As mentioned in my 2012 solar energy expectations yesterday, I think India’s got a good chance of shooting onto the solar power map this year. Following up on solar in India, a recent report by Bridge to India estimates that the country will have 33.4 gigawatts (GW) of solar power installed by 2022, far more than the 20 GW that are targeted by India’s National Solar Mission (NSM).
What could be more annoying than your gadgets running out of juice while you are on the road? As the technology has brought forward a plethora of gadgets, our lifestyle has changed drastically and we completely rely on these devices for almost everything. These devices require a lot of energy in the form of electricity to keep them working. In order to make sure that you beloved gadgets never run out of battery on the go, wearable chargers seem to be a great option. Since, the chances are rare that you will find an electrical socket at every place you go, you might love to consider the idea of having an eco-friendly wearable charger for your electronics. Hit the jump to see some of the most amazing and stylish green wearable chargers, from solar panel vests to sound absorbing T-shirts, which will provide juice for your gadgetry the very moment you need it the most.
The Zibo city of China is ready to share expertise for setting up solar energy projects in Hyderabad, according to Dr Wang Jianzhong, deputy director of the Zibo Municipal Foreign Affairs Office.
Speaking at a reception given in his honour by the Hyderabad Chambers of Commerce and Industry (HCCI), he said Zibo was one of the most important industrial cities of China.
He said that in the trade with Pakistan, Zebo mainly imported cotton and exported medicines, industrial equipment and other goods.
There are many new technologies being developed to create cheaper, more efficient solar panels – however researchers at the National Renewable Energy Laboratory just announced that they have found a way to create more efficient photovoltaic cells using 50% less energy. The technique hinges upon a new optical furnace that uses intense light instead of a conventional furnace to heat silicon to make solar cells. The new furnace utilizes “highly reflective and heat-resistant ceramics to ensure that the light is absorbed only by a silicon wafer, not by the walls inside the furnace.”
More than 500,000 SHS systems have been installed cumulatively as of year-end 2010, according to Grameen Shakti. The SHS home energy package includes one or more solar photovoltaic (PV) panels, batteries, a power regulator, and a set of compact fluorescent lamps (CFL) and LED lights.
The Düsseldorf International Airport is about to flip the switch on one of the largest solar arrays in Germany. The 8,400 panel, 2 megawatt solar array spans the space of six soccer fields, and it was finished in time to start feeding power to the grid before the clock strikes 2012. To prove the solar array’s everyday worth, the airport has installed a real time statistics ticker in the airport lobby so passengers can see how much energy it is creating and how much carbon dioxide is being diverted from the atmosphere.
The German Solar Industry Association (BSW) has announced that German solar power producers have increased electricity output this year by 60 percent over 2010 to 18 billion kWh. This is more than three percent of total power output volumes.
BSW’s managing director Carsten Koernig stated that “solar energy has become an indispensable ingredient of a successful energy strategy shift”. The solar sector has already produced enough electricity to power approximately 5.1 million households. This accounts for about one-eighth of all households in Germany.
Every now and then when we post on how solar power is bringing the internet to rural Africa, or enabling the charging of mobile phones in poor communities, I’ll hear concerns from naysayers who wonder what these technologies might mean for traditional social structures in these remote areas.
Let’s leave aside the morally questionable issue of internet-connected critics worrying about access to the internet for others for a moment, and look at the core question—does internet connectivity threaten rural communities? Actually, if UK-based charity Computer Aid is anything to go by, the reverse is true.
Disasters and accidents might happen anywhere in the world, as they could neither be predicted nor avoided. Though we cannot escape from such natural disasters, we may survive with the help of some emergency gadgets that rely on clean sources of energy so you don’t have to worry about gadgets that don’t have any juice when you need them the most.
A project that involved 1.8 megawatts (MW) of solar power, 500 geothermal wells, and fuel cells could potentially reduce energy consumption at a Cornell University campus by 75%. The campus has the name “NYC Tech Campus” and is a project of Distributed Sun.