Albany, NY (PRWEB) August 08, 2014
Others recycle energy as with regenerative braking of cars, buses, and military vehicles harvesting kinetic energy. Others use different forms of harvesting either to charge the traction batteries or to drive autonomous devices as we progress to the wireless vehicle. In some cases, harvesting is making completely new forms of electric vehicle possible such as the "glider" Autonomous Underwater Vehicles (AUVs) that stays at sea for years and surface to gain electricity from both wave power and sunshine whenever necessary. Indeed, multiple forms of energy harvesting on one vehicle is becoming much more common from cars to superyachts.
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The electric vehicle industry – land, water, and air – is rapidly rising to become a huge market of over $290 billion by 2024. Some run entirely on harvested energy as with solar lake boats. This report is the first to provide technical and marketing analysis of the rapidly growing market for energy harvesting in electric vehicles – land, water, and air – with forecasts.
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This report gives a wealth of examples of energy harvesting in action on electric vehicles by land, water, and air. It summarizes trends in diagrams, tables, and text to make it easy to compare essential information. Forecasts for adoption in 2014 and 2024 are backed by ten-year forecasts for electric vehicle sales by type, 2014-2024 by category—number, unit value, and market value. A critical explanation of all the technologies is given with the good and bad aspects and assessment of likely future progress. The work of a large number of suppliers and adopters is assessed.
Low Iron Glass For Concentrating Solar Power (CSP): Market Shares, Strategies, And Forecasts, Worldwide, 2014 To 2020
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Growth potential of the CSP sector is strong, part of the solar growth that is poised to make solar energy represent 90% of the world's energy production within 25 years. Just as smart phones grew rapidly once the price points were affordable and the economies of scale large enough to drive down prices for the markets to achieve significant growth, so also solar markets will take off. CSP has a strong ability to reduce the cost of electricity produced. Compound annual growth rates are expected to be made meaningless by penetration analysis when the markets grow rapidly.
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Low iron glass CSP represents 3% of the world glass production. Markets at $355 million in 2013 are expected to reach $11.3 billion by 2020., and growth is expected to achieve 15% of total low iron glass at glass production in 2020; i.e., the same level as automotive glass.
Concentrating Solar Power (CSP) Systems: Market Shares, Strategies, And Forecasts, Worldwide, 2014 To 2020
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The concentrated solar power market is set to explode despite environmental objections to the technology. The latest CSP launch, Ivanpah solar electric generating system, is an engineering marvel that delivers on the full promise of solar energy. Ivanpah has 347,000 garage door-sized mirrors distributed across 173,500 heliostats. The heliostats track with the sun so that the mirrors can efficiently reflect its rays up to boilers that sit on top of the facility's three towers. The system uses solar field integration software and a solar receiver steam generator.
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Concentrated Solar power markets at $1.3 billion in 2013 are anticipated to reach $53.7 billion by 2020 because the systems are able to be built at utility scale and to provide 24 x 7 solar renewable energy power. Campus stationary fuel cell power is mature and available to act as a backup power source for CSP, creating greater capabilities and a better story for justifying the build out of CSP.
Stationary Fuel Cells: Market Shares, Strategies, And Forecasts, Worldwide, 2014 To 2020
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Stationary fuel cell markets at $1.2 billion in 2013 are projected to increase to $14.3 billion in 2020. Growth is anticipated to be based on demand for distributed power generation that uses natural gas. Systems provide clean energy that is good for the environment, and growth is based on global demand and will shift from simple growth to rapid growth measured as a penetration analysis as markets move beyond the early adopter stage. The big box retailers, including many led by Walmart, the data centers, and companies like Verizon, are early adopters.
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Stationary Fuel Cells are on the cusp of becoming commercially viable, creating companies that are profitable and produce electricity at or below parity with the grid giving every user alternatives to the grid. Bloom Energy has solved the SOFC engineering challenges. Breakthroughs in materials science and revolutionary designs give Bloom SOFC technology a cost effective, all-electric solution.
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