to the investor at a nominal cost. The project, for which an agreement was signed by the sponsor with the same foreign company during the same period at a total cost of $125 million, was scheduled to generate power commercially by December 2011. So far, no construction activity has been undertaken at the site.
Both the projects are based on solar photovoltaic (PV) system and are proposed to be connected to the national grid. Seemingly, the projects are non-starters for a number of reasons. First, solar thermal electricity is the most expensive among other renewable energy resources.
In case of hydropower, and even wind energy, availability, reliability and affordability of power is comparatively much higher, since solar units usually attain the rated output only for about two hours a day around noon.
Also, capital cost is higher. Cost per mw for these solar projects works out to be $3 million, whereas hydropower costs $1.5 million and coal-fired $1 millon per mw, according to international markets.
Second, solar technology selected is not appropriate for on-grid application as its adoptability to the existing grid remains problematic, and in some cases, disruptive to the grid.
The power generation occurs only when sunlight is strong, weather not cloudy and supply to grid fluctuates broadly resulting in irregular, intermittent feed.
Third, the plant module, technology selected and foreign partner are apparently not suitable. The German company specialises in commercial and residential PV systems, having individual installations of maximum one megawatt only, and not having a utility-scale system.
There are no references for large-scale utility projects either in Germany or in export market. It has recently completed a 463-kW commercial project in the UK (equivalent to meet energy requirements of 125 homes on yearly basis).
Primarily, there are two solar systems for generation of electricity using solar energy – directly, using PV system, which is the most common, and indirectly, utilising concentrated solar power (CSP) system. By the end of year 2010, global installed capacity of solar PV power was about 40,000 mw. Germany alone ranked as the world leader in the field has installations of 17,370-mw cumulative capacity.
Normally, the maximum size of a solar electric system is of 20-mw capacity. The Sarnia Solar Project in Ontario, Canada has just become the largest PV solar power plant in the world with the recent quadrupling of its size from 20-mw to 80-mw capacity. The CSP technology is employed for large-scale power generation and has the ability to store energy as sunlight generating strong heat that, in turn, is used for power steam turbine.
The CSP technology, commercially developed in the late 1980s, is now proven and has an installed capacity of over 1,000 mw world over. There are four types of CSP plants: (i) parabolic trough, (ii) compact linear Fresnel reflectors, (iii) dish Stirling (parabolic) and (iv) solar power tower. International Energy Agency (IEA) forecasts that technology could be developed as a source of bulk power in peak and intermediate loads by 2020 and further, in base load, by 2030. Thus, within two decades the CSP technology might be able to compete with coal-fired power generation.
Currently, Mojave Desert of California has the world’s largest power plant, of 354-mw capacity, based on the CSP technology.
Now, Abu Dhabi plans to develop a 100-mw solar power plant adopting the CSP technology. Construction of the plant, which would cost $600 million, is scheduled next month.
Pakistan has abundant solar resources, while almost half of its population is devoid of electricity connectivity. There are about 40,000 villages with more than three million households that are without access to electricity and will remain so for long if allowed to depend on grid connection. Nevertheless, low-technology solar option offers long-term solution for electrification in these far-flung areas.
Based on PV, stand-alone solar systems are being used economically as a source of electric power for remote areas not connected with the grid. By the year 2010, a total of about 650 kW of PV have been installed for village electrification in Sindh and Balochistan. In addition, another 4,500 houses in Dalbandin (Balochistan) have recently been energised with solar power.
Moreover, stand-alone solar systems in the range of 600 watts to 5 kW have been installed in Sindh under the prime minister’s initiative.
Various NGOs have also electrified 485 houses in the FATA, about 2,000 houses in the AJK, and 12 solar panel systems of combined capacity of 3,600 watts in ten villages of Ziarat district (Balochistan). Other applications of solar energy in these areas are solar space heating, water heating, lighting, cooking, process heating, water pumping and telecommunication, etc.
The trend is being followed in urban areas. Besides street lights, a number of public and commercial buildings, including mosques, hospitals and parks, have been illuminated through solar energy. List covers the Quaid-e-Azam’s mausoleum and two systems of 180-kW each on grid solar system in Islamabad.
A number of solar thermal appliances such as solar cookers, solar water heaters and solar lights have been introduced in the country. Punjab also plans installation of tube-wells to be operated with solar energy at a cost of Rs1.36 billion.
Large-scale solar thermal power generation cannot play, and should not be allowed to play, a significant role in meeting power demands mainly for the reason that immense potential exists for hydropower and coal resources, which are abundant and cheap, and comparatively have many advantages for development under local conditions. This potential is required to be harnessed optimally and speedily. Simultaneously, solar PV system also needs to be developed further.

(Source: http://www.dawn.com/2011/09/12/comment-and-analysis-cheaper-options-for-solar-power.html)

Photovoltaics among fastest growing industries in the world by Staff Writers Ispra, Italy (SPX) Sep 08, 2011

Photovoltaics among fastest growing industries in the world Brussels, 5 September 2011 -The tenth edition of the JRC PV Status Report indicates that in 2010, the photovoltaic (PV) industry production more than doubled and reached a world-wide production volume of 23.5 gigawatt (GW) of photovoltaic modules.
Since 1990, photovoltaic module production has increased more than 500-fold from 46 megawatts (MW) to 23.5 GW in 2010, which makes photovoltaics one of the fastest-growing industries at present.
Photovoltaics is a method of generating electrical power by converting solar radiation into direct current electricity. It is one of the most promising technological options to realise the shift to a decarbonised energy supply.
Current solar cell technologies are well established with sufficient efficiency and energy output for at least 25 years of lifetime. This reliability, in addition to the increasing potential of electricity interruption from grid overloads, and the rise of electricity prices from conventional energy sources, add to the attractiveness of photovoltaic systems.
In 2010, the world-wide photovoltaic production more than doubled, driven by major increases in Europe. For 2010 the annual market volume of newly-installed solar photovoltaic electricity systems varies between 17 and 19 GW, depending on estimates. This represents mostly the grid-connected photovoltaic market, as there are no reliable estimates available for the non grid-connected market.
The report, published by the European Commission's Joint Research Centre (JRC) shows that with a cumulative installed capacity of over 29 GW, the European Union is leading in PV installations. By the end of 2010, European photovoltaic installations provided more than 70% of the total world-wide solar photovoltaic electricity generation capacity.
The photovoltaic industry has changed dramatically over the last few years. China has become the major manufacturing centre for solar cells and modules followed by Taiwan, Germany and Japan. Amongst the twenty biggest photovoltaic manufacturers in 2010, only four had production facilities in Europe, namely First Solar (USA, Germany, Malaysia, Vietnam), Q-Cells (Germany and Malaysia), REC (Norway and Singapore) and Solarworld (Germany and USA).
A special feature is the dramatic price reduction for solar modules by almost 50% over the last three years. This can be explained by the evolution from a supply to a demand-driven market and the resulting over-capacity for solar modules. Business analysts predict that investments in PV technology could double from euros 35-40 billion in 2010 to over euros 70 billion in 2015, while they expect prices for consumers to continuously decrease.
Even with current economic difficulties, the number of market implementation programmes is still increasing world-wide. Examples of such measures to promote the use of PV technology include renewable portfolio standards, and feed-in tariff tax incentives. Coupled with the overall rising energy prices and pressure to reduce greenhouse gas emissions, this will continue to keep demand for solar systems high.
In the long-term, growth rates for photovoltaics are expected to remain high. The study concludes that in order to maintain the high growth rate of the photovoltaic industry, different pathways have to be pursued. There is a need to reduce the material consumption per silicon solar cell because the cost of silicon is one of the main price factors of such solar cells.
In parallel, the manufacturing of thin-film solar cells should be increased and the introduction of concentrated photovoltaics (CPVs) should be accelerated. Concentrated photovoltaics (CPVs) is a new technology which substitutes semi-conductor material with cheaper concentrating lenses, typically of plastics.

(Source: http://www.solardaily.com/reports/Photovoltaics_among_fastest_growing_industries_in_the_world_999.html)

New fuel discovered that reversibly stores solar energy By Yun Xie

Since the 1970s, chemists have worked on storing solar energy in molecules that change state in response to light. These photoactive molecules could be the ideal solar fuel, as the right material should be transportable, affordable, and rechargeable. Unfortunately, scientists haven’t had much success. One of the best examples in recent years, tetracarbonly-diruthenium fulvalene, requires the use of ruthenium, which is rare and expensive. Furthermore, the ruthenium compound has a volumetric energy density (watt-hours per liter) that is several times smaller than that of a standard lithium-ion battery.

Alexie Kolpak and Jeffrey Grossman from the Massachusetts Institute of Technology propose a new type of solar thermal fuel that would be affordable, rechargeable, thermally stable, and more energy-dense than lithium-ion batteries. Their proposed design combines an organic photoactive molecule, azobenzene, with the ever-popular carbon nanotube.

Before we get into the details of their proposal, we’ll quickly go over how photoactive molecules store solar energy. When a photoactive molecule absorbs sunlight, it undergoes a conformational change, moving from the ground energy state into a higher energy state. The higher energy state is metastable (stable for the moment, but highly susceptible to energy loss), so a trigger—voltage, heat, light, etc.—will cause the molecule to fall back to the ground state. The energy difference between the higher energy state and the ground state (termed ΔH) is then discharged. A useful photoactive molecule will be able to go through numerous cycles of charging and discharging.

The challenge in making a solar thermal fuel is finding a material that will have both a large ΔH and large activation energy. The two factors are not always compatible. To have a large ΔH, you want a big energy difference between the ground and higher energy state. But you don’t want the higher energy state to be too energetic, as it would be unstable. Instability means that the fuel will have a small activation energy and be prone to discharging its stored energy too easily.

Kolpak and Grossman managed to find the right balance between ΔH and activation energy when they examined computational models of azobenzene (azo) bound to carbon nanotubes (CNT) in azo/CNT nanostructures. According to their calculations, placing azobenzene on carbon nanotubes will stabilize both the ground and higher energy states. There is a decent energy gap between the two states, meaning a good ΔH. Second, stabilizing the higher energy state means that the activation energy is large enough to give the photo-excited azo/CNT material a relatively long half life (over one year).

In terms of energy storage, the azo/CNT nanostructures outdo lithium-ion batteries. Kolpak and Grossman calculate that the azo/CNT system will have volumetric energy densities of about 690 watt-hours per liter; lithium-ion batteries range from 200 to 600 watt-hours per liter. For comparison, azobenzene alone has a volumetric energy density of only about 90 watt-hours per litter.

Kolpak and Grossman’s proposed azo/CNT system could be adapted for use with other photoactive molecules, as it appears that placing them on carbon nanotubes enhances their energy storage properties. This is perhaps the most important result from their work.

While Kolpak and Grossman have presented a promising new approach to making solar thermal fuels, there are potential drawbacks, and the fact that they haven't actually created the substance isn't even the most substantial. The energy stored in the azo/CNT system can only be released as heat. If you want to use the stored energy to power electrical devices, you would need to convert the heat to electricity. This adds a step that requires more equipment and can result in energy loss during the conversion.

(Source: http://arstechnica.com/science/news/2011/07/a-new-fuel-that-reversibly-stores-solar-energy.ars)

Solar power's appeal keeps heating up (Staci Matlock | The New Mexican) Thursday, August 25, 2011

A 5-kilowatt solar photovoltaic system installed on the Baker house in Santa Fe in 2008 powers all the family's electrical needs and an electric vehicle, plus it brings in a check for about $100 a month from Public Service Company of New Mexico.

"Maintenance-free since day one, and a really great investment both financially and environmentally," wrote Dan Baker in an email. "Working the numbers, my return on investment over the first 10 years will be about 4.5 percent, and a lot safer than the stock market."

New Mexico has long been home to solar power aficionados such as Baker. Some of them have been designing and tinkering with solar photovoltaic and thermal systems for years. Solar makes sense in a state that ranks second in the nation behind Arizona for solar power production potential.

Tax incentives, concern about climate change and the steep fluctuations in fuel prices are encouraging a growing number of people to follow in the Baker family's footsteps.

The Solar Fiesta this weekend in Albuquerque will be a gathering of solar experts to demonstrate systems, talk tax credits and educate people about the benefits of solar. A solar cook-off and a talk on converting cars to run on electricity are among dozens of presentations at the fiesta, Saturday through Sunday at Albuquerque Academy.

State and federal tax credits allow people to take 40 percent off the cost of installing solar PV or thermal systems up to a capped amount. More than 1,000 people applied for the state tax credit in 2010. That was an 86 percent growth in applications from the prior year, according to Jane Tabor, clean-energy administrator for the New Mexico Energy Minerals and Natural Resources Department. The state has received a couple of hundred applications already for this year. "Saving money on your utility bills is one of the only ways a homeowner can cut costs," Tabor said.

Investors also seem convinced solar is a good place to put their money. More than $20 million in private investment capital has been invested in solar projects since the tax-credit program was approved in 2007, said Louise Martinez, a bureau chief with the department.

Martinez said a manufacturer's tax credit also has encouraged solar manufacturing companies such as Schott Solar to open up in New Mexico.

Under state law, Public Service Company of New Mexico and other utilities reward customers with home solar and wind energy systems in two ways. The company pays 8 cents a kilowatt for 12 years as a renewable-energy credit, because those systems help the company meet state-mandated renewable-energy requirements. The company also does net metering, only charging a customer for power if they use more than their home power system produces.

Currently, 187 homes and businesses served by PNM have installed a total of 11.9 megawatts of solar photovoltaics, and there are 522 applications in process, according to PNM spokeswoman Susan Sponar. She said there's been a steady increase in applications each year.

The company also has 22 megawatts of utility-scale solar photovoltaic production.

The barrier for many people is the upfront cost to install.

New Mexico, along with two dozen other states, has approved a program that allows people to obtain funding to install solar systems with no upfront investment and pay the loan back through property taxes. The program is known as Property Assessment Clean Energy bond financing. Santa Fe County was selected by the New Mexico Association of Counties to develop a model ordinance to set up the PACE program. Homeowners can opt into the program, which would allow them to apply for special funds through the county, install the solar systems and then repay the lending agency through a special assessment on property taxes.

But the Federal Housing Finance Authority had problems with the PACE program. The authority ordered mortgage-underwriting giants Fannie Mae and Freddie Mac not to give mortgages on properties that had PACE assessments. The mandate effectively has put all PACE programs, such as the one proposed in Santa Fe County, on hold.

A bipartisan bill introduced in Congress on July 20 is the second attempt to address the authority's concerns so the lending programs can move forward.

For more information on the Solar Fiesta, visit www.nmsea.org.

Contact Staci Matlock at 986-3055 or smatlock@sfnewmexican.com. 

(Source: http://www.santafenewmexican.com/SantaFeNorthernNM/Solar-power-s-appeal-keeps-heating-up)

Tiny Gold Particles Boost Organic Solar Cell Efficiency: Plasmonic Technique Helps Enhance Power Conversion by Up to 20 Percent

In the world of solar energy, organic photovoltaic solar cells have a wide range of potential applications, but they are still considered an upstart. While these carbon-based cells, which use organic polymers or small molecules as semiconductors, are much thinner and less expensive to produce than conventional solar cells made with inorganic silicon wafers, they still lag behind in their ability to efficiently convert sunlight into electricity.

Now, UCLA researchers and their colleagues from China and Japan have shown that by incorporating gold nanoparticles into these organic photovoltaics -- taking advantage of the plasmonic effect, by which metal helps to enhance the absorption of sunlight -- they can significantly improve the cells' power conversion.

In a paper recently published in ACS Nano, the team of researchers, led by Yang Yang, a professor of materials science and engineering at the UCLA Henry Samueli School of Engineering and Applied Science and director of the Nano Renewable Energy Center at UCLA's California NanoSystems Institute, demonstrate how they sandwiched a layer of gold nanoparticles between two light-absorbing subcells in a tandem polymer solar cell in order to harvest a greater fraction of the solar spectrum.

They found that by employing the interconnecting gold-nanoparticle layer, they were able to enhance power conversion by as much as 20 percent. The gold nanoparticles create a strong electromagnetic field inside the thin organic photovoltaic layers by a plasmonic effect, which concentrates light so that much more of it can be absorbed by the subcells.

The team is the first to report a plasmonic-enhanced polymer tandem solar cell, having overcome the difficulties involved in incorporating metal nanostructures into the overall device structure.

"We have successfully demonstrated a highly efficient plasmonic polymer tandem solar cell by simply incorporating gold nanoparticles layer between two subcells," Yang said. "The plasmonic effect happening in the middle of the interconnecting layer can enhance both the top and bottom subcells simultaneously -- a 'sweet spot' -- leading to an improvement in the power conversion efficiency of the tandem solar cell from 5.22 percent to 6.24 percent. The enhancement ratio is as high as 20 percent."

The research team included Xing Wang Zhang from the Key Lab of Semiconductor Materials Science at the Institute of Semiconductors at Beijing's Chinese Academy of Science and Ziruo Hong from the Graduate School of Science and Engineering at Japan's Yamagata University.

Experimental and theoretical results demonstrate that the enhancement effect was attained from local near-field enhancement of the gold nanoparticles. The results show that the plasmonic effect has great potential for the future development of polymer solar cells. The team's proposed interlayer structures as an open platform can be applied to various polymer materials, opening up opportunities for highly efficient, multi-stacked tandem solar cells.

The research was financially supported by grants from the U.S. Office of Naval Research and the National Science Foundation.

The team also included Jun Yang, Jingbi You, Chun-Chao Chen, and Wan-Ching Hsu of the UCLA Department of Materials Science and Engineering and the California NanoSystems Institute.

(Source: http://www.sciencedaily.com/releases/2011/08/110816162311.htm)

Hybrid solar system makes rooftop hydrogen

While roofs across the world sport photovoltaic solar panels to convert sunlight into electricity, a Duke University engineer believes a novel hybrid system can wring even more useful energy out of the sun's rays.

Instead of systems based on standard solar panels, Duke engineer Nico Hotz proposes a hybrid option in which sunlight heats a combination of water and methanol in a maze of glass tubes on a rooftop. After two catalytic reactions, the system produces hydrogen much more efficiently than current technology without significant impurities. The resulting hydrogen can be stored and used on demand in fuel cells.

For his analysis, Hotz compared the hybrid system to three different technologies in terms of their exergetic performance. Exergy is a way of describing how much of a given quantity of energy can theoretically be converted to useful work.

"The hybrid system achieved exergetic efficiencies of 28.5 percent in the summer and 18.5 percent in the winter, compared to 5 to 15 percent for the conventional systems in the summer, and 2.5 to 5 percent in the winter," said Hotz, assistant professor of mechanical engineering and materials science at Duke's Pratt School of Engineering.

The paper describing the results of Hotz's analysis was named the top paper during the ASME Energy Sustainability Fuel Cell 2011 conference in Washington, D.C. Hotz recently joined the Duke faculty after completing post-graduate work at the University of California-Berkeley, where he analyzed a model of the new system.

He is currently constructing one of the systems at Duke to test whether or not the theoretical efficiencies are born out experimentally.

Hotz's comparisons took place during the months of July and February in order to measure each system's performance during summer and winter months.

Like other solar-based systems, the hybrid system begins with the collection of sunlight. Then things get different. While the hybrid device might look like a traditional solar collector from the distance, it is actually a series of copper tubes coated with a thin layer of aluminum and aluminum oxide and partly filled with catalytic nanoparticles. A combination of water and methanol flows through the tubes, which are sealed in a vacuum.

"This set-up allows up to 95 percent of the sunlight to be absorbed with very little being lost as heat to the surroundings," Hotz said. "This is crucial because it permits us to achieve temperatures of well over 200 degrees Celsius within the tubes. By comparison, a standard solar collector can only heat water between 60 and 70 degrees Celsius."

Once the evaporated liquid achieves these higher temperatures, tiny amounts of a catalyst are added, which produces hydrogen. This combination of high temperature and added catalysts produces hydrogen very efficiently, Hotz said.

The resulting hydrogen can then be immediately directed to a fuel cell to provide electricity to a building during the day, or compressed and stored in a tank to provide power later.

The three systems examined in the analysis

+ were the standard photovoltaic cell which converts sunlight directly into electricity to then split water electrolytically into hydrogen and oxygen;

+ a photocatalytic system producing hydrogen similar to Hotz's system, but simpler and not mature yet;

+ and a system in which photovoltaic cells turn sunlight into electricity which is then stored in different types of batteries (with lithium ion being the most efficient).

"We performed a cost analysis and found that the hybrid solar-methanol is the least expensive solution, considering the total installation costs of $7,900 if designed to fulfill the requirements in summer, although this is still much more expensive than a conventional fossil fuel-fed generator," Hotz said.

Costs and efficiencies of systems can vary widely depending on location - since the roof-mounted collectors that could provide all the building's needs in summer might not be enough for winter.

A rooftop system large enough to supply all of a winter's electrical needs would produce more energy than needed in summer, so the owner could decide to shut down portions of the rooftop structure or, if possible, sell excess energy back to the grid.

"The installation costs per year including the fuel costs, and the price per amount of electricity produced, however showed that the (hybrid) solar scenarios can compete with the fossil fuel-based system to some degree," Hotz said.

"In summer, the first and third scenarios, as well as the hybrid system, are cheaper than a propane- or diesel-combusting generator."

This could be an important consideration, especially if a structure is to be located in a remote area where traditional forms of energy would be too difficult or expensive to obtain.

(Source: http://www.solardaily.com/reports/Hybrid_solar_system_makes_rooftop_hydrogen_999.html)

Solar use in Sydney soars (by Staff Writers)

Be set by rising consumer energy prices, consumers in Sydney, Australia's most populous city, are looking to solar energy.
In 2010 the city introduced a solar bonus scheme, which was very popular in Sydney's more prosperous suburbs, with more than 14 percent of homes installing rooftop solar panels, compared with a New South Wales statewide average of about 3 percent.
Paul Myors is an energy efficiency specialist with Ausgrid, a state-owned electricity infrastructure company which owns, maintains and operates the electrical distribution networks to 1.6 million customers.
He said that the number of private dwellings with solar panels had increased from 2,000 18 months ago to 46,000 after the former New South Wales Labor government introduced a solar bonus rebate scheme.
That plan allowed for a 60-cents-per-kilowatt-hour feed-in tariff for consumers utilizing solar panels, The Sydney Morning Herald reported.
Myors noted that, while government statistics indicated that electricity usage increased every year from the 1950s, in 2007 usage peaked and since then has been shrinking by about 2 percent annually because of increased energy prices and conservation measures.
Analysts say high installation rates of solar energy equipment in certain towns are because a number of Australian solar panel companies manufacturing the photovoltaic panels have conducted an astute and intensive marketing campaign.
Strata Community Australia Chief Executive Officer Mark Lever said more than 70 percent of residents in many Sydney local government areas live in apartments, as do more than 50 percent in North Sydney.
So, he added, that while many resident were interested in installing solar panels to lessen energy costs, the federal and state governments had sufficiently considered their wishes when designing rebate schemes.
''Corporate entities are not eligible for federal renewable energy certificates and then they have to deal with the fact the Tax Office regards any income to the body corporate from solar schemes as mutual income that is taxable in the hands of individual owners," Lever said.
Strata, also known as "Strata Title," is a political mechanism introduced into Australia in 1961 for handling the legal ownership of a "portion" of a building or structure.
Bowing to increasing public interest in the issue, Ausgrid has begun publishing details of solar panel installations and other data on its Web site to allow councils, consumers and other interested parties to evaluate patterns of electricity usage.
Australia's climate is ramping up electricity demands, as in the past decade percentage of houses in New South Wales, Myors said, with air conditioning use in New South Wales soaring from 30 percent to 70 percent, placing additional strains on the electrical grid.


(Source:http://www.solardaily.com/reports/Solar_use_in_Sydney_soars_999.html)

Solar Energy – The Best Choice for Our Future!

The earth’s natural resources are getting scarcer everyday and we need to look for environmentally safe alternatives that are plentiful and cheap. I can think of no other than Solar Energy. Solar energy produces no negative by-products that effect the environment like coal or nuclear and is not in short supply.

Best of all it’s free to everyone. For example home owners can harness the abundant energy from the sun by installing solar panels on their roof or an open space that is exposed to the rays of the sun. Solar panels easily capture the sun’s energy and coverts it to electricity to be used to run everything from your hot water heater to your TV. Even in areas of the world where the sun’s rays are unavailable or insufficient everyday, powerful battery technology can store the surplus when the sun is shining and use it when needed.

With the demand increasing expect to see many breakthroughs in solar energy technology over the next few years. This will no doubt create a huge demand for certified solar trained professionals in many different positions around the world. When considering solar training look first to eRenewable Resource Institute Providing ISPQ Accredited* Hands-On Solar Installation Training located in sunny Phoenix Arizona. All eRenewable students qualify for ARG STAFFING’s free “green staffing machine,” services that include assistance with job placement and career enhancement. Classes are limited so call today, visit the website, www.eRenewableResouce.com, for a complete list of available classes and dates. *ISPQ accreditation, issued by The Interstate Renewable Energy Council, is not a recognized accrediting body by the US Department of Education.

(Source:http://erenewableresourcegroup.wordpress.com/2011/03/30/solar-energy-the-best-choice-for-our-future/)