IRENA, IEA Study — 2˚C Scenario Possible With Renewable Energy, Clean Technica, March 27th, 2017 by Steve Hanley At the request of the German government, the International Renewable Energy Agency (IRENA) and the International Energy Agency (IEA) conducted a study to determine whether global economic growth is possible while honoring the pledge made by the world community in Paris to prevent average world temperatures from rising more than 2º Celsius.
The result? The study concludes that energy-related carbon dioxide emissions can be reduced by 70% by the year 2050 and eliminated entirely by 2060 without causing the global economy to shrink.
“The Paris Agreement reflected an unprecedented international determination to act on climate. The focus must be on the decarbonization of the global energy system as it accounts for almost two-thirds of greenhouse gas emissions. Critically, the economic case for the energy transition has never been stronger. Today around the world, new renewable power plants are being built that will generate electricity for less cost than fossil-fuel power plants. And through 2050, the decarbonization can fuel sustainable economic growth and create more new jobs in renewables.” — IRENA Director-General Adnan Z. Amin
The study is entitled “Perspectives for the Energy Transition: Investment Needs for a Low-Carbon Energy Transition.” Its thesis is that increasing the the deployment of renewable energy and energy efficiency globally can achieve the emissions reductions needed to prevent global temperature from rising more than 2º Celsius while permitting the global economy to grow.
Decarbonizing Is Essential……https://cleantechnica.com/2017/03/27/irena-iea-study-2%CB%9Ac-scenario-possible-renewable-energy/
25 Cities Now Committed to 100% Renewables, EcoWatch, http://www.ecowatch.com/cities-commit-renewable-energy-2324917492.html Lorraine Chow, 22 Mar 17, Madison, Wisconsin and Abita Springs, Louisiana are transitioning to 100 percent renewable energy following respective city council votes on Tuesday.
Madison and Abita Springs are the first cities in Wisconsin and Louisiana to make this commitment. They join 23 other cities across the United States—from large ones like San Diego, California and Salt Lake City, Utah to smaller ones like Georgetown, Texas and Greensburg, Kansas—that have declared similar goals.
Madison is the biggest city in the Midwest to establish 100 percent renewable energy and net-zero carbon emissions. The Madison Common Council unanimously approved a resolution to allocate $250,000 to develop a plan by January 18, 2018 that includes target dates for reaching these goals, interim milestones, budget estimates and estimated financial impacts.
Madison Common Council Alder Zach Wood said that his city is determined to “lead the way in moving beyond fossil fuels that threaten our health and environment.”
After a unanimous vote, Abita Springs is aiming to derive 100 percent of the town’s electricity from renewable energy sources by December 31, 2030.
The Sierra Club noted that Tuesday’s votes from the politically polar municipalities reflect the growing bipartisan support for alternative energy development. To illustrate, during the November election, more than 70 percent of Madison voters supported Hillary Clinton versus the 75 percent of voters in St. Tammany Parish, where Abita Springs is located, who supported Donald Trump.But as Abita Springs’ Republican mayor Greg Lemons said, “Transitioning to 100 percent renewable energy is a practical decision we’re making for our environment, our economy and for what our constituents want in Abita Springs.”
“Politics has nothing to do with it for me. Clean energy just makes good economic sense,” Lemons added. LeAnn Pinniger Magee, chair of Abita Committee for Energy Sustainability, had similar remarks.
“In a state dominated by oil interests, Abita Springs is a unique community that can be a leader on the path to renewable energy,” she said. “Our town already boasts the solar-powered Abita Brewery and we can see first-hand how clean energy benefits our businesses and our entire community. By transitioning to 100 percent renewable energy, we will save money on our utility bills and protect our legendary water and clean air in the process.”
Last year’s Gallup poll indicated for the first time that a majority of Republicans and Republican-leaning independents prefer an alternative energy strategy. Fifty-one percent of Republicans favor alternative energy, up from the previous high of 46 percent in 2011.
“Whether you’re Republican or a Democrat, from a liberal college city or a rural Louisiana town, clean energy is putting America back to work and benefiting communities across the country,” Jodie Van Horn, director of the Sierra Club’s Ready for 100 campaign, said. “That’s why Madison, Wisconsin and Abita Springs, Louisiana, today join the ranks of 23 other cities and towns across the United States that are going all-in on clean, renewable energy.”
Van Horn noted that local leaders and governments will be increasingly tasked to curb President Trump’s pro-fossil fuel policies and gutting of environmental regulations.
“As the Trump Administration turns its back on clean air and clean water, cities and local leaders will continue to step up to lead the transition towards healthy communities and a more vibrant economy powered by renewable energy,” she said.
Tesla Powers Kauai With Solar Energy After Sunset, ENS, LIHUE, Kauai, Hawaii, March 23, 2017 Hawaii’s first utility-scale solar farm that stores solar energy in giant battery packs and delivers it to homes after sunset has opened on the island of Kauai.
The solar power array enables a Kauai utility to increase its renewable energy generation to more than 40 percent due to high-capacity Tesla storage batteries.
“Storage is a challenge for us here in Hawaii,” said Governor David Ige at the blessing ceremony earlier this month. “I want to congratulate the residents of Kauai. Renewable energy sources are the future and we’re committed to making that happen.” Dignitaries from throughout the state were on hand for the blessing ceremony.
The project, commissioned by Kauaʻi Island Utility Cooperative and owned by Tesla, Inc., is located on 50 acres of land north of Lihue in Kapaia owned by Grove Farm.
The Kauai Island Utility Cooperative increased its solar capacity by connecting Tesla lithium-ion battery storage systems called Powerpacks to the solar farm. Each Powerpack can store 52 megawatts of power.
The solar storage system will feed up to 13 megawatts of electricity into Kauai’s grid to meet peak demand in the evening hours.
The Powerpacks store enough energy to service 4,500 homes during peak night demand. Before this system was built, Kauai’s grid had reached the maximum amount of solar power it could handle……..
Tesla is diving into solar energy following its acquisition of SolarCity last November. The company also is powering nearly the entire island of Ta’u in American Samoa with solar power and its Powerpacks.http://ens-newswire.com/2017/03/23/tesla-powers-kauai-with-solar-energy-after-sunset/
Two Australian states embrace grid-scale storage for power reliability, http://www.utilitydive.com/news/two-australian-states-embrace-grid-scale-storage-for-power-reliability/438073/ Peter Maloney@TopFloorPower, 15 Mar, 17 Dive Brief:
- Two Australian states are ramping up energy storage to address rising electricity costs and rolling blackouts, according to media reports.
- In South Australia, the government says it will hold a competitive solicitation for a 100 MW battery storage installation and construct a 250 MW gas plant, according to Energy Storage News reports.
- The state of Victoria is also investing $20 million in an effort to boost energy storage to 100 MW by the end of next year, ABC News reports.
The government announcements come days after Tesla told
South Australia officials that it could install a 100 MW battery system in 100 days that would solve the state’s power problems.South Australia has been suffering from rolling blackouts
brought about by high heat and a lack of baseload power. The situation has attracted developers like ZEN Energy
and Tesla, who say that battery storage could go a long way toward integrating renewables into the state’s grid and solving grid instability problems.
South Australia officials also announced plans for a 250 MW gas-fired generator to act as backup for intermittent renewables.
Officials said the gas plant would be turned on only when power shortfalls are forecasted, according to ABC. A bill is reportedly in the works to give the state energy minister more control over power dispatch, after criticisms of the Australian grid operator stemming from the power outages.
Victoria, meanwhile, is looking at a range of energy storage solutions, including batteries, pumped hydro storage and solar thermal technology. The $20 million investment will come on top of a separate $5 million solicitation for a 20 MW energy storage system issued last month.
Environmentally friendly, almost electricity-free solar cooling https://www.sciencedaily.com/releases/2017/03/170313085606.htm
Also serves as a heat pump
- March 13, 2017
- Technical Research Centre of Finland (VTT)
- Demand and the need for cooling are growing as the effects of climate change intensify. An emission-free, solar-powered chiller has now been developed by scientists. The potential market is world-wide, particularly in warm countries.
Demand and the need for cooling are growing as the effects of climate change intensify. VTT Technical Research Centre of Finland and German company ZAE Bayern have built an emission-free, solar-powered chiller; a pilot system has been tested in Finland and Germany. The potential market is world-wide, particularly in warm countries.
The production and consumption of solar cooling are simultaneous. A property’s cooling needs are highest when the sun is shining.
VTT and German company ZAE Bayern have developed a solar-powered 10 kW chiller. This absorption chiller works in the same way as the gas refrigerators used in Finnish holiday cabins, for example. But in this case, a solar thermal collector is used instead of gas. The method requires electricity for the flow pumps only. If necessary, the chiller can also serve as a heat pump.
The results of the project showed that — to be used as a heating pump as well — an economically viable and competitive, solar-powered absorption chiller would need to be 50 kW or bigger.
Finnish company Savo-Solar Plc participated in both the planning phase and the practical tests. As a result, the company’s head office was successfully cooled using the pilot system built for the project. Savo-Solar and ZAE Bayern aim to develop a commercial product which enables users to cut their electricity bills through cooling with absolutely no need for electricity. This would also reduce emissions.
The chiller was tested as an air-conditioner for Savo-Solar’s office during the summer and for heating it during the winter. Solar collectors on the roof of the building were used to collect the required energy. If the collectors did not produce enough energy during, say, the winter, or on a cloudy day, a heat pump served as a substitute energy source. Other possible energy sources would be district heating, biofuel boilers or industrial process heat.
Examples of large, megawatt-class absorption chillers based on district heating can already be found in Helsinki and Turku in Finland.
Another practical test was performed using an absorption chiller based on a bio-boiler in ZAE Bayern’s laboratory in Munich, Germany. This system can also be supplemented with solar energy.
Learn more at: http://www.vtt.fi/inf/pdf/technology/2017/T287.pdf
Iran and Middle East could adopt fully renewable electricity systems http://www.enn.com/pollution/article/50746 Iran can transition to a fully renewable electricity system and financially benefit from it by 2030. Researchers at Lappeenranta University of Technology (LUT) show that major oil-producing countries in the Middle East and North Africa (MENA) region could turn their abundant renewable energy resources into lucrative business opportunities in less than two decades.
According to the study, a fully renewable electricity system (100% RE) is roughly 50-60 percent cheaper than other emission-free energy options for the MENA region. For example, new nuclear power costs around 110 euros per megawatt hour. Fossil-CCS option costs around 120 euros per megawatt hour. But the cost of the fully renewable energy electricity is around 60–40 euros per megawatt hour, based on financial and technical assumptions of the year 2030.
The cost of wind and solar electricity would reduce further to 37-55 euros per megawatt hour if different energy resources were connected with a super grid that allows the transmission of high volumes of electricity across longer distances. For Iran, the price could go as low as 40-45 euros per megawatt hour. Such low cost show that the transition of the current fossil-based electricity system towards a fully renewable electricity system can cover all electricity needs in the decades to come.
“The low cost renewable electricity system is a driver for growing standards of living, continued economic growth, in particular also for energy intensive products, and finally more peace,” emphasizes Professor Christian Breyer.
Read more at Lappeenranta University of Technology
Solar-powered everything, REneweconomy, By Owen Agnew on 9 March 2017 NexusMedia Solar power used to mean large, heavy panels mounted on a roof or spread across a field.
But the sun falls on everyone — and everything — and as materials have gotten lighter, cheaper and more flexible, photovoltaic cells are showing up in the most unlikely of places.
In bustling New York City, you can buy a sandwich at a solar-powered food cart, eat it while sitting at a solar-powered bus stop, all while charging your phone using your solar-powered jacket.
Solar power is becoming more distributed, generating power closer to where it’s needed. That can mean buildings with their own solar arrays, or, on a smaller scale, clothing that features solar panels.
Brooklyn-based solar company Pvilion is leading the charge to put solar everywhere. Their projects range from building covers to small consumer items. “We’re looking at solar as a building material that can be used in a lot of different contexts,” says CEO Colin Touhey.
Touhey and his partners have collaborated with Tommy Hilfiger to make solar-powered jackets, and now they’re working on a line of bags with built-in solar panels. While coats can’t generate nearly as much power as larger arrays, every person with a smartphone is a potential customer.
“It’s really cool to plug in your phone and charge it with the sun,” says Touhey.
Researchers are developing woven solar fabrics that have photoactive dyes coating individual threads, so each fiber is a miniature solar panel. But for now, flexible solar panels must be laminated on top of fabrics.
Pvilion has also designed building facades using heavy-duty solar fabrics. You can see their handiwork in a planned expansion at the Artists for Humanity Epicenter in Boston. The building’s photovoltaic facade will generate power and provide shade, helping to keep the interior cool. This and other energy-smart technologies will make the Epicenter the largest commercial building on the East Coast to produce more power than it consumes, according to Pvilion………http://reneweconomy.com.au/solar-powered-everything-40816/
Falling costs make offshore turbines increasingly attractive
Germany may see record low price bid in auction in April
Water and electric power plants don’t mix well naturally, unless you add some wind.
Water tends to corrode and short out circuits. So what’s happening in the the renewable energy industry, where developers are putting jumbo-jet sized wind turbines into stormy seas, is at the very least an engineering miracle.
What might be even more miraculous to skeptics like those populating Donald Trump’s administration is that these multi-billion-dollar mega projects make increasing economic sense, even compared to new coal and nuclear power.
“If you have a sufficiently large site with the right wind speeds, then I do believe you can build offshore wind at least at the same price as new build coal in many places around the world including the U.S.,” said Henrik Poulsen, chief executive officer of Dong Energy A/S, the Danish utility that has pioneered the technology and has become the world’s biggest installer of windmills at sea.
- Across Europe, the price of building an offshore wind farm has fallen 46 percent in the last five years — 22 percent last year alone. Erecting turbines in the seabed now costs an average $126 for each megawatt-hour of capacity, according to Bloomberg New Energy Finance. That’s below the $155 a megawatt-hour price for new nuclear developments in Europe and closing in on the $88 price tag on new coal plants, the London-based researcher estimates.
- As nuclear power costs spiral, prompting a $6.3 billion writedown at reactor maker Toshiba Corp. and delays at Electricite de France SA’s plant in Flamanville, the investment needed to build offshore wind capacity is plummeting.
In Denmark, where the government shoulders much of the development risk, Vattenfall AB last year agreed to supply power from turbines in the North Sea at 60 euros ($64) a megawatt-hour in 2020. Dutch and German auctions due this year provide “ample opportunity” to beat that record low price, says Gunnar Groebler, the utility’s head of wind.
The industry even is taking hold in the U.S., which for years shunned the technology as too costly for a place that historically enjoys lower power prices than Europe.
A federal auction in December for rights to develop wind farms off the coast of Long Island resulted in a bidding war. Rhode Island has commissioned one plant, and developers are also considering work in Maryland, New Jersey and North Carolina.
Although Trump said offshore wind was “monstrous” when it came into conflict with his golf course in Scotland, the U.S. government’s official goal for now is to install 86 gigawatts of turbines at sea by 2050. That’s six times the 14 gigawatts of capacity now in place worldwide, according to the Global Wind Energy Council.
- The strength of the wind off the coast makes the sea a natural place to anchor turbines. In European waters, breezes average 22 miles per hour about 360 feet (110 meters) off the surface, a good baseline for the scale of many installations, according to The Crown Estate, which leases out areas of U.K. seabed belonging to the Queen to wind farms. That’s almost triple the average wind speed onshore.
While more steady gusts mean each turbine will yield more electricity, fixing the machines to the seabed requires deep concrete footings cast in often turbulent seas.
The North Sea, the crucible of the modern offshore wind industry, suffers punishing storms and strong tides that batter turbines much of the year. Securing structures as tall as the Washington Monument in the ocean requires deep footings, specialized ships and cranes capable of lifting equipment that can weigh tons. Salt water eats away at machinery and fittings. Cables must be rugged enough for the worst weather. And if equipment breaks, it can take weeks before the seas are calm enough for a work vessel.
Oil majors that have spent decades building skills to work in those conditions are turning their attention to offshore wind as petroleum production subsides in the North Sea. Royal Dutch Shell Plc and Statoil ASAare among companies that won contracts to build offshore wind projects last year.
All told, a record $29.9 billion was invested in offshore wind in 2016, up 40 percent from the year before, according to Bloomberg New Energy Finance. It expects investment to grow to $115 billion by 2020. What’s driving installations is an expected 26 percent drop in the costs, making offshore wind increasingly competitive with land-based turbines and solar and nuclear power — even without subsidy.
In years past, grid managers were reluctant to rely on fickle winds for power that flows only about 45 percent of the year. That’s changing too. Batterycosts have fallen 40 percent since 2014, making them a realistic way to help balance fluctuating flows of renewable energy to the grid.
- Offshore wind projects coming online today are already delivering power at almost half the price of those finished in 2012 thanks to larger turbines and greater competition. That’s emboldening developers to promise supplying power for even less, suggesting the industry will break more records this year starting the a contest in Germany in April, said Deepa Venkateswaran, analyst at Sanford C. Bernstein Ltd.
Europe’s lingering low-interest environment may add downward pressure on bids in Germany’s offshore auctions, EON SE Chief Executive Officer Johannes Teyssen said on Jan., 25. The utility will join bidders as it seeks to add as much as 1.5 billion euros ($1.58 billion) a year to its clean energy portfolio.
The U.K. remains one of the hottest markets owing to the need to replace ageing power plants. Bids may reach as little as 80 euros a megawatt-hour in the next auction due to start in April, she said. That’s comparable to about 68 pounds a megawatt-hour for the global onshore wind average, and well below the government’s 2020 goal to bring costs below 100 pounds ($125.55) a megawatt-hour.
It’s also much cheaper than EDF’s new nuclear power program at Hinkley Point in Somerset, which last year won a 35-year contract to provide power at a cost of 92.50 pounds a megawatt hour once it begins generating. It’s currently due to come online in 2026, even though EDF originally planned it to be cooking Christmas turkeys for British households in 2017.
“In this auction it is possible that the price achieved could be below 90 pounds,” said Keith Anderson, chief corporate officer of Scottish Power Ltd., a unit of Spain’s Iberdrola SA.
Offshore windfarms set to become cheaper source of electricity than nuclear power stations
Government’s plan to turn UK into world leader in offshore wind energy receives boost as electricity price halves in five years The Independent, Ian Johnston Environment Correspondent @montaukian 9 Mar 17 Offshore windfarms are set to become a cheaper source of electricity than the Hinkley Point nuclear power plant and are also on track to undercut coal-fired power stations.
The Government, which has been trying to support offshore in the hope of turning the UK into a world-leader in the sector, plans to hold an auction next month in which generators will bid for a guaranteed price for their electricity, with the lowest offer declared the winner…….
Tesla will begin selling its solar roof this year — here’s everything you need to know [excellent pictures] Business Insider DANIELLE MUOIO FEB 27, 2017, Tesla will begin selling and installing its solar roof later this year, the company wrote in its fourth-quarter investor letter.
Green groups: Indian Point nuke can be replaced with carbon-free resources, Utility Dive, Robert Walton, 28 Feb 17
- Increased energy efficiency and transmission upgrades to bring in more renewable power can help replace a nuclear plant north of New York City, according to a new report released by two environmental groups.
- New analysis performed by Synapse Energy Economics shows that lower demand and more solar and wind energy can help the state replace the power from the Indian Point nuclear facility with clean energy options that will not raise consumer bills.
- Under an agreement between the state and plant operator Entergy, the Indian Point nuclear facility will shut down by 2021.
Dive Insight:Last month’s announcement that Entergy would shut down its Indian Point plant was a win for nuclear opponents, who for years have been wary of a plant within 30 miles of the nation’s largest metropolitan area.
The news, however, left open the question of how to continue to power the the city without turning to fossil fuels.
Now, green groups say they believe the city that never sleeps can keep the lights on — all night and every day — using only carbon.
New research from Synapse Energy, released by the Natural Resources Defense Council and Riverkeeper, finds additional solar and wind power, along with energy efficiency gains, can power the city. But that goal also depends on the construction of the Champlain Hudson Express transmission line, which would move 1,000 MW of hydropower from Quebec to the city.
“Recent transmission improvements — coupled with energy efficiency gains, cheaper renewables and lower demand estimates — show that New York is already on its way to a reliable, affordable, clean energy future,” Riverkeeper President Paul Gallay said in a statement.
He said the report shows that when Indian Point closes in 2021, “that power can be replaced entirely with clean sources as long as we take advantage of the additional renewable energy and efficiency options available to us.”
Key findings in the report show the Indian Point retirement will add less than 1% to overall wholesale electric system costs, and retail impacts will be even smaller. The state’s 50% renewables goal is expected to drive the addition of both utility-scale and distributed solar, as well as both offshore and traditional wind generation……. http://www.utilitydive.com/news/green-groups-indian-point-nuke-can-be-replaced-with-other-carbon-free-reso/436938/
California introduces its own 100% renewable energy bill, Inhabitat, 22 Feb 17, VIEW SLIDESHOW Massachusetts recently introduced a bill to derive 100 percent of the state’s energy from renewables, and now California is following suit. A new bill introduced by state Senate leader Kevin de León would require the state to obtain 100 percent of its electricity from renewable sources by 2045.
Under de León’s bill, SB 584, California would need to reach 50 percent renewable energy use by 2025, five years earlier than the state’s current target of 2030, and cease using fossil fuels completely by 2045.
Related: Massachusetts lawmakers sponsor 100% renewable energy bill
In 2016, the state obtained 27 percent of electricity via wind, solar, and other clean sources, and California’s deserts offer potential spaces for more renewable energy plants. The solar industry has created 100,000 jobs in California. Experts say the state could reach the 100 percent goal since costs for solar and wind power are falling – in many areas of the state solar is already the cheapest option, according to The Desert Sun………
Massachusetts recently introduced a similar bill, but it’s slightly more ambitious than California’s. Under the 100 Percent Renewable Energy Act, Massachusetts would transition to obtaining all their electricity from renewable energy by 2035, and would grant sectors like heating and transportation a 2050 deadline. The California bill gives its state’s electricity sector an extra ten years to reach that 100 percent target. http://inhabitat.com/california-introduces-its-own-100-renewable-energy-bill/
Energy Innovation utilized the Energy Policy Simulator
(EPS) to analyze the effects of repealing the CPP. The EPS is an open-source computer model developed to estimate the economic and emissions effects of various combinations of energy and environmental policies using non-partisan, published data from the U.S. Energy Information Administration (EIA), U.S. EPA, Argonne National Laboratory, U.S. Forest Service, and U.S. Bureau of Transportation Statistics, among others. The EPS has been peer reviewed by experts at MIT, Stanford University, Argonne National Laboratory, Berkeley National Laboratory and the National Renewable Energy Laboratory. It is freely available for public use
through a user-friendly web interface or by downloading the full model and input dataset.
Our analysis compared a business-as-usual (BAU) scenario (based on existing policies as of mid-to-late 2016, not including the Clean Power Plan) to a scenario that includes a set of policies that narrowly achieve the Clean Power Plan’s mass-based emissions targets. Three important notes:
- First, the EPS works at national scale, so policies are represented as nationwide averages; that is, without individually modeling U.S. states.
- Second, a variety of different policies might be used to achieve the CPP targets. We analyzed a mixed package representative of how the EPA expects states to achieve their targets.
- Third, the EPS calculates results through 2050, but the CPP targets only extend through 2030. The policy package we use to represent the CPP includes continued policy improvement through 2050 at the same rate as in earlier years (that is, policies strengthen by the same amount each year from 2017 to 2050), rather than CPP policies becoming frozen at their 2030 levels.
We find that repealing the CPP would result in an increase of carbon dioxide equivalent (CO2e) emissions of more than 500 million metric tons (MMT) in 2030 and 1200 MMT in 2050, contributing to global warming and severe weather events, such as hurricanes, floods and droughts.
Nearly $600 Billion in Economy-Wide Costs
Cumulative net costs to the U.S. economy (in increased capital, fuel, and operations and maintenance (O&M) expenditures) would exceed $100 billion by 2030 and would reach nearly $600 billion by 2050.
It may seem ironic that removing regulations can result in increased costs to the economy, but regulations can help to overcome market barriers and similar problems that prevent certain economically-ideal outcomes from being achieved in a free market (for instance, under-investment in energy efficiency technologies).
120,000 New Premature Deaths
Although the CPP’s focus is on reducing carbon emissions, the same policies also reduce particulate pollution, which is responsible for thousands of heart attacks and respiratory diseases each year. Repealing the CPP would increase particulate emissions, causing more than 40,000 premature deaths in 2030 and more than 120,000 premature deaths in 2050.
Far More New Coal Capacity, Far Less New Renewables Capacity
Without the CPP, the U.S. electric grid would feature a larger capacity of coal power plants, while the capacity of wind and solar on the system would be smaller, as shown in the following table. [on original]
This finding is echoed by a new forecast from the U.S. Energy Information Administration, which predicts that without CPP implementation, coal will become America’s leading source of electricity generation by 2019.
This slow-down in the transition to clean energy would cost the U.S. technological leadership in the rapidly-growing solar and wind industries and would cost the U.S. many jobs. Even today, when wind makes up 6.6 percent and solar 1.8 percent of total U.S. installed capacity, the solar industry employs 374,000 people and wind industry 101,000 workers, roughly two and a half times the 187,000 combined workers in the coal, natural gas and oil industries.
The stellar contribution of renewables to the U.S. economy was recently highlighted as an “American success story”
by a group of 20 Republican and Democratic governors who urged Trump to support renewables.
Clean Power Plan Repeal A Terrible Mistake For America
Repealing the Clean Power Plan would be a terrible mistake. A repeal would increase costs to the U.S. economy by hundreds of billions of dollars, cut years off the lives of tens of thousands of Americans and sacrifice U.S. technological leadership and job creation. For the future prosperity and strength of the country, the CPP should be preserved, and its targets should continue to strengthen through 2050 and beyond.
7,000 Railways Stations In India To Go Solar https://cleantechnica.com/2017/02/21/7000-railways-stations-india-go-solar/ February 21st, 2017 by Saurabh Mahapatra Almost every railway station in India will soon be fed with solar power if the plans announced in India’s latest union budget are implemented.
The Indian Finance Minister Arun Jaitley announced that the 7,000 railway stations across the country will be fed with solar power as per the Indian Railways mission to implement 1,000 megawatts of solar power capacity. The minister made the announcement during the union budget speech on 1 February 2017.
The minister stated that work to set up rooftop solar power systems at 300 stations has already started, and soon this number will increase to 2,000 stations. According to data released by the Minister of Railways, India had 7,137 railway stations at the end of March 2015.
These rooftop solar power systems are expected to be implemented through developer mode, wherein the project developer will sign long-term power purchase agreement with Indian Railways.
In addition to rooftop solar power systems, the Indian Railways is expected to set up large-scale projects as well. Last year, it announced plans to launch a tender for 150 megawatts (MW) of rooftop systems. Late last year, it announced a partnership with the United Nations Development Programme (UNDP) to set up 5 gigawatts of solar power capacity.
The Indian Railways has managed to identify the solar power resource in two states so far — Gujarat and Rajasthan — where 25 MW of rooftop and 50 MW of ground-mounted capacity is to be commissioned in the first phase of the program. In the second phase, 60 MW of rooftop and 660 MW of ground-mounted capacity will be installed in nine other states. During the third phase, 400 MW of rooftop and 3,800 MW of ground-mounted capacity will be installed in the rest of the country.
This non-toxic battery lasts a decade, could be renewable energy’s missing piece Anthropocene, by | Feb 23, 2017 “……Researchers at Harvard University have developed a new kind of low-cost battery that can run for more than 10 years with no maintenance. It is also non-toxic and inexpensive, to boot. The technology could make grid-scale renewable energy storage a reality, the researchers say in a paper published in the journal ACS Energy Letters…….
The new battery should be cheaper to produce than today’s devices. “And since the medium is noncorrosive, you can use cheaper materials to build the components of the batteries, like the tanks and pumps,” Gordon said in a press release