Classic Composition Mount

Quick Mount PV's Classic Composition Mount uses the patented QBlock to provide the easiest, fastest, most universally code-compliant watertight mount available for composition roofs.

SolarEdge Technologies

SolarEdge provides a Distributed Solar Power Harvesting and PV Monitoring Solution, for maximum energy production and faster return on investment. SolarEdge PowerBoxes perform module-level MPPT and monitoring and communicate across existing power lines. PowerBoxes always maintain fixed DC string voltage, for optimal efficiency of the PV inverter. SolarEdge enables more power from any given PV system, with no design constraints, a complete panel-level monitoring, safety and anti-theft mechanism.

Asia Report: India's Wind Power Capacity Expected to Balloon by 2020, Says GWEC

India's installed wind power capacity is expected to reach 89 GW by 2020 and 191 GW by 2030, according to a new report. This expansion in wind power is expected to attract $16.5 billion of annual investment, create 179,000 jobs an... Full Article

Free Carbon May Chop Renewables Costs, EON's Schaefer Says

Europe should consider cutting costs for consumers by rewarding renewable power and energy efficiency through the region's carbon market rather than through expensive subsidies to utilities, the head of EON SE's trading unit said. Full Article

Who Needs Third-Party Finance? Loan Programs Offer Low-Cost Direct Ownership Opportunities

Direct ownership of solar systems offers an array of benefits generally not available to third-party finance. And new loan programs are making it easier to achieve that goal. Full Article

Community Solar Shouldn't Be this Hard

Sunlight falls almost anywhere, in every community. So it would make sense for any number of people in that community to team up to harness the sun and make clean, local power.  Sadly, it isn't as easy as it should be, as illustra... Full Article

MHI and SSE Partner to Bring Cargo Container Battery Storage to Orkney Islands Power Grid

Mitsubishi Heavy Industries (MHI) has announced a partnership with SSE plc, an electric utility company located in Scotland, for an energy storage demonstration project that will use two 40-foot cargo containers full of thousands ... Full Article

Renewable Energy Executive Roundtable

by Lindsay Morris, Associate Editor, Power Engineering
	Power Engineering's Lindsay Morris hosted this year's Renewable Energy Executive Roundtable with five executives in the clean energy sector: Matt Burkhart, vice president of electric and fuel procurement, San Diego Gas & Electric;... Full Article

Natural Gas and Coal - Leading Energy Source

Natural Gas and Coal are still leading Energy Source although Coal is suffering from tough competition with Natural Gas. Natural gas prices were at hike at the time of Hurricane Katrina, so more power companies were using coal fore power generation purposes. Natural gas is not a global commodity being very difficult to transport at long distances. Because of this, the natural gas prices is much, much lower in North America than other parts of the world.

SolarCity in Exploration of the Dark Underbelly of Solar Leasing

Treasury Dept. Fingers SolarCity in Exploration of the Dark Underbelly of Solar Leasing

by John Farrell, Institute for Local Self-Reliance | October 15, 2012 | Post Your Comment A new government investigation of SolarCity on the eve of its initial public offering (IPO) may explain how solar leasing is fleecing federal taxpayers and making U.S. residential solar more expensive than in other countries. Full Article TOPNEWS UPDATE: Western Solar Zones to Streamline Development on Public Lands by Steve Leone, Associate Editor, RenewableEnergyWorld.com | October 15, 2012 | 11 Comments Update: Interior Secretary Ken Salazar officially announced last week that the Department of the Interior has designated 285,000 acres of public land for solar development on pre-sited zones in the Western states of Arizona, Calif... Full Article TOPNEWS Solar Silicon to Bottom as China Halts Factory Expansion by Marc Roca, Bloomberg | October 15, 2012 | Post Your Comment Polysilicon, the raw material used by the $38 billion a year solar industry, is forecast to bottom near a record low next year after the leading manufacturers in China and South Korea halted factory expansions. Full Article TOPNEWS The Question Day 9: What is the Most Difficult Issue Facing the Solar Industry? by Renewable Energy World Editors | October 15, 2012 | 63 Comments It's been a year of both continued expansion and mounting challenges for the global solar industry. RenewableEnergyWorld asked solar industry executives to share their thoughts and insights on one burning question: Full Article COMMENTARY Solar Thermal Holds Steady in Europe by Tildy Bayar, Associate Editor, Renewable Energy World | October 15, 2012 | Post Your Comment Should the European solar thermal industry be cautiously optimistic that a year without decline points to a market turnaround? Introducing the trade body's new market report, European Solar Thermal Industry Federation (ESTIF) pres... Full Article MAGAZINE Recurrent Energy Continues U.S. Hires Despite Trouble at Parent Sharp by Bernard Ferret | October 15, 2012 | Post Your Comment Sharp Corp, deeply in the red, has recently announced that it will cut almost 11,000 jobs (or 18% of its workforce) around the World, and sell many assets. The asset sale may include Recurrent Energy that it bought in 2010 for $30... Full Article BLOG

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5-Blade 500W Max/12V - Low Wind Model

Wind turbine (Photo credit: Wikipedia)

English: A size comparison of wind turbines (Photo credit: Wikipedia)

Icon of Wind Turbines (Photo credit: Wikipedia)

English: The three primary types of wind turbine--Savonius and Darrieus vertical axis wind turbines (VAWTs) and a standard horizontal axis wind turbine (HAWT)--all with three blades, are spinning as if they are in operation in real wind. They are spinning at the same speed (mathematically); 30 rpm. (Photo credit: Wikipedia)

Very low cost Home Wind Turbine Generator 5-Blade 500W Max/12V - Low Wind Model

Advantages of 5-blade wind turbines over 3-blade wind turbines 

1) 5-blade wind turbines will greatly improve annual energy production in low wind conditions. For areas with average wind speeds of 11 MPH (5m/s). If you compare annual energy output to conventional 3-blade wind turbine, there is an increase of annual energy output of more than 60%. 

2) 5-blade wind turbines will dramatically improve the reliability and safety in high speed wind conditions. The blade rotation speed of a 5-blade turbine is 60% of the rotational speed for a 3-blade wind turbine. 5-blade wind turbines will greatly reduce chance of overspeed control malfunction. This will ensure operational reliability from a long term perspective. 

3) The lower blade rotation speed of 5-blade wind turbine will lower wind turbine noise and make 5-blade wind turbines more community friendly than 3-blade wind turbines. Nylon-Fiber Glass High Efficiency blades is aerodynamically designed to regulate themselves, slowing automatically in high winds. 

1. Strong Neodymium magnet PMA, the unique winding and multi pole design reduces the start-up torque of the alternator that assures generator to generate electricity at low wind speed. 4.5 mph start up wind speed.

2. Electric over-speed control, no more problematic mechanical furling. 

3. Innovative low maintenance two-moving-part system design. 

4. Easy to Install, Light Weight and highly reliable. 

5. Generator: The generator is built using high-performance rare earth neodymium permanent magnets, so the alternator is compact and light weight with a high power generating efficiency. Number of Blades: 5 Blade Diameter: 4.6 Feet Rated 400W @26 mph More Energy Output at low wind than 3-blade models Max Wind Output: 500W

• Innovative 5-blade design to maximize energy output at low wind conditions under 25 mph.
• 60% MORE energy output at LOW wind than 3-blade turbine
• Reliable two-moving-part matainenance free design, Nearly silent operation
• Controller Electric speed limitation, blade over-speed braking
• Strong Neodymium magnet PMA, Nylon fiber composite blades

Vestas low-wind 3 MW wind turbine V126-3.0 MW turbine

English: Vestas V80 Wind turbine in Simmersfeld Windpark (Photo credit: Wikipedia)

Vestas V90-3MW wind turbine nacelle (Photo credit: Wikipedia)

Vestas wind turbine, Dithmarschen. (Photo credit: Wikipedia)

Propellerblatt over (Photo credit: hmboo)

The turbine is the latest variant of the 3 MW platform on which the V112-3.0 MW is built. Vestas will continue to optimise this platform in order to offer further options to the customers.

The new V126-3.0 MW turbine has a rotor diameter of 126 metres to target low wind conditions (i.e. wind class IEC III) and features a structural shell blade design. The well-known blade design halves the capital investment in new production lines, improves flexibility in manufacturing, and at the same time maintains the reliability and high quality of Vestas’ turbines.

The V126-3.0 MW turbine is mainly targeting the European markets. In August 2010, Vestas released the first turbine in its new 3 MW platform, the V112-3.0 MW turbine, which has been very well received by the market, resulting in an intake of firm and unconditional orders of more than 3 GW since the release.

Anders Vedel, Executive Vice President, Turbines R&D said: “The rotor swept area of the new V126-3.0 MW wind turbine has been increased by 27 per cent and the turbine is specifically designed to yield maximum power production on low wind sites. There is a huge need for larger rotor sizes in the low wind market, particularly in Europe, and the V126-3.0 MW offers a new option for customers who want to combine the proven technology and serviceability of the 3 MW platform with greater power output in low wind sites. Furthermore, the structural shell blade design halves the investments in new production lines.”

The first prototype of the V126-3.0 MW turbine is expected to be installed in Østerild in Denmark during the second quarter of 2013.

To learn more about the new turbine, please follow this link:
www.worldofwind.vestas.com/presentations/v126_ca.

Advanced Blade Design Wind Turbines

English: View of Fan blades of JT8D Jet engine after a bird strike Türkçe: Bir JT8D Jet motorunun Kuş çarpması neticesinde hasara uğramış fan pallerinin görünümü (Photo credit: Wikipedia)

Blades (Photo credit: Velo Steve)

Evolution of the Airfoil (Photo credit: NASA on The Commons)

English: Transonic tunnel fan blades, with light reflections. Grady McCoy is shown standing next to the fan blades. (Photo credit: Wikipedia)

English: View of Fan blades of JT8D Jet engine after a bird strike Türkçe: Bir JT8D Jet motorunun Kuş çarpması neticesinde hasara uğramış fan pallerinin görünümü (Photo credit: Wikipedia)

Messed up fan blades. (Repairing a broken mixer) (Photo credit: mskogly)

Airfoil fan blades provide efficiency and low noise using classic airfoil design

Airfoil impellers have a round leading edge, a sharp trailing edge, and in profile or cross section. As air approaches the blade’s leading edge, the stream splits and travels above and below the blade. Air is deflected across the convex curve along the top of the blade and along the flat or concave curve on the bottom of the blade, and flows downward over the sharp trailing edge as it leaves the blade.

According to Bernoulli’s Principle, the faster moving air across the top of the blade creates less pressure than the slower moving air on the bottom of the blade. This creates lift in an airplane wing or airflow in an impeller. Airfoil impellers function just like a series of small airplane wings attached to a hub, with one notable exception. In axial fans, the airfoil’s twisted design ensures that the incident angle between the airfoil and the airflow is constant along the blade length, giving a uniform blade loading for high efficiency, low noise fans.

Most efficient design in optimized conditions

• Twisting the blade reduces vortex shedding along the profile
• Airfoil blade provides low power consumption
• Cooling tower fans, radiator fans, HVAC fans, refrigeration fans
• Diameter range of 8-108 inches

Multi-Wing’s airfoil design has a broad operating range, making it suitable for everything from the most demanding engine-cooling applications to essentially any ventilation requirement. Airfoil fans may be configured as either blowers or suckers, and the blades may also have varying pitch angles to control air volume. The airfoil’s low power consumption saves power while reducing noise, making it a high efficiency solution for a spectrum of cooling applications.

The high efficiency blade design has also made Multi-Wing’s airfoil profiles a great answer for the challenges of the Tier IV emissions standards. The 4Z, 5Z and 6W blades each can be tailored as an engine cooling fan, a condenser fan, a radiator fan or an oil cooler fan. In fact, select airfoil fans have the narrow axial depth necessary to provide the required cooling performance in the tight engine compartments that result from Tier IV. As one of the nation’s premier heat transfer products firms noted in their seminars on Tier IV requirements, “Outside of the core, the fan is the most important component of the cooling package.”

Source: http://www.multi-wing.net/blade-profiles/airfoil-fan-blades/

The Future of Outdoor Lighting: How it Works

English: Global Wind Power Cumulative Installed Capacity (Data source: GWEC, Global Wind Report Annual Market Update 2010http://www.gwec.net/index.php?id=180) (Photo credit: Wikipedia)

wind power (Photo credit: twicepix)

Image via CrunchBase

HUSUM, GERMANY - SEPTEMBER 19: Visitors stand in front of a display showing wind power stations at the HUSUM 2012 Wind Energy Trade Fair on September 19, 2012 in Husum, Germany. Germany is investing heavily in onshore and offshore windparks as the country moves to increase its portion of energy derived from renewable sources. (Image credit: Getty Images via @daylife)

Although wind has been harnessed for centuries, it has only recently emerged as a modern energy solution. Prior to the 21st century, wind power was often used to pump water from wells and drive grain and textile mills. Over the last twenty years, advances in technology and design have reduced the cost of wind energy by more than 80 percent, making wind the cheapest form of renewable energy. In 2008, UGE emerged as a world leader in small wind energy based our novel turbine design, which increases power generation and efficiency and reduces noise and safety concerns. Our success led to a product partnership with General Electric and commercial partnerships with a number of the world's leading distributed energy companies.

• UGE wind turbines are highly versatile and able to create energy in a wide variety of settings.
• Solar panels complement the system or act alone, and control the ON/OFF of the LED.
• An efficient LED illuminates the street, parking lot, or path below.
• The decorative tower allows for space to be used for education or advertising.
• Batteries in the enclosure provide 3-5 days of back-up energy storage.