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jpak
jpak's Journal
jpak's Journal
July 31, 2013
Europe's largest battery is to undergo testing in the UK, where it will be used to store and regulate energy generated from renewable sources such as wind and solar power, The Guardian reports. The lithium manganese battery, developed by S&C Electric Europe, Samsung SDI and Younicos, will be capable of storing up to 10 MWh of energy.
<snip>
In an email to Gizmag, S&C's Steve Jones described the battery as "6 MW/10 MWh," so it sounds as if the battery will be capable of storing 10 MWh (36 gigajoules) of energy, while we're laboring under the assumption that 6 MW is its maximum possible power output. That being the case, the battery would last for an hour and 40 minutes operating at maximum demand.
<snip>
The Guardian reports that £13.2 million (US$20.2 million) of the project's £18.7 million ($28.7 million) budget has been met by the government. Though a 10 MWh battery is a drop in the proverbial ocean when it comes to the UK's energy demand, The Guardian cites Imperial College research that claims electrical storage technology could save £3 billion every year during the 2020s.
A 10 MWh is a comparative tiddler next to the 60-MWh monster announced by the Japanese government back in April. The ¥20 billion ($200 million) project is being designed to regulate solar power from the northern island of Hokkaido. It is due to be up and running by 2015.
<more>
Europe's "biggest battery" to regulate UK renewable energy
http://www.gizmag.com/europes-biggest-battery/28496/Europe's largest battery is to undergo testing in the UK, where it will be used to store and regulate energy generated from renewable sources such as wind and solar power, The Guardian reports. The lithium manganese battery, developed by S&C Electric Europe, Samsung SDI and Younicos, will be capable of storing up to 10 MWh of energy.
<snip>
In an email to Gizmag, S&C's Steve Jones described the battery as "6 MW/10 MWh," so it sounds as if the battery will be capable of storing 10 MWh (36 gigajoules) of energy, while we're laboring under the assumption that 6 MW is its maximum possible power output. That being the case, the battery would last for an hour and 40 minutes operating at maximum demand.
<snip>
The Guardian reports that £13.2 million (US$20.2 million) of the project's £18.7 million ($28.7 million) budget has been met by the government. Though a 10 MWh battery is a drop in the proverbial ocean when it comes to the UK's energy demand, The Guardian cites Imperial College research that claims electrical storage technology could save £3 billion every year during the 2020s.
A 10 MWh is a comparative tiddler next to the 60-MWh monster announced by the Japanese government back in April. The ¥20 billion ($200 million) project is being designed to regulate solar power from the northern island of Hokkaido. It is due to be up and running by 2015.
<more>
July 27, 2013
Below was a great summary (if a bit simplified in parts) comment from one of our readers on one of our posts last week. I thought it deserved a few more eyes. Also, I happened to go back to a roundtable discussion of utility CEOs today that supports the overall the intermittency of renewable energy issue is overhyped argument. More on that below the reader comment.
<snip>
First, the then CEO and President of Florida Power & Light, Armando Olivera, chimed in. I spent a lot of time in operations in our company. Of all the things that I worry about, regulating using solar, or renewables, really doesnt worry me. I think you gotta be at a really huge scale of solar before that becomes an issue. And in the meantime, weve got a lot of enabling technology going into these grids about half of the meters at FPL are already automated devices. We are learning a huge were seeing benefits that we didnt fully anticipate in terms of managing the grid. Were also putting in a lot of smart technology that can adjust at a very local level whenever theres a problem. So, you know, I think theres a huge foundation thats being laid out today that will facilitate all of these technologies .
Doyle Beneby, President & CEO of CPS Energy, backed him up. Yeah, I would agree with Armando, I dont worry about that at all . Generally, if youve got automated meters, if youve got the means for a home area network, I think you can easily reduce demand to follow I call it load-following for solar. What we found, also, is that there are a very discreet set of customers out there who would volunteer to have their load reduced to follow the drop in output for solar . So I think thats a big opportunity out (there) for us. I really think concerns about the grid, so to speak, and even to a degree intermittency, should not at all impede the progress of solar.
Robert Powers, President of AEP Utilities, also chimed in and said, I agree with my colleague that near-term theres no, no issue with grid stability with deploying solar.
<more>
Intermittency Of Renewables?… Not So Much
http://cleantechnica.com/2013/07/21/intermittency-of-renewable-energy/Below was a great summary (if a bit simplified in parts) comment from one of our readers on one of our posts last week. I thought it deserved a few more eyes. Also, I happened to go back to a roundtable discussion of utility CEOs today that supports the overall the intermittency of renewable energy issue is overhyped argument. More on that below the reader comment.
<snip>
First, the then CEO and President of Florida Power & Light, Armando Olivera, chimed in. I spent a lot of time in operations in our company. Of all the things that I worry about, regulating using solar, or renewables, really doesnt worry me. I think you gotta be at a really huge scale of solar before that becomes an issue. And in the meantime, weve got a lot of enabling technology going into these grids about half of the meters at FPL are already automated devices. We are learning a huge were seeing benefits that we didnt fully anticipate in terms of managing the grid. Were also putting in a lot of smart technology that can adjust at a very local level whenever theres a problem. So, you know, I think theres a huge foundation thats being laid out today that will facilitate all of these technologies .
Doyle Beneby, President & CEO of CPS Energy, backed him up. Yeah, I would agree with Armando, I dont worry about that at all . Generally, if youve got automated meters, if youve got the means for a home area network, I think you can easily reduce demand to follow I call it load-following for solar. What we found, also, is that there are a very discreet set of customers out there who would volunteer to have their load reduced to follow the drop in output for solar . So I think thats a big opportunity out (there) for us. I really think concerns about the grid, so to speak, and even to a degree intermittency, should not at all impede the progress of solar.
Robert Powers, President of AEP Utilities, also chimed in and said, I agree with my colleague that near-term theres no, no issue with grid stability with deploying solar.
<more>
July 25, 2013
What do you get when you mix Georgia Tea Party activists, solar energy developers and an eager regulator? The result of this rare coalition recently emerged as an aggressive state policy that will hedge electricity rate increases for consumers, secure environmental benefits and kick-start a regional solar industry. By 2016 Georgia is set to increase the amount of solar within its borders 18-fold.
<snip>
First, prices historically have fluctuated. This probably will not change. In fact, it may get worse. Next, its unlikely that prices will decrease in the future. Old, inadequately controlled coal plants will need to make capital expenditures in order to meet new federal air pollution standards. This could lead to rate increases.
As one of the commissioners put it (PDF), Commissioner McDonald's motion adding 525 megawatts of solar to our 20-year energy plan is a hedge against more coal regulation and natural gas price volatility. When the president finishes his war on coal, he'll come after fracking, and gas prices will surely go up. We have to be ready."
McDonald echoed that sentiment: "We don't know what tomorrow is going to be with coal. We don't know what tomorrow is going to be with natural gas...but we know the sun will be shining."
<more>
Wow - The Tea Party and Obama Derangement Syndrome is driving the development of solar energy in GA.
What strange times we live in...
Is Georgia the next frontier for solar development?
http://www.greenbiz.com/blog/2013/07/24/georgia-next-frontier-solar-development-0What do you get when you mix Georgia Tea Party activists, solar energy developers and an eager regulator? The result of this rare coalition recently emerged as an aggressive state policy that will hedge electricity rate increases for consumers, secure environmental benefits and kick-start a regional solar industry. By 2016 Georgia is set to increase the amount of solar within its borders 18-fold.
<snip>
First, prices historically have fluctuated. This probably will not change. In fact, it may get worse. Next, its unlikely that prices will decrease in the future. Old, inadequately controlled coal plants will need to make capital expenditures in order to meet new federal air pollution standards. This could lead to rate increases.
As one of the commissioners put it (PDF), Commissioner McDonald's motion adding 525 megawatts of solar to our 20-year energy plan is a hedge against more coal regulation and natural gas price volatility. When the president finishes his war on coal, he'll come after fracking, and gas prices will surely go up. We have to be ready."
McDonald echoed that sentiment: "We don't know what tomorrow is going to be with coal. We don't know what tomorrow is going to be with natural gas...but we know the sun will be shining."
<more>
Wow - The Tea Party and Obama Derangement Syndrome is driving the development of solar energy in GA.
What strange times we live in...
July 25, 2013
DOI announced this week it will hold Americas second-ever competitive lease sale for offshore wind on the U.S. Outer Continental Shelf (OCS) September 4th, for 112,800 acres in a prime development zone 23.5 miles from Virginia Beach.
The announcement comes one week before DOIs first competitive offshore wind lease auction is held for 164,750 acres for development off the coasts of Massachusetts and Rhode Island on July 31st, an event Interior Secretary Jewell has said could set the pace for future auctions.
The competitive lease sale offshore Virginia will mark an important transition from planning to action when it comes to capturing the enormous clean energy potential offered by Atlantic wind, said Secretary Jewell. Responsible commercial wind energy development has the potential to create jobs, increase our energy security, and strengthen our nations competitiveness.
Americas coastal waters hold enormous wind energy potential roughly 1,300 gigawatts (GW), according to a 2012 estimate. Even harnessing a realistic fraction of this potential could generate 52GW of clean electricity, while creating 300,000 green jobs and $200 billion in economic activity.
<more>
Virginia’s Coastline Could Soon Be Home To 2GW Of Offshore Wind
http://cleantechnica.com/2013/07/24/virginia-coastline-could-soon-be-generating-2gw-of-offshore-wind/DOI announced this week it will hold Americas second-ever competitive lease sale for offshore wind on the U.S. Outer Continental Shelf (OCS) September 4th, for 112,800 acres in a prime development zone 23.5 miles from Virginia Beach.
The announcement comes one week before DOIs first competitive offshore wind lease auction is held for 164,750 acres for development off the coasts of Massachusetts and Rhode Island on July 31st, an event Interior Secretary Jewell has said could set the pace for future auctions.
The competitive lease sale offshore Virginia will mark an important transition from planning to action when it comes to capturing the enormous clean energy potential offered by Atlantic wind, said Secretary Jewell. Responsible commercial wind energy development has the potential to create jobs, increase our energy security, and strengthen our nations competitiveness.
Americas coastal waters hold enormous wind energy potential roughly 1,300 gigawatts (GW), according to a 2012 estimate. Even harnessing a realistic fraction of this potential could generate 52GW of clean electricity, while creating 300,000 green jobs and $200 billion in economic activity.
<more>
July 20, 2013
Air-conditioner use during recent hot weather has strained the capacity of power companies across the Northeast and Midwest. Several utilities, including Con Edison, National Grid and the large European utilities Enel and GDF SUEZ, have signed up to fine-tune and test what they hope could lead to an answer a battery half the size of a refrigerator from Eos Energy Storage, the company said Tuesday. If the testing goes well, the batteries hold the promise of providing storage that until now has been unaffordable on a large scale, Diane Cardwell reports in The New York Times.
Energy storage is no longer an idea and a theory its actually a practical reality, said Steve Hellman, Eoss president. Youre seeing a lot of commercial activity in the energy storage sector.
Part of the appeal is economic: utilities could buy power from centralized plants during off-peak hours, when it is cheaper, and use it to feed the grid at peak hours when it is typically more expensive. That could also relieve congestion on some transmission lines, reducing strain and the need to spend money upgrading or repairing them. In addition, batteries could help integrate more renewable sources like solar and wind into the power grid, smoothing out their intermittent production.
Energy storage in general has been kind of a holy grail for utilities a lot of the generation and demand is instantaneous, said Joseph Carbonara, project manager in research and development at Con Edison, who is managing the Eos program. The utilities have always been looking to buffer that.
<more>
Daily Report: Batteries May Provide Relief From Summer Blackouts
http://bits.blogs.nytimes.com/2013/07/17/daily-report-batteries-may-provide-relief-from-summer-blackouts/Air-conditioner use during recent hot weather has strained the capacity of power companies across the Northeast and Midwest. Several utilities, including Con Edison, National Grid and the large European utilities Enel and GDF SUEZ, have signed up to fine-tune and test what they hope could lead to an answer a battery half the size of a refrigerator from Eos Energy Storage, the company said Tuesday. If the testing goes well, the batteries hold the promise of providing storage that until now has been unaffordable on a large scale, Diane Cardwell reports in The New York Times.
Energy storage is no longer an idea and a theory its actually a practical reality, said Steve Hellman, Eoss president. Youre seeing a lot of commercial activity in the energy storage sector.
Part of the appeal is economic: utilities could buy power from centralized plants during off-peak hours, when it is cheaper, and use it to feed the grid at peak hours when it is typically more expensive. That could also relieve congestion on some transmission lines, reducing strain and the need to spend money upgrading or repairing them. In addition, batteries could help integrate more renewable sources like solar and wind into the power grid, smoothing out their intermittent production.
Energy storage in general has been kind of a holy grail for utilities a lot of the generation and demand is instantaneous, said Joseph Carbonara, project manager in research and development at Con Edison, who is managing the Eos program. The utilities have always been looking to buffer that.
<more>
July 20, 2013
If the price of grid-scale energy storage fell to zero dollars per megawatt-hour, regulators and utilities would still be puzzled in how to deploy the boon of energy storage.
That's because storage doesn't fit neatly into the electrical utility's regulatory universe of generation, distribution, and load -- or into the utility rate recovery structure.
But that regulatory uncertainty is starting to clear.
It started with FERC Order 755, enacted in 2011, a ruling from the Federal Energy Regulatory Commission (FERC) that increased the pay for fast responding sources like batteries or flywheels that are bidding into frequency regulation service markets. Flywheel energy storage operator, Beacon, sells into this market.
<more>
FERC’s Energy Storage Ruling Could Jump-Start Big Batteries
http://www.greentechmedia.com/articles/read/FERCs-Energy-Storage-Ruling-Could-Jump-Start-Big-BatteriesIf the price of grid-scale energy storage fell to zero dollars per megawatt-hour, regulators and utilities would still be puzzled in how to deploy the boon of energy storage.
That's because storage doesn't fit neatly into the electrical utility's regulatory universe of generation, distribution, and load -- or into the utility rate recovery structure.
But that regulatory uncertainty is starting to clear.
It started with FERC Order 755, enacted in 2011, a ruling from the Federal Energy Regulatory Commission (FERC) that increased the pay for fast responding sources like batteries or flywheels that are bidding into frequency regulation service markets. Flywheel energy storage operator, Beacon, sells into this market.
<more>
July 20, 2013
In recent months, GM, Toyota, and Honda have all made big public commitments to put hydrogen fuel cell equipped cars on the road by 2016. Some of their moves can be explained by President Obamas expected hydrogen push and pressure from oil companies and gas-station owners to keep their infrastructure relevant in a non-petroleum economy.
Hydrogen fueled cars primary emissions are, of course, water vapor so theyre vastly cleaner than petroleum fueled cars at first glance. They also have the potential to be convenient, since they can be refueled in about the same time it takes to fill a liquid fuel tank. Still, despite gas station owners vested interest in a liquid-fuel model, theyve been surprisingly resistant to investing in the technology. Last year, for example, only 27 hydrogen filling stations were added to Americas infrastructure. Thats surprising for a technology that was once the darling of the Bush administration (Bush called for $1.2 billion in govt funding to develop fuel-cell technology in his 2003 State of the Union address).
Since then, of course, weve all learned that there are a lot of questions about just how environmentally friendly hydrogen fuel-cell vehicles actually are when the hydrogen that fuels them comes from natural gas, a fossil fuel thats produced through highly controversial fracking processes that releases huge amounts of carbon dioxide (at best).
So, whats really going on here? Why the sudden spark of interest? Kevin Bullis, of MITs Technology Review magazine, explains that, sometimes, miracles do happen.
<more>
MIT Explains Why Toyota and GM are Pushing Hydrogen
http://gas2.org/2013/07/17/mit-explains-why-toyota-and-gm-are-pushing-hydrogen/In recent months, GM, Toyota, and Honda have all made big public commitments to put hydrogen fuel cell equipped cars on the road by 2016. Some of their moves can be explained by President Obamas expected hydrogen push and pressure from oil companies and gas-station owners to keep their infrastructure relevant in a non-petroleum economy.
Hydrogen fueled cars primary emissions are, of course, water vapor so theyre vastly cleaner than petroleum fueled cars at first glance. They also have the potential to be convenient, since they can be refueled in about the same time it takes to fill a liquid fuel tank. Still, despite gas station owners vested interest in a liquid-fuel model, theyve been surprisingly resistant to investing in the technology. Last year, for example, only 27 hydrogen filling stations were added to Americas infrastructure. Thats surprising for a technology that was once the darling of the Bush administration (Bush called for $1.2 billion in govt funding to develop fuel-cell technology in his 2003 State of the Union address).
Since then, of course, weve all learned that there are a lot of questions about just how environmentally friendly hydrogen fuel-cell vehicles actually are when the hydrogen that fuels them comes from natural gas, a fossil fuel thats produced through highly controversial fracking processes that releases huge amounts of carbon dioxide (at best).
So, whats really going on here? Why the sudden spark of interest? Kevin Bullis, of MITs Technology Review magazine, explains that, sometimes, miracles do happen.
<more>
July 20, 2013
A recently published primer on net energy metering (NEM) from the solar industry explains why it is under attack by utilities across the country -- and explores how the two opposing sides might come to terms.
As the penetration of distributed solar generation increases, the debate on NEM policies and impacts is intensifying, concluded the authors of a new report, Ratemaking, Solar Value and Solar Net Energy Metering: A Primer, from the Solar Electric Power Association (SEPA). Utilities in some regions have observed distributed solar adoption at rates not previously forecast and are now seeing significant amounts of grid-tied solar on their systems.
Between 2011 and 2012, the number of newly installed solar NEM systems increased from 61,400 to 89,620 -- a 46 percent annual growth rate -- bringing the cumulative total to 302,380 NEM systems, the SEPA study reported. By year end 2012, U.S. solar generation under net metering totaled more than 3,500 megawatts-AC. It is striking to consider that in 2005, when EPACT passed, total grid-connected solar capacity nationwide was only about 200 megawatts-AC.
The utility industry is starting to think about these disruptive changes. As a recent report from the Edison Electric Institute concluded, "Disruptive forces, if not actively addressed, threaten the viability of old-line exposed industries.
<more>
The Solar Industry Responds to Utility Attacks on Net Metering
http://www.greentechmedia.com/articles/read/The-Solar-Industry-Responds-to-Utility-Attacks-on-Net-MeteringA recently published primer on net energy metering (NEM) from the solar industry explains why it is under attack by utilities across the country -- and explores how the two opposing sides might come to terms.
As the penetration of distributed solar generation increases, the debate on NEM policies and impacts is intensifying, concluded the authors of a new report, Ratemaking, Solar Value and Solar Net Energy Metering: A Primer, from the Solar Electric Power Association (SEPA). Utilities in some regions have observed distributed solar adoption at rates not previously forecast and are now seeing significant amounts of grid-tied solar on their systems.
Between 2011 and 2012, the number of newly installed solar NEM systems increased from 61,400 to 89,620 -- a 46 percent annual growth rate -- bringing the cumulative total to 302,380 NEM systems, the SEPA study reported. By year end 2012, U.S. solar generation under net metering totaled more than 3,500 megawatts-AC. It is striking to consider that in 2005, when EPACT passed, total grid-connected solar capacity nationwide was only about 200 megawatts-AC.
The utility industry is starting to think about these disruptive changes. As a recent report from the Edison Electric Institute concluded, "Disruptive forces, if not actively addressed, threaten the viability of old-line exposed industries.
<more>
July 18, 2013
Rooftop solar power and energy-efficiency programs will eat into utility revenue and profit margins and discourage investment in new transmission projects within five years, a Fitch Ratings analyst said.
Utilities in stagnant or low-growth markets in the Midwest and Northeast face the biggest losses as more businesses and homeowners install their own generation systems and upgrade to more efficient appliances, said Glen Grabelsky, Fitchs managing director of utilities, power & gas. Retirees flocking to southern states may offset some losses for local utilities.
Utility revenue is increasingly threatened by technology thats reducing demand for electricity from the grid, including solar panels, smart meters and software that shuts down operations when power prices spike. As some customers bills fall, state regulators will let utilities shift some of their fixed costs to other customers who dont use solar panels, Grabelsky said today from New York.
You can only burden the other customers to a certain degree, Grabelsky said today in an interview. For now its fairly negligible but in five years it will become noticeable. Each year the disparity will grow.
<more>
Solar to Reduce Utility Profits in Five Years, Fitch Says
http://www.bloomberg.com/news/2013-07-18/solar-to-reduce-utility-profits-in-five-years-fitch-says.htmlRooftop solar power and energy-efficiency programs will eat into utility revenue and profit margins and discourage investment in new transmission projects within five years, a Fitch Ratings analyst said.
Utilities in stagnant or low-growth markets in the Midwest and Northeast face the biggest losses as more businesses and homeowners install their own generation systems and upgrade to more efficient appliances, said Glen Grabelsky, Fitchs managing director of utilities, power & gas. Retirees flocking to southern states may offset some losses for local utilities.
Utility revenue is increasingly threatened by technology thats reducing demand for electricity from the grid, including solar panels, smart meters and software that shuts down operations when power prices spike. As some customers bills fall, state regulators will let utilities shift some of their fixed costs to other customers who dont use solar panels, Grabelsky said today from New York.
You can only burden the other customers to a certain degree, Grabelsky said today in an interview. For now its fairly negligible but in five years it will become noticeable. Each year the disparity will grow.
<more>
July 12, 2013
Carl Langners July 7 letter on wind power and Senate Bill 252 (Rural energy standard is unachievable) contains a number of errors.
Wind energy reduces electricity prices by displacing output from the most expensive and least efficient power plants. According to the Colorado Public Utilities Commission, a single wind energy purchase in the state will save ratepayers $100 million and allow them to lock in a price for 25 years.
In 2012, wind energy provided more than 20 percent of the electricity in Iowa and South Dakota, and more than 10 percent in seven other states, while European countries are even higher. Langners claim that wind energy cannot provide more than 8 percent of the electricity on the power system is therefore demonstrably untrue.
Changes in wind energy output occur slowly and predictably. As a result, utility system operators can reliably accommodate large amounts of energy with only minimal increases in the use of the reserves they have always used to accommodate changes in electricity supply and demand.
<more>
Letter: Facts point to success of higher wind energy standards
http://www.coloradoan.com/article/20130711/OPINION03/307110033/Letter-Facts-point-success-higher-wind-energy-standardsCarl Langners July 7 letter on wind power and Senate Bill 252 (Rural energy standard is unachievable) contains a number of errors.
Wind energy reduces electricity prices by displacing output from the most expensive and least efficient power plants. According to the Colorado Public Utilities Commission, a single wind energy purchase in the state will save ratepayers $100 million and allow them to lock in a price for 25 years.
In 2012, wind energy provided more than 20 percent of the electricity in Iowa and South Dakota, and more than 10 percent in seven other states, while European countries are even higher. Langners claim that wind energy cannot provide more than 8 percent of the electricity on the power system is therefore demonstrably untrue.
Changes in wind energy output occur slowly and predictably. As a result, utility system operators can reliably accommodate large amounts of energy with only minimal increases in the use of the reserves they have always used to accommodate changes in electricity supply and demand.
<more>
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