CHINA ART SHOW FACES CLIMATE CHANGE

Beijing Art Show Confronts Climate Change

Clarissa Sebag-Montefiore, May 23, 2013 (Wall Street Journal)

“Residents of this smog-choked city are uniquely prepared for an impassioned discussion of the environment…[and the] nonprofit Cape Farewell hopes to inject the topic into the cultural sphere…[with] ‘U-N-F-O-L-D,’ a group exhibition of works showing artists’ reactions to the environment…Beijing’s Central Academy of Fine Arts is hosting the show, which has toured previously in the U.S. and Europe. It moves to the Art Museum of Nanjing University of the Arts in June.

“Pieces range from ‘The Hot Breath of Our Civilisation,’ an LED text display by ‘Atonement’ author Ian McEwan, to music by Scottish pop star KT Tunstall. Perhaps most striking is ‘Polar Diamond’ by Ackroyd & Harvey. The pair discovered a polar-bear skeleton during their trip to the Arctic. They cremated one of its bones, extracted carbon from the residue ash, then artificially created a diamond.”

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“Cape Farewell founder David Buckland believes that the purpose of the show is to explore the subject of climate change in a more emotional and accessible way…[and] say: ‘Look, this is the reality we are facing’…[Buckland] projected slogans such as ‘Discounting the Future’ onto icebergs and photographed the results…

“If ‘U-N-F-O-L-D’ aims to shock, it also wants to educate…[There will be a Beijing workshop with photography students after the exhibition] which will focus on pollution in the capital…[to] inspire China’s next artists to address one of the most pressing concerns of the moment…”

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WORLD WIND NOW

World Wind World Report 2012 launched; 100 Countries are using Wind Energy today - Iceland as 100th Wind Power Country

16 May 2013 (World Wind Energy Association)

“…The worldwide wind capacity reached 282’275 Megawatt, out of which 44’609 Megawatt were added in 2012, more than ever before…Wind power showed a growth rate of 19,2 %, the lowest rate in more than a decade…All wind turbines installed by the end of 2012 worldwide can provide 580 Terawatthours per annum, more than 3 % of the global electricity demand…The wind sector in 2012 had a turnover of 60 billion Euro/75 billion USD… Altogether, 100 countries and regions used wind power for electricity generation; Iceland has become the 100th country that is using wind power…China and USA both installed around 13 Gigawatt of new wind turbines…

“…Asia accounted for the largest share of new installations (36,3 %), followed by North America (31,3 %) and Europe (27,5 %). Latin America stood for 3.9 % and Australia/Oceania for 0,8 %. Africa (0,2 %) is still a tiny wind market…Latin America and Eastern Europe continue to be the most dynamic world regions while Africa showed stagnation, with only Tunisia and Ethiopia installing new wind farms…”

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“…China continued to be the by far largest Asian market…[but added] significantly less than in the previous year…India was again the third largest market…adding 2,5 GW…[In third, Japan] still grew very slowly and installed less than newcomer Pakistan…The US market set a new record and became the world’s largest market for new wind turbines…The Canadian market slowed…Germany continued its role as the largest and most stable market in Europe with 31 GW, followed by Spain with 22,8 GW…Italy, France and the UK continued to be the medium-sized markets, with total capacity between 7,5 and 8,5 GW. Poland, Romania and Sweden became major markets…

“…The share of offshore wind in the overall capacity increased to 1,9 %, after 1,5 % in 2011…Policy uncertainties in major markets represent a major barrier for wind penetration…WWEA expects a global capacity of more than 500’000 Megawatt by the year 2016. Around 1’000’000 Megawatt are possible by the year 2020…”

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INDIA MOVES TO PROTECT ITS SOLAR INDUSTRY

India to Close Solar Import Loophole in Energy Auction

Natalie Obiko Pearson, May 6, 2013 (Bloomberg News)

“India plans to close a loophole before its next solar-power auction to stop companies from importing thin-film panels from overseas suppliers like First Solar Inc. (FSLR) for projects that otherwise must be built with local equipment…The government will invite developers by the end of May to bid for 750 megawatts of solar capacity…About 300 megawatts of that will be required to use locally made solar cells and panels, and may not import thin-film photovoltaic devices…

“Developers previously were able to skirt local sourcing rules on a portion of auctioned projects by opting for thin-film technology. Those devices, which tend to be cheaper, were exempt from the import restrictions on crystalline silicon panels made by companies such as China’s Suntech Power Holdings Co. (STP) Traditional crystalline panels are silicon-based, while thin-film technology coats panels with materials such as cadmium telluride…”

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“The government will also extend grants to the solar industry for the first time, offering as much as 18.75 billion rupees ($348 million) to cover 30 percent of upfront project costs. Previously, it supported the solar industry by buying power at above-market rates…The government is offering 25 million rupees per megawatt to projects that will range in capacity from 10 to 50 megawatts…Developers will submit bids specifying the amount of funds they seek, and those needing the least will win…

“…Since India began auctioning licenses through its National Solar Mission in 2010, developers including Leon Black’s Apollo Global Management LLC-backed Welspun Group and billionaire Vinod Khosla’s Sunborne Energy Holdings LLC have built 1,686 megawatts of solar capacity and cut average costs of photovoltaic power by about 51 percent. The program seeks to reduce solar power’s cost to the level of other forms of grid-supplied electricity by 2017…India aims to add 9,000 more megawatts of solar by 2017. By around September, it expects to hold another auction to award 800 megawatts of photovoltaic capacity…”

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EUROPE’S OFFSHORE WIND AMBITIONS

Offshore Wind Toward 2020

May 2013 (Roland Berger Strategy Consultants)

“Europe has set itself ambitious climate and energy targets: A third of the continent's electricity needs are to be met from renewable energy sources by 2020. Offshore wind power places a pivotal role in the mix.

“…[Offshore Wind Toward 2020; On the Pathway to Cost Competitiveness reports] that they expect Europe to have installed offshore capacity of 40 GW by 2020. In the same year, global investment to ramp up offshore wind power will have reached around EUR 130 billion.”

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“Yet huge challenges still lie ahead for the industry: Wind farms are growing in size all the time. They are moving further and further offshore. And they are being constructed in ever deeper waters. These factors are driving up the cost of investment and making projects more complex. If it is to compete with other forms of energy, the offshore wind industry must therefore sharply cut the cost of energy generation. A reduction of around 30% between now and 2020 would allow electricity generated from offshore wind power to be sold at an average price of 9 euro cents per kWh. But that will require technological innovation, new financing models and a stable political framework.”

[Marcus M. Weber, Partner, Roland Berger Strategy Consultants:] "The offshore wind industry will become increasingly important in the years ahead, because transforming the energy system without this one central pillar would be difficult to imagine…That makes it all the more important for the industry to quickly achieve cost-cutting industrialization effects, and for the government to stake out a reliable framework."

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A SPECIAL THING TO THINK ABOUT THIS THURSDAY

Clean energy means more jobs, not less

Nancy LaPlaca, May 20, 2013 (AZ Capitol Times)

Please take note of this post from newly-announced Arizona Corporation Commission candidate Nancy LaPlaca. She is such a threat to the state’s utility-backed, anti-renewables politicians that they have already begun attacking her. The 2014 election is a long way away but LaPlaca is going to need every minute and every penny she can find to go up against them.

The Arizona Republican Party recently issued a press release stating that I want to “eliminate 1,000 coal jobs” on Navajo land. That statement is so far removed from reality that it warrants a direct response.

The issue that raised their ire was my asking whether spending $1.1 billion to $1.6 billion of ratepayer money to purchase the departing ownership shares of the Los Angeles Department of Water and Power (LADWP) and NV Energy, and update the air quality systems at the Navajo Generating Station (NGS) is a wise investment. Given that our neighboring states and utilities around the country are abandoning coal and investing heavily in natural gas and renewable energy generation, is sinking good money into a 40-year-old plant our only choice?

When studies show that for every $1 spent, clean energy creates three times more jobs than fossil fuels, what’s wrong with looking into alternative investments? Clean energy can increase the number of available jobs and address environmental and health issues people are concerned about. We know that coal fuel and compliance costs are going to continue to increase as time goes on, so why invest in technologies that only increase the cost of electricity? Why restrict the Navajo economy when diversifying the energy mix at NGS by adding wind, solar PV or solar CSP could create 3,000 new jobs?

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What I want, along with many others, is to diversify and transform the Navajo economy by expanding the mix of energy and create even more jobs that could be filled by Navajo and Hopi people. I want them to earn higher wages, enjoy better working conditions, lead healthier lives and have better career options for generations to come.

Leave it to the Arizona Republican leadership to want to continue to limit the economic, employment and investment opportunities in Native American lands by willfully ignoring new opportunities and energy trends.

One thing that has been sorely missing from Arizona in recent years is an open and honest dialogue about our energy future. The free market in the U.S. is moving away from coal and toward other forms of generation, including renewables and natural gas. A diversified energy portfolio that employs renewable energy at NGS will employ more people at higher wages than work there now. We should explore and discuss this opportunity rather than dismissing it out-of-hand for purely political purposes.

Think about it: Arizona has far more to gain from increasing clean energy than it has to lose from reducing coal-fired power. As the sunniest state in the U.S., let’s lead the way — and have an open discussion.

Nancy LaPlaca is exploring a 2014 candidacy for the Arizona Corporation Commission.

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ONE HUNDRED THOUSAND ELECTRIC VEHICLES

Plug In America Marks Sale of 100,000 Plug-In Vehicles…

May 17, 2013 (Plug-In America)

“In a first for American transportation, the U.S. plug-in car market [passed] a significant milestone this month: the 100,000th plug-in vehicle sold since the introduction of the latest generation of highway-capable plug-in vehicles just over two years ago….

“…Over a quarter-million people are exposed daily to the benefits of electric transportation…Nissan dealerships in some markets have reported that the Leaf has outsold all other…Nissan models for particular sales periods this year…”

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“Tesla's Model S is outselling the Mercedes-Benz S-Class, the BMW 7 series and the Audi A8...Chevy Volt drivers alone have logged over 187-million electric miles…The plug-in vehicle market is approaching 48 percent annual growth with both Battery Electric (BEV) and Plug-in Hybrid (PHEV) vehicles finding growing interest…

“Plug-in vehicle adoption exceeds the adoption of hybrid vehicles over the same timeframe in their market developments…The domestic EV fleet now offers over 2,000 megawatts of battery storage, which may offer significant opportunities for the future management of our electrical grid and the increasing role of intermittent renewable energy sources…Manufacturers making EVs now include Nissan, Tesla, GM, Ford, Honda, Mitsubishi, Toyota, BMW, Mercedes, and Fiat. These plug-in cars have received a wealth of consumer and industry awards…”

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COAL USE UP WITH NAT GAS PRICE

Short-Term Energy Outlook; Electricity

May 7, 2013 (U.S. Energy Information Administration)

“EIA expects total U.S. electricity generation will grow by 1.4 percent in 2013 and by 1.0 percent in 2014. The increasing cost of natural gas relative to coal contributes to higher levels of electricity generation from coal…

“Generators are running their existing coal capacity at higher rates so far this year compared with the same months in 2012. This trend is expected to continue, leading to an 8.7-percent increase in U.S. electricity generation from coal during 2013…”

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“The share of total generation fueled by coal is forecast to increase from 37.4 percent in 2012 to 40.1 percent in 2013, still below coal's 42.3-percent fuel share in 2011.

“…[T]he rising cost of natural gas pushes the share of generation fueled by natural gas down from 30.4 percent in 2012 to 27.8 percent in 2013, compared with a share of 24.7 percent in 2011.”

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A HAIRY SKYSCRAPER TO CATCH THE WIND

STRAWSCRAPER – an urban power plant

May 2013 (Belatchew Arkitekter)

“Strawscraper…[would have] a new energy producing shell covered in straws that can recover wind energy…Belatchew Arkitekter wants to…explore new techniques [in central Stockholm] that could create the urban wind farm of the future.

“By using piezoelectric technology a large number of thin straws can produce electricity merely through small movements generated by the wind. The result is a new kind of wind power plant that opens up possibilities of how buildings can produce energy.”

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“With the help of this technique surfaces on both old and new buildings can be transformed into energy producing entities…[and create] an undulating landscape…reinforced at nighttime with lighting in changing colors…The straws of the facade consist of a composite material with piezoelectric properties that can turn motion into electrical energy…

“Piezoelectricity is created when certain crystals’ deformation is transformed into electricity. The technique has advantages when compared to traditional wind turbines since it is quiet and does not disturb wildlife. It functions at low wind velocity since only a light breeze is sufficient for the straws to start swaying and generate energy…”

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TODAY’S STUDY: CLIMATE CHANGE IN AUSTRALIA – A CASE STUDY

The Critcal Decade: Extreme Weather

April 2013 (Australian Climate Commission)

Key Facts

1. Climate change is already increasing the intensity and frequency of many extreme weather events, adversely affecting australians. Extreme events occur naturally and weather records are broken from time to time. However, climate change is influencing these events and record-breaking weather is becoming more common around the world.

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› Some Australian examples include:

∙ Heat: Extreme heat is increasing across Australia. There will still be record cold events, but hot records are now happening three times more often than cold records.

∙ Bushfire weather: Extreme fire weather has increased in many parts of Australia, including southern NSW, Victoria, Tasmania and parts of South Australia, over the last 30 years.

∙Rainfall: Heavy rainfall has increased globally. Over the last three years Australia’s east coast has experienced several very heavy rainfall events, fuelled by record-high surface water temperatures in the adjacent seas.

∙ Drought: A long-term drying trend is affecting the southwest corner of Western Australia, which has experienced a 15% drop in rainfall since the mid-1970s.

∙ Sea-level rise: Sea level has already risen 20 cm. This means that storm surges ride on sea levels that are higher than they were a century ago, increasing the risk of flooding along Australia’s socially, economically and environmentally important coastlines.

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2. Climate change is making many extreme events worse in terms of their impacts on people, property, communities and the environment. This highlights the need to take rapid, effective action on climate change.

› It is crucial that communities, emergency services, health and medical services and other authorities prepare for the increases that are already occurring in the severity and frequency of many types of extreme weather.

› The southeast of Australia, including many of our largest population centres, stands out as being at increased risk from many extreme weather events - heatwaves, bushfires, heavy rainfall and sea-level rise.

› Key food-growing regions across the southeast and the southwest are likely to experience more drought in the future.

› Some of Australia’s iconic ecosystems are threatened by climate change. Over the past three decades the Great Barrier Reef has suffered repeated bleaching events from underwater heatwaves. The freshwater wetlands of Kakadu National Park are at risk from saltwater intrusion due to rising sea level.

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3. The climate system has shifted, and is continuing to shift, changing the conditions for all weather, including extreme weather events.

› Levels of greenhouse gases from the combustion of fossil fuels have increased by around 40% since the beginning of the Industrial Revolution, causing the Earth’s surface to warm significantly.

› All weather events are now occurring in global climate system that is warmer and moister than it was 50 years ago. This has loaded the dice towards more frequent and more severe extreme weather events.

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4. There is a high risk that extreme weather events like heatwaves, heavy rainfall, bushfires and cyclones will become even more intense in australia over the coming decades.

› There is little doubt that over the next few decades changes in these extreme events will increase the risks of adverse consequences to human health, agriculture, infrastructure and the environment.

› Stabilising the climate is like turning around a battleship – it cannot be done immediately given its momentum. When danger is ahead you must start turning the wheel now. Any delay means that it is more and more difficult to avert the future danger.

› The climate system has strong momentum for further warming over the next few decades because of the greenhouse gases that have already been emitted, and those that will be emitted in future. This means that it is highly likely that extreme weather events will become even more severe in Australia over that period.

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5. Only strong preventive action now and in the coming years can stabilise the climate and halt the trend ofincreasing extreme weather for our children and grandchildren.

› Averting danger requires strong preventative action. How quickly and deeply we reduce greenhouse gas emissions will greatly influence the severity of extreme events in the future.

› The world is already moving to tackle climate change. Ninety countries, representing 90% of global emissions, are committed to reducing their emissions and have programs in place to achieve this. As the 15th largest emitter in the world, Australia has an important role to play.

› Much more substantial action will be required if we are to stabilise the climate by the second half of the century. Globally emissions must be cut rapidly and deeply to nearly zero by 2050, with Australia playing its part.

› The decisions we make this decade will largely determine the severity of climate change and its influence on extreme events that our grandchildren will experience. This is the critical decade to get on with the job.

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QUICK NEWS, May 22: WHAT THE U.S. CAN LEARN FROM GERMAN SOLAR SUCCESS; EARLY RESULTS SHOW WIND CAN PROTECT EAGLES; TEXAS GROWING NEW ENERGY, QUADRUPLES SUN

WHAT THE U.S. CAN LEARN FROM GERMAN SOLAR SUCCESS Germany Has More Solar Power Because Everyone Wins

John Farrell, February 8 and May 20, 2013 (Institute for Local Self-Reliance)

“…[Most have figured out it is not the Germany’s solar resource or policies make it a world solar industry force. There is also a] ‘Germans pay a lot extra’ meme. Germans do, and are perfectly happy with it, but…[the] real reason Germany dominates in solar (and wind) is their commitment to democratizing energy.

“Half of their renewable power is owned by ordinary Germans, because that wonky sounding feed-in tariff (often known as a CLEAN Contract Program in America) makes it ridiculously simple and safe for someone to park their money in generating solar electricity on their roof instead of making pennies in interest at the bank.”

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“It also makes their “energy change” movement politically bulletproof. Germans aren’t tree-hugging wackos…[T]hey are investing by the tens of thousand in a clean energy future that is putting money back in their pockets and creating well over 300,000 new jobs (at last count). Their policy makes solar cost half as much to install as it does in America, where the free market’s red tape…

“…In a country founded on the concept of self-reliance (goodbye, tea imports!), we finance clean energy with tax credits that make wind and solar reliant on Wall Street instead of Main Street. We largely preclude participation by the ordinary citizen unless they give up ownership of their renewable energy system to a leasing company. We make clean energy a complicated alternative to business as usual, while the cloudy, windless Germans make the energy system of the future by making it stupid easy and financially rewarding…[L]et’s learn the real secret to German energy engineering and start making democratic energy in America.”

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EARLY RESULTS SHOW WIND CAN PROTECT EAGLES As U.S. DOJ Investigates, Duke Works Adaptive Management Plan

Mark Del Franco, 16 May 2013 (North American Windpower)

“Duke Energy Renewables has confirmed that it is a subject of a U.S. Department of Justice (DOJ) preliminary investigation resulting from…10 golden eagle deaths…at its 200 MW Top of the World wind farm since the wind farm began operating in October 2010…[and] three golden eagle fatalities at its 99 MW Campbell Hill wind farm since December 2009.

“Golden eagles receive federal protection under the Bald and Golden Eagle Protection Act (BGEPA)…[Duke Energy Renewables] has employed several adaptive management techniques…[T]he company has taken to removing objects and debris from its Wyoming sites, such as animal carcasses, to clear anything that birds and other avian species…find attractive…”

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“The company also employs biologists to watch for birds at the sites…If eagles are spotted…[the biologists notify Duke's] Renewable Energy Monitoring Center (REMC) to stop the turbines…Duke went so far as to employ a radar surveillance system featuring the same technology used by the U.S. military to detect missiles in Afghanistan…

“Thus far, Duke's adaptive management efforts have resulted in zero golden eagle fatalities at either wind farm since September 2012…Duke is in a much better position to understand - and therefore protect - avian species, such as golden eagles…”

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TEXAS GROWING NEW ENERGY, QUADRUPLES SUN Renewable energy generation in Texas continues to grow, up 7 percent from 2011; Wind power continues to lead, with notable gains in solar generation

May 16, 2013 (Electricity Reliability Council of Texas)

“Electric generation from renewable resources in Texas increased 7 percent in 2012, compared to 2011, with capacity up by about 16 percent…[according to The Electric Reliability Council of Texas (ERCOT)…2012 Annual Report on the Renewable Energy Credit Trading Program.

“Generators participating in the state’s renewable energy credit trading program reported 33.9 million megawatt-hours (MWh) of renewable generation in 2012, compared to 31.7 million MWh in 2011 — a 7 percent overall increase. At more than 32.5 million MWh in total generation, wind power continued to lead the pack, with solar generation representing the largest rate of growth, nearly quadrupling last year’s output, and energy from biomass sources more than doubling the 2011 total.”

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“A renewable energy credit (REC) is a tradable instrument that represents one megawatt-hour, or MWh, of renewable energy produced. That is roughly the amount of power consumed by an average home in a month. Competitive retail electric providers must acquire and retire renewable energy credits annually based on their load-ratio share of the state’s renewable portfolio standard mandate. Any electric provider may voluntarily retire renewable energy credits to substantiate claims that power they are selling comes from renewable resources.

“The Texas Legislature established the renewable portfolio standard as part of the restructuring of the state’s electricity market in 1999 to increase incentives for renewable energy production. The PUC implemented the REC program in 2001 and established ERCOT as the administrator…”

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TODAY’S STUDY: WHAT UTILITIES THINK

2012 Strategic Directions in the U.S. Electric Utility Industry

Mark Gabriel, May 2013 (Black & Veatch)

Executive Summary

Everything Changes While Staying Relatively the Same

In the 12 months since the last Black &Veatch electric utility industry report, the industry has seen its primary fuel choice challenged and natural gas prices drop to levels not seen since 2001. A historically warm winter across much of the country drove down consumption (and hence revenue), creating a cash crunch for many utilities. Further, the industry’s hopes for some progress on the regulation of carbon continue to wax and wane in a U.S. Congress unable to make a decision.

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Yet for all of the changes across political, economic and cultural lines, results from this year’s report are strikingly consistent with those of the past three years in terms of concerns, worries and the potential impacts of regulation and other requirements. Perhaps it is the historic focus of the industry on reliability and safety; perhaps it is a return to back-to-basics management approaches; or perhaps it is the generally conservative nature of the industry, which results in this remarkable consistency from year-to-year. Black & Veatch conducted its sixth annual electric utility industry survey from 22 February through 23 March 2012. Analyzed survey responses are from qualified electric utility industry participants. Statistical significance testing was conducted and represented results have a 95 percent confidence level.

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Utility respondents represented a broad cross section of the industry (Figure 1) and country. The eight mainland regional reliability councils under the North American Electric Reliability Corporation (NERC) were represented in this survey. Figure 2 provides an overview of the percentage of respondents from each of these regions. Responses were also grouped by four geographic regions, as noted in Figure 3, to give additional insights into geographic differences.

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Key Survey Findings

The industry, according to the survey, continues to hold fast to some fundamental beliefs: that there will be some certainty on carbon; that prices for electricity will continue to rise; that while coal has a future, renewables have a growing but limited one; and that water is a critical environmental concern. There is also significant agreement in several interesting areas – interesting because undoubtedly a survey of the general public, regulators or legislators on the same topics would most likely yield different results. When it comes to “viable clean energy” technologies, for example, the “big three” that electric utilities project for 2020 are natural gas, hydroelectric and nuclear (see Figure 19 on page 29).

While conjecture, it is doubtful the general public would rate any of those choices as particularly “green” technologies. More than 90 percent of utility respondents believe, however, that renewables will increase prices for consumers anywhere from 5 to 30 percent, with the largest percentage (38 percent) assuming a 10 percent increase for their customers. This may tie to the 65 percent of utility respondents who reported rate increases during the past year, and the 92 percent who reported that the cost of regulations will cause prices to rise for consumers (see Financial Section). More than 60 percent of utility respondents believe they will hit their renewable energy targets – but a surprisingly 25 percent of utility respondents stated they do not know if it is achievable.

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One has to wonder whether the pending increase in rates due to renewables and the potential demise of the production tax credit are behind this uncertainty.

Reliability, aging infrastructure (not work force) and the environment continue their reign as the top industry concerns (Figure 4), followed closely by the need for long term investment. Interestingly, security and technology – inextricably linked in terms of deployment, are tied in the fifth position. While water did not make the Top Ten Issues list, it did come in second only to carbon emissions legislation in terms of environmental concerns. In fact, when water supply (second) and water effluent (sixth) are combined, they rise to the top of environmental concerns.

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The hope for certainty in carbon emissions legislation is common across all regions and, as it has since 2008, leads the ranking in environmental concerns followed closely by water supply (see Table 2 on page 40). Interestingly, when broken down into the four geographic regions, Northeast respondents rank disposal and storage of nuclear fuel as their top concern – an issue that does not even make the top three in the Midwest, South or West. The concern over nuclear disposal, overall, jumped significantly since 2009 when it was near the bottom of industry issues – likely due to the lingering influence of the unfortunate incidents at Fukushima, as well as the abandonment of plans for a national geologic storage facility at Yucca Mountain.

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The potential impact of environmental regulation continues to be a primary focus for utility survey respondents. It is interesting to note that the survey’s timeframe in March pre-dated (and yet predicted) the U.S. Environmental Protection Agency’s (EPA) and Department of Interior’s new hydraulic fracturing rules issued in May. More than 80 percent of respondents saw this coming in their crystal balls. Of course, 93 percent of survey respondents believe these new rules – and any subsequent rule additions, will have a significant or slight upward pressure on the price of natural gas (see Figure 17 on page 27). Respondents’ prediction on the price of natural gas in 2020 showed a virtual tie between $4-$6 per MMBtu and $6-$8 per MMBtu. More than one-fifth of survey respondents (22 percent), perhaps those who have been around to watch historical gas price fluctuations, reported not knowing where the price will be in the same period.

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Regulations are also causing concern regarding the operational effectiveness of utilities as well as concern for increasing rates. A full 86 percent of respondents believe there will be impacts on operational effectiveness with 16 percent believing it will be “significant” (see Figure 5 on page 13). Regulatory impacts are also key drivers in investment, the development of sustainability plans and the perception of utilities on Wall Street – either for stock price or bond ratings. Concern over whether or not utilities will be able to recover adequate returns on investment – or any costs for that matter - for smart grid investments, weigh on the minds of utility respondents. This is especially true now that American Recovery and Reinvestment Act dollars are almost gone.

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Smart grid, which burst onto the survey scene several years ago, continues to struggle from “a lack of customer interest and knowledge,” which utility respondents view as the single greatest impediment to investment programs. Yet, when pressed further, more and more companies are investing in systems to improve customer communications, which are driven by smart systems.

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More than three-fourths (76.9 percent) will be building customer self-service websites, expanding their web presence, social media and potentially implementing variable rates – all areas in which the smart grid is a key component or at least a primary enabler. It may be that the grudging acceptance of intelligent infrastructure is part of the historically conservative nature of the business when even “fast followers” are viewed as radically different and risk takers.

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Regulation at the federal and state/local level is also influencing the market for merger and acquisition (M&A) activity. The 2011/2012 timeframe has seen three significant mergers and acquisitions and, for the first time, the Black & Veatch survey looked at the impacts of these activities. With Exelon/Constellation, Duke/Progress and Northeast Utilities/Nstar each at some stage in the M&A process, all utilities are considering their own futures and what these mergers really mean. The vast majority see financial scale rather than operating synergies as a driving force of profitability in this area moving forward.

The benefits of scale are particularly apparent when considering that regulators require most utilities to either hand over, or at least share, cost cutting and operational savings with customers – especially in light of continued slow load growth or declining kilowatt hour sales.

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Looking at the numbers, the industry has changed remarkably in some capacities while remaining steady in its core function. For example, 58 percent of utility respondents believe “when fiscal realities are fully considered in the United States,” there is still a future for coal. This is a significant drop from the 81.5 percent who indicated this to be the case in last year’s survey. As noted within, the industry is taking more environmental concerns into account than ever before even though nearly a third (29.2 percent) believes that global warming is still “speculative.” It is not unexpected that an industry that prides itself on reliability, safety and long-term investment focuses so intently on certainty; potentially at the risk of missing dynamic changes. It could be as Voltaire once noted, “Doubt is not a pleasant condition, but certainty is absurd” with many more surprises to come in a rapidly changing energy market.

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QUICK NEWS, May 21: U.S. EMISSIONS DROP AS ELECTRICITY OUTPUT RISES; THE SPACES BETWEEN THE WINDS; WTO RULES FOR IMPORTED SUN

U.S. EMISSIONS DROP AS ELECTRICITY OUTPUT RISES Groups credit natural gas, renewables with steep emissions cuts in power sector

Dan Lowry, May 15, 2013 (SNL)

“U.S. power plant emissions from the nation's largest generators continued to fall in 2011 even as overall electricity output rose…Since Congress passed major amendments to the Clean Air Act in 1990, power plant NOx emissions have fallen 70% and SO2 emissions have dropped 72%. Carbon dioxide emissions have declined 7% from 2008 to 2011…The highest CO2 emission rates came from states that are heavily reliant on coal, including Wyoming and Kentucky…

“…[T]he steep emissions cuts [were due] to a shift away from coal-fired generation toward lower-emitting energy sources, such as renewables and natural gas. Between 2000 and 2011, natural gas generation rose 69% in the U.S. and renewable generation grew 44%. Coal generation dropped 12%, but still represented 44% of the power generated by the 100 largest generators, by far the largest…”

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“The top 100 power producers own more than 2,600 power plants and account for 86% of domestic electricity generation…Air pollution emissions from power plants, while declining overall, are highly concentrated primarily among three power producers: Southern Co., American Electric Power Co. Inc. and NextEra Energy Inc...

“…AEP and Southern have been preparing to retire thousands of megawatts of coal-fired capacity, convert coal units to natural gas or installing emission control equipment on certain units, in order to reduce emissions and meet new federal air regulations…AEP plans to retire about 6,000 MW of coal-fired capacity and install additional pollution controls on more than 10,000 MW of capacity by 2020…[Cuts in] NOx and SO2 emissions…[are ahead of cuts in] mercury and CO2 emissions. Coal-fired plants were responsible for 81% of CO2 emissions, compared to 18% for gas-fired plants…Texas was the leading emitter of CO2, followed by Pennsylvania, Florida, Ohio and Indiana.”

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THE SPACES BETWEEN THE WINDS Wind Energy’s Shadow: Turbines Drag Down Power Potential; Renewable-energy experts maintain the world is far from reaching a saturation point.

David LaGesse, May 16, 2013 (National Geographic)

“…[S]ome scientists are…arguing that the laws of physics will limit wind's potential for meeting the world's energy needs. The controversy arises from the turbines themselves…[R]esearchers have explored the issue of turbines stealing energy from the wind, creating drag or a ‘wind shadow’ of air slowed by the spinning blades. Each turbine added to a particular landscape captures less energy…[At a point, more turbines may produce] no more energy…

“…[But the potential of wind] is far above the levels we are seeing harvested in even the most aggressive wind-energy countries today…Many proponents of replacing fossil fuels count on wind power as the single biggest source of renewable energy for the nation's future. Industry experts, for example, have predicted wind could supply a third of the world's electricity by 2050…[and it would take billions of turbines worldwide] for wind energy to become oversaturated to the point that it undermines its own effectiveness…”

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“…[The Jacobson and Archer] study projected that producing half the world's energy needs in 2030, or six terawatts of energy, would take some four million 5-megawatt (MW) turbines…Jacobson contends that even that large number of turbines could be spaced in such a way to keep them from robbing each other of efficiency…Even eight megasize wind farms, each with a half-million turbines, would prove efficient enough to output a total of four terawatts, or about a third of the world's projected energy needs in 2030, according to his paper…[Four million turbines] spread among thousands of wind farms…would boost the turbines' efficiency enough…[to] provide at least half the world's energy needs, Jacobson said…

“Geography and politics will combine to limit turbine placement to certain areas, and the question of diminishing returns from dense arrays will become a significant factor [other researchers say]…No doubt, the models will be refined as research continues [they argue]…”

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WTO RULES FOR IMPORTED SUN World Trade Organization Delivers Blow to Solar PV Domestic Content Proponents

Michael Barker, May 15, 2013 (SolarBuzz)

“…[T]he World Trade Organization (WTO) released its final ruling in the dispute concerning Ontario, Canada’s local content requirements (LCRs) for its internal FIT program…[T]his ruling ends a process that was initiated almost three years ago when Japan first filed a complaint – in September 2010 – alleging that Ontario’s LCRs violated trade agreements. It then took more than two years for a decision upholding the complaint…

“The ruling immediately affects the Canadian market…[L]ess than 50% of [the PV project application pipeline in Ontario of almost 1 GW] has actually received notice to proceed. This means that the Ontario market – which is almost wholly responsible for Canadian market demand – could become moribund within a few years as the PV project pipeline is exhausted and not renewed…[The] ruling could also have implications beyond Canada, as domestic content requirements (DCRs) exist…[in eight of the top 30 global markets] representing almost 60 GW of PV demand over the next five years.”

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“…[The ruling means] many of the content requirements in place will be found to be in violation of WTO rules. In fact, there are currently several cases very similar to the Ontario dispute already under investigation by the WTO; concerning countries such as India, Italy, and Greece.

“The current ruling against such policies may drive more complaints being filed…increasing the scope of the current global trade disputes. Also, many PV incentive programs are being implemented as a broad economic policy, intended to stimulate both upstream and downstream PV industry activity. If countries are forced to abandon the former part of this strategy, it is possible that they will also remove the latter, thus jeopardizing future demand…”

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TODAY’S STUDY: THE BEST UTILITIES FOR SUN

2012 SEPA Top 10 Utility Solar Rankings Preview; Large-scale Solar Projects Drive New Market Growth April 2013 (Solar Electric Power Association)

Key Trends

The Solar Electric Power Association’s (SEPA) sixth annual Utility Solar Rankings report analyzes the amount of new solar power interconnected by U.S. electric utilities in 2012. It covers more than 260 of the most solar-active utilities, representing more than 96 percent of the national U.S. solar electric power market. This preview examines the three key trends and national utility rankings, to be followed by the full report in late May.

Three key trends emerged from the data:

1. Annual solar capacity surpassed 2 gigawatts for the first time in 2012. Utilities integrated almost 2.4 gigawatts (GW-ac) or 2,384 megawatts (MW-ac) of solar electric capacity in 2012. This is equivalent to the construction of 8 natural gas combined cycle power plants. The U.S. now has more than 300,000 solar projects and almost 6.1 GW-ac installed across the country.

2. Utilities purchased more than 1 gigawatt of large-scale solar. The market share for large-scale solar projects (> 5 MW) was 1,106 MW or 46 percent of all annual solar capacity, a growth of almost 250 percent over 2011. This wholesale market segment encompassed more than 70 photovoltaic (PV) projects, including Pacific Gas and Electric’s purchase of the largest solar PV project in the world, the 250 MW Agua Caliente project. Utilities owned 12 percent and purchased the remaining 88 percent through power purchase agreements. No concentrating solar power (CSP) projects were completed in 2012, but at least six projects totaling 750 megawatts are anticipated in 2013. The large solar segment has grown into a key part of the market in only a few years, and will continue growing in 2013.

3. Customer-sited solar remains a large part of the solar market. Net metered projects, effectively the customer-facing part of the market, accounted for more than 99 percent of the number ofinstalled systems in 2012. Utilities interconnected nearly 90,000 net metered projects totaling 1,151 MW-ac last year, representing a 46 percent growth over 2011. There are currently about 3.5 GW of net metered projects in the country, approximately 80 percent of which are concentrated in five states – California, New Jersey, Arizona, Hawaii and Massachusetts.

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National Utility Solar Rankings The Top 10 annual rankings measure U.S. utilities’ newly integrated solar power, and include PV and CSP projects that were interconnected during 2012. There are two rankings categories: Solar Megawatts, which measure a utility’s total solar capacity, and Solar Watts-per-Customer, which standardizes the capacity using each utility’s total number of electric customers.

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Solar Megawatts Pacific Gas & Electric (PG&E) ranked first nationally and installed more than 800 MW in 2012, an 80 percent increase over 2011 and more than what was installed in the entire country as recently as 2010. Its portfolio included nearly 630 MW of large-scale projects, of which 50 MW were utility-owned. PG&E also interconnected more than 17,500 net metered systems in 2012. Southern California Edison (SCE) ranked second with more than 190 MW of new solar generation and was driven primarily by 15,000 residential and non-residential projects, which accounted for more than 150 MW. Public Service Electric and Gas (PSE&G) rounded out the top three utilities and along with Jersey Central Power & Light and Progress Carolinas, was one of three utilities from the east coast in the Top 10.

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Sacramento Municipal Utility District (SMUD) was the only municipal utility to make this year’s Top 10 MW list, taking the ninth spot with nearly 70 MW. SMUD’s portfolio was driven by the utility’s procurement of more than 50 MW of large-scale PV projects through the build-out of their 2010 RFP solicitation process.

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In 2012, it took a minimum of 65 MW to make the MW rankings list, compared to 45 MW in 2011 and just 20 MW in 2010. Utilities in the megawatt category were generally large, with a median of 1.1 million customers, compared to the median size of 300,000 for the top 100 utilities that took the survey.

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Solar Watts-per-Customer In the Watts-per-Customer category, the municipal utility for the City of St. Marys (OH) ranked first nationally with nearly 563 watts per customer (w/c). The city owns 2.3 MW of a 3.6 MW solar project that is located in the City of Napoleon, OH, whose municipal utility owns another portion and is ranked ninth in this year’s Top 10. Kauai Island Utility Cooperative followed in second with 282 w/c after adding more than 9 MW of new capacity to their grid in 2012. Kauai’s cumulative solar capacity is 14 MW, or nearly 23 percent of their peak weekday demand. Bryan Municipal Utilities, located in Ohio, rounded out the top three with 276 w/c after installing a 2 MW utility-owned PV project.

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This year, it took 162 w/c to make the Top 10 list, which is nearly double the requirement of 83 w/c to rank in 2011. This year’s highest ranked Investor-Owned Utility was Hawaiian Electric Company (HECO), taking the fourth spot with nearly 220 w/c. Notably, Ohio tied with Hawaii for the state that contributed the most utilities to the Watt-per-Customer Top 10 list, each contributing three. While Hawaii has embraced solar energy because it is an economically viable source of electricity and the state has an abundance of solar irradiation, Ohio is a newcomer to the rankings, driven by solar initiatives from American Municipal Power, the municipal generation and transmission provider in the region.

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The utilities in this ranking were smaller than those in the Solar Megawatts category, with a median of 29,000 customers, and were more diverse by geography and utility type. Only three utilities, Hawaiian Electric Co., Maui Electric and Tucson Electric Power, made last year’s Watts-per-Customer ranking and only two, HECO and Tucson Electric Power, made both Top 10 lists in 2012. It is not unusual for one or a few medium-sized solar projects to push a smaller utility into the Watts-per-Customer Top 10, creating greater volatility in this ranking.

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QUICK NEWS, May 20: INSURANCE COMPANIES PREPARE FOR CLIMATE CHANGE; UK’S GREEN BANK BRINGS THE BIG BUCKS; UTILITY GOES FOR BETTER SUN, WIND FORECASTS

INSURANCE COMPANIES PREPARE FOR CLIMATE CHANGE For Insurers, No Doubts on Climate Change

Eduardo Porter, May 14 2013 (NY Times)

“…[N]atural catastrophes across the United States pounded insurers last year, generating$35 billion in privately insured property losses, $11 billion more than the average over the last decade…And the industry expects the situation will get worse…Most insurers, including the reinsurance companies that bear much of the ultimate risk in the industry, have little time for the arguments heard in some right-wing circles that climate change isn’t happening…[and accept that it is caused by humans. But]…the focus of insurers’ advocacy efforts is zoning rules and disaster mitigation [instead of prevention].

…[The concentration of heat-trapping carbon dioxide in the atmosphere [recently] reached 400 parts per million…The milestone puts the earth nearer a point of no return, many scientists think, when vast, disruptive climate change is baked into our future…[So] why hasn’t corporate America done more to sway its allies in the Republican Party to try to avert a disaster that would clearly be devastating to its own interests?”

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“…[The insurance industry may want to avoid] controversies over energy policy. But perhaps its executives simply don’t feel so vulnerable. Like farmers, who are largely protected from the ravages of climate change by government-financed crop insurance, insurers also have less to fear than it might at first appear…The federal government covers flood insurance, among the riskiest kind in this time of crazy weather. And insurers can raise premiums or even drop coverage to adjust to higher risks. Indeed, despite Sandy and drought, property and casualty insurance in the United States was more profitable in 2012 than in 2011, according to the Property Casualty Insurers Association of America.

“But the industry…[is evolving. Insurance companies] dropped their support for [the Heartland Institute, and Heartland VP Eli Lehrer, who led an insurance-financed project, left to help]…start the R Street Institute, a standard conservative organization…[that] believes in climate change and supports a carbon tax…[I]t is financed largely with insurance industry money…[Some Republicans in the House and Senate] would be open to legislation to help avert climate change…[and Exelon is sympathetic, probably] because a carbon tax would give an edge to gas over its dirtier rival, coal…[but] with the exception of 2004 and 2005, when a string of hurricanes from Ivan to Katrina caused damage worth more than $200 billion…they haven’t yet experienced hefty, sustained losses attributable to climate change…[T]he best hope for those concerned about climate change…[is] that global warming isn’t just devastating for society, but also bad for business.”

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UK’S GREEN BANK BRINGS THE BIG BUCKS UK Green Investment Bank mobilises £2.3bn investment in UK’s low-carbon infrastructure

09 May 2013 (Green Investment Bank)

“The UK Green Investment Bank plc (GIB)…investment impact of its first five months of operation (up to 31st March 2013)…[1] Committed funds to 11 transactions with a total value of £2.3 billion…[2] Directly committed £635 million, resulting in a funding ratio that sees £1 from GIB mobilising almost £3 of private sector money…[3] Supported transactions in all of its priority sectors: offshore wind, energy efficiency and waste; and…[4] Completed all transactions on fully commercial terms in line with co-investors.

“…[P]rovisional results indicate that, once operational, these investments will, on an annualised basis…[1] Save over 2.5 million tonnes of greenhouse gas emissions; the equivalent today of taking around 1 million cars off UK roads; and…[2] Generate around 10TWh of renewable electricity; the equivalent today of the annual domestic electricity consumption of around 2.3m UK homes.”

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“Projects that have been backed include…[1] A new clean energy centre at Addenbrookes Hospital, Cambridge to help the NHS Trust reduce their emissions and save money…[2] An equity stake in an offshore wind farm; and…[3] A local authority managed recycling centre in Wakefield, West Yorkshire to reduce waste sent to landfill and capture energy from waste.

“GIB has also made progress in building an enduring institution…[1, The] Bank will move into a new permanent home [in Edinburgh] in August…[2] A team of 74 people has been recruited and…[it] rise to 100 by the end of this calendar year…[3] A strong transaction pipeline is in place…[and, 4] An investment alliance with Abu Dhabi backed clean energy firm, Masdar has been signed to bring in additional funding…over the next seven years…”

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UTILITY GOES FOR BETTER SUN, WIND FORECASTS Xcel Energy and NCAR power up renewable energy forecasts

2013 May 8 (Xcel Energy)

“Xcel Energy…expanded [its] agreement with the National Center for Atmospheric Research for sophisticated renewable energy forecasting…[A]n existing relationship… has saved Xcel Energy’s 3.4 million electricity customers in eight states millions of dollars [including more than $6 million in 2010]…

“In the next two years, NCAR scientists and engineers will develop custom forecasting systems to enable Xcel Energy control centers in Minneapolis, Denver, Golden, Colo., and Amarillo, Tex., to anticipate sudden changes in wind, shut down turbines ahead of potentially damaging icing events and even predict the amount of energy generated by private solar panels [and it will eventually publish the results]…”

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“The new project represents the latest venture by NCAR into renewable energy, which includes a three-year, nationwide project to create 36-hour forecasts of incoming energy from the sun for solar energy power plants…The systems will help Xcel Energy provide reliable power…and reduce costs while…[using more] wind and solar…in its territories served by Public Service Co. of Colorado, Northern States Power Co.-Minnesota, NSP-Wisconsin and Southwestern Public Service Co…

“…The specialized system relies on a suite of tools, including highly detailed observations of atmospheric conditions, an ensemble of powerful computer models, and artificial intelligence techniques to issue high-resolution forecasts for wind farm sites…[They] will provide ‘probabilistic forecasts,’ estimating the chances that a particular weather event will occur. This means that utility managers will be able to make decisions based on whether there is an 80 percent chance of certain weather events at a wind farm the next day or a 20 percent chance…Ultimately, Xcel Energy will control the systems…”

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Spray On Solar

Don’t count on this anytime soon. Buy some rooftop panels. But it is ideas like this that eventually make the difference. From YushoStudios via YouTube

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Wind In The Rural Landscape

This piece is from AWEA’s Why I Like Wind Power series. From AmericanWindEnergy vis YouTube

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What Dark Snow Means

Short and powerful. From greenman3610 via YouTube

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CLIMATE CHANGE AND THE EYE OF THE BEHOLDER

Emotional Response to Climate Change Influences Whether We Seek or Avoid Further Information

May 15, 2013 (Science Daily)

“Sixty-two percent of Americans now say they believe that global warming is happening, but 46 percent say they are "very sure" or "extremely sure" that it is not. Only 49 percent know why it is occurring, and about as many say they're not worried about it…Because information about climate change is ubiquitous in the media, [Z. Janet Yang, PhD, assistant professor of communication at the University at Buffalo and Lee Ann Kahlor, PhD, associate professor of public relations and advertising at the University of Texas, Austin,] looked at why many Americans know so little about its causes and why many are not interested in finding out more.

…What, Me Worry? The Role of Affect in Information Seeking and Avoidance …[found those] who had negative feelings toward climate change -- feelings marked by states of fear, depression, anxiety, etc., -- actively sought more information about climate change…[and] saw climate change as having serious risks, and considered their current knowledge about it insufficient…”

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“…Those driven by a positive affect toward climate change -- an emotional state marked by hopefulness, excitement, happiness, etc. -- actively avoided exposure to additional information on the issue…[and] said climate change presented little risk to nature and humans, and they viewed their knowledge about climate change as sufficient.

“…The researchers say the study results…[suggest] that risk communication about climate change might benefit from…Arousing a sense of curiosity and debunking false beliefs about ecological risks so people are not complacent about what they already know…Highlighting potential negative consequences and fostering a positive attitude toward learning about climate change…Monitoring the audience's social environment and its perceived ability for finding and understanding information about climate change…Promoting optimism that human action, such as reducing greenhouse gas, could actually combat the consequences of climate change…”

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WHERE NEW ENERGY NEEDS TO BE

Siemens study: Europe can save EUR 45 billion in its pursuit of renewables

May 15, 2013 (Siemens)

“Building and expanding renewable energy installations in the wrong locations is costing EUR 45 billion in unnecessary investment…Potential savings on a magnitude of 4-5 times the annual investment in solar and wind power plant construction in Germany are possible…If installations were built at the sites in Europe that offer the highest power yields, some EUR 45 billion of investment in renewables could be saved by 2030…

“In an ongoing study, Siemens is working in cooperation with the Technical University of Munich to examine energy systems worldwide with the aim of ascertaining their utilization rate of resources, reliability of supply, sustainability and cost-efficiency. Based on the realization that billions are being wasted every year as a result of inefficiencies in worldwide energy systems and markets, the study intends to precisely identify and quantify these losses, and to propose solutions…[at] the World Energy Congress (WEC), to be held in Daegu, South Korea in October 2013.”

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“Siemens has spotlighted four main levers for optimizing energy systems worldwide that can be more or less effective depending on the regional characteristics of the power grids and the power plant fleet…[1]Local optimization of renewable power installations…[2] Enhancing the efficiency of the power system as a whole…[3] Improvements in the power plant mix…[and, 4] More use of electric power for energy needs…

“Energy systems around the world vary broadly owing to their regional conditions, and are constantly changing…Siemens is examining these regional situations with allowance for predicted future developments, and identifying the implications for neighboring energy markets. One of the aims is to determine what approaches are most suitable from national and global economic perspectives for creating reliable and sustainable energy systems with high efficiency but still at affordable power prices…”

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KUWAIT’S POSSIBLE SOLAR

Kuwait’s solar journey comes to light

Jenny Muirhead/Heba Hashem, May 10, 2013 (CSP Today)

“…Despite being the third-biggest producer in the Organization of Petroleum Exporting Countries (OPEC), Kuwait’s long-standing dependency on fossil fuels is expected to backfire by as early as 2017…[A]bout four years from now, oil revenues will no longer outweigh Kuwait’s spending…Kuwait is actively planning to harness renewable energy…The country aims to produce about 1% of its electricity from renewables by 2015; 10% by 2020 and 15% by 2030. Projects now are underway to use CSP in a variety of applications, including a hybrid power plant, enhanced oil recovery, and as part of a renewable energy complex…

“Kuwait’s most advanced solar power project has been under a feasibility study by Japan’s Toyota Tsusho Corporation since 2007. Consisting of a 60 MW trough solar collector, Al Abdaliya Solar Plant will be part of a 280 MW Integrated Solar Combined Cycle (ISCC) system – integrating a parabolic trough collector with a gas turbine – and will be located in Al Abdaliya Desert, west of Kuwait…Kuwait’s second planned CSP project will also employ parabolic trough technology, as part of a 50 MW plant within the 70 MW Shagaya Renewable Energy Complex. The demonstration plant will use dry cooling and large capacity molten salt thermal energy storage…The tender for the project’s EPC contract, however, has been delayed since September 2012…”

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“…Chevron, which has operated four oilfields in the onshore Partitioned Zone (PZ) that lies between Saudi Arabia and Kuwait since 1949…is now exploring ways of using solar energy for enhanced oil recovery…A pilot solar plant may start at the end of 2013…in attempt produce the steam needed to pump heavy crude from Chevron’s Saudi Arabia oilfield, and a final investment decision is expected to be made this year…Chevron’s project would use solar power in conjunction with burning natural gas for the steam flood development…

“…Kuwait has the highest direct normal solar irradiance in the GCC region, with solar radiation levels peaking at above 8,000 kilowatt hours a square metre…Although no plans have been announced yet for solar subsidies or minimum local content requirements…[there is a draft] renewable energy strategic plan through 2030…CSP could clearly play a dynamic role in Kuwait’s future energy mix, where it can be used in food production, desalination systems, enhanced oil recovery, water heating, autonomous or stand-alone power generators in remote areas, as well as in security applications…[I]f the new shale oil and gas explorations do not distract it from its renewable energy objectives, Kuwait could easily become a regional leader…”

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WHAT INDIA WIND NEEDS

Wind energy dropped 1,500 MW due to withdrawal of incentives; Association asks govt to restore generation-based incentives and accelerated depreciation for the industry

May 16, 2013 (Press Trust of India via Business Standard)

“…Indian Wind Power Association (IWPA)…asked the government to restore generation-based incentives and accelerated depreciation for the industry, which witnessed a dip of 1,500 MW in generation during 2012-13…Wind energy is the cheapest source of electricity in the country. The current installed capacity is 19,000 MW.

“…[The dip followed] removal of…accelerated depreciation (AD)…[which] is based on investment. If a company invests Rs 100 then Rs 80 it can take back as tax incentive. Under the scheme for wind power, a GBI (Generation Based Incentive) of 50 paise per unit of electricity fed into the grid is provided for a period not less than 4 years and a maximum period of 10 years…’

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“…AD provides cheaper and non-polluting electricity with no annual escalations…[R]einstatement of GBI has been announced during the Budget 2013-14. Its form and structure is yet to be announced.

“According to various reports these incentives were scrapped as many developers took incentives to save tax and after the completion of incentives either neglected or abandoned the wind farms altogether.”

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