Designer Omer Sagiv’s futuristic Solar Powered Vehicle (SPV) is an ideal vehicle for long rides in deserts or other open lands. The SPV is a typical solar vehicle design. The aluminum structure mounts plenty of flexible thin film modules, which can generate much energy for long rides. In form, the SPV almost resembles Nuon solar car, developed by Delft University.
Maricopa County, Arizona is set to play host to a 125 MW photovoltaic solar power plant, according to an announcement on Tuesday from Fluor Corporation. The company has won the separate contracts to build and maintain the facility, which upon completion will fleetingly join the ranks of the the world’s largest photovoltaic solar farms. The project, known as Arlington Valley Solar Energy II (AVSE II) will be built on 1.8 square miles (4.7 sq. km) near to the Arlington Valley Combined Cycle Facility, a 577 MW natural gas plant also designed and built by Fluor.
Last October, the SolarWorld GT solar-powered car set out from Darwin, Australia on a drive around the world. It has since driven 3,001 kilometers (1,865 miles) across Australia, logged 1,947 km (1,210 miles) crossing New Zealand and been shipped across the Pacific Ocean. This Friday, it will embark on the U.S. leg of its journey, as it sets out across America from the University of California, Santa Barbara.
The intermittent, yet often complementary, nature of wind and solar energy has long been observed and increasingly remarked upon of late. Minnesota’s Ecos Energy is looking to take advantage of that by building the state’s largest solar photovoltaic (PV) array on a 13-acre site in southwestern Minnesota, home to more wind farms than any other region state-wide, the StarTribune reports.
At 2-megawatts (MW), the solar power array can’t be considered large by any stretch, but it’s expected to provide enough electricity for 340 homes, about as much as a single wind turbine. Yet more significantly, Ecos Energy’s Slayton project will provide some trailblazing data as to whether or not intermittent solar energy and wind turbine arrays can be used in tandem to provide a more consistent supply of power to the grid.
According to a study conducted by ICF, a consulting firm for the US Department of Defense, surplus land at four military bases in the Mojave desert in California could be capable of producing up to 7 Gigawatts of solar power. These bases include, the Edwards Air Force base, Fort Erwin, China Lake and Twenty-nine Palms. Some 37,873 acres of land is available for setting these solar power plants, without impacting the space needs of the military for its ongoing operational needs or for potential future needs. The type of solar power plant to be installed, whether silicon flat panels or solar concentrators, has not yet been determined. If the go-ahead happens, power plant construction could commence by 2015.
The epic voyage of the Tûranor PlanetSolar – the world’s largest solar-powered boat – will soon come to a close as the ship closes in on its final stretch. The Swiss vessel is a full-bore high-tech solar harvesting machine whose deck is covered in 537 square meters of photovoltaic panels. The array produced enough energy for the boat to navigate the entire circumference of the Earth without any other means of energy. The Tûranor PlanetSolar is currently set to depart Abu Dhabi en route to their final port in Morocco – the same place the expedition launched on September 27th, 2010. The journey has come full circle in more than one respect, as it was not too long ago the only way to navigate the earth was by harnessing renewable energy with sails.
As you read this, a team of adventurers is cross-country skiing their way to the bottom of the world. But this is no ordinary Antarctic expedition – this is the first attempt made by an adaptive athlete to reach the South Pole on a sit ski. Marking the 100-year anniversary when Captain Robert Falcon Scott’s Terra Nova expedition reached the earth’s most remote spot, The Push: South Pole Adventure team is making history. The team is led by Grant Korgan, who injured his spinal cord, has no control of his legs from the knees down and has poor circulation in his feet. To keep his feet warm in the sub-zero temperatures, he’s relying on a Goal Zero portable solar photovoltaic system and some Therm-ic high-tech heated socks, without which he would never be able to reach his goal.
Swiss and German private equity funds Terra Nex and Middle East Best Select announced plans to build 400 megawatts (MW) of solar power generating capacity in the southeastern Arabian peninsula country of Oman, according to recent news announcements. The $2-billion project calls for construction of solar power installations, as well as facilities to manufacture solar photovoltaic (PV) panels for use in Oman and for export.
Some more astonishing stats on the progress Germany is making on solar power thanks to good, steady and predictable renewable energy policy: Greentech Media shares the astonishing fact that in the month of December alone Germany installed 2 GW of solar PV. For the whole of 2011, Germany installed 7 GW.
The US managed to install 1.7 GW in the same time period—which isn’t to knock US installation rates so much as to further highlight the massive Germany push to install more PV before the feed-in tariff for it drop as planned.