Posts tagged renewable energy
Bloom Energy Fuel Cells Added To 11 AT&T Sites
Jul 13th
AT&T to Power 11 California Sites with Bloom Energy Fuel Cells
AT&T and Bloom Energy Corporation have teamed up to add Bloom Boxes to eleven California-based AT&T locations. AT&T will become the first telecommunications company to power some of their operations with Bloom Boxes. The Bloom Boxes, which are based on a solid oxide fuel cell technology, will generate 62 million kilowatt-hours of clean power each year and reduce CO2 emissions by almost 50%.
DOE Offers Conditional $105 Million Loan Guarantee for Innovative Cellulosic Bio-Refinery in Iowa
U.S. Energy Secretary Steven Chu has made official a commitment for a $105 million conditional loan guarantee to help develop the country’s first-ever commercial-scale cellulosic ethanol plant. Known as “Project LIBERTY”, the program will produce up to 25 million gallons of ethanol per year and bring an approximate $14 million infusion of cash to local farmers.
Investment in Renewable Energy Surges Around The World
According to a report released UNEP, Bloomberg New Energy Finance, and Frankfurt School of Finance and Management, global green energy investment have jumped nearly a third to $211 billion. A lot of money has been spent on government-based research and development. Renewables in this sector are up over 120%, to well over $5 billion. China and other developing countries are now the biggest investors in large-scale renewables, while Germany has surged ahead on rooftop solar. In Kenya, geothermal energy is surging – even powering rose growers – and UNEP’s new headquarters building in Nairobi has one of the largest solar installations in Africa.
JD Power Smart Energy Consumer Behavior Research Series Details
Jul 12th
Peter Shaw, of J.D. Power, discusses the launch of the Smart Energy Consumer Behavior Research Series and what consumer behavior findings have been discovered in the utility sector.
Johnson Controls Acquires EnergyConnect
Jul 11th
Arizona Offers Aggressive Incentives for Renewable Energy Companies
The Arizona Commerce Authority will promote new incentives and business opportunities available to companies at Intersolar North America, the leading annual solar industry exhibition and conference in San Francisco, July 12-14. The state is home to more 100 significant solar energy businesses, including the world’s two largest solar companies, First Solar and Suntech.
Incentives for renewable energy companies in Arizona include:
- Up to 10% of capital investments as a refundable income tax credit,
- Arizona Competes deal closing fund,
- Income tax credits up to $9,000 for each quality new job,
- Up to $1.5 million in reimbursable grants to train employees,
- Up to 34% R&D tax credit, and
- Significant business tax reductions including lowering the state income tax from 6.97% to 4.9%.
- For more information on solar opportunities and incentives in Arizona visit www.azcommerce.com and www.azsolarstate.com.
DTE Energy and Mercy High School in Farmington Hills have announced the signing of a 20-year agreement that will provide the utility’s customers with solar power. The 400-kilowatt, $2.5 million photovoltaic system will be installed using 125,000 square feet of roof on the high school at 11 Mile and Middlebelt roads. The installation is part of DTE Energy’s $100 million pilot SolarCurrents program that calls for 15 MW of solar PV systems to be installed on customer rooftops or property over the next four years throughout Southeast Michigan. Mercy High School and other customers that participate will get an annual credit on their energy bills, as well as a one-time, upfront construction payment to cover any inconvenience during installation.
Johnson Controls has completed their acquisition of EnergyConnect Group, Inc., a leading provider of smart grid demand response services and technologies. The acquisition was completed on July, 1, 2011. Adding EnergyConnect to it’s platform enables Johnson Controls to help building owners and operators manage how much energy their buildings consume and when the energy is consumed – a critical feature of connecting smart buildings to the smart grid. EnergyConnect’s demand response technology and service platform provides energy managers and facility operators real-time energy information and access to energy markets, enabling them to manage their energy usage. EnergyConnect’s GridConnect technology platform provides a scalable, cost-effective, clean technology to enhance the grid’s efficiency and reliability.
Energy Storage: Applications and Developing Regulation
Jul 11th
The following article is the final part of a multi-part series.
B. Enacting Energy Storage Regulation
After investigating the operational characteristic of energy storage, regulators can begin the process of enacting energy storage regulation. Valuation and recovery mechanisms for traditional generation, transmission and distribution assets do not fully encompass the operational characteristics of energy storage systems. Therefore, regulators need to determine how to best define and treat energy storage. Specifically, regulators must decide on whether to integrate energy storage on an intended use (application) basis under current classification and recovery mechanisms or treat it as a separate asset class and enact recovery mechanisms based upon its own operational characteristics.
1. Enacting Federal Energy Storage Regulation:
In 2010, the Commission initiated a proceeding with the purpose of obtaining further comments from stakeholders on how to define and treat energy storage.[1] The Commission utilized the data it collected in previous proceedings and determined three jurisdictional applications for energy storage: 1) providing transmission support to unbundled transmission lines; 2) enhancing the value of generation (time-shifting generation from off-peak to peak time periods); and 3) providing ancillary services.[2] The Commission received comments in favor of both integrating energy storage under existing market and cost-of-service based recovery mechanisms, as well as defining and treating energy storage as its own unique asset class.
Generation and in some areas, ancillary service applications receive market compensation while transmission service applications receive compensation through transmission charges based on cost-of-service. Proponents for integration under the current system argue that energy storage should only grow as the technology matures and becomes a more efficient choice over traditional resources as measured by current standards. Proponents for the creation of a separate class argue that classifying energy storage in a separate class will more accurately compensate energy storage systems based on the operational efficiencies it provides when performing individual service applications. Furthermore, they argue that energy storage requires this treatment to encourage its growth in energy markets and transmission services.
The Federal Power Act requires the Commission to promote reliable and efficient transmission and generation of electricity by encouraging the deployment of technologies to increase the capacity and efficiency of existing transmission facilities.[3] Energy storage promotes both improved reliability and efficiency in the generation and transmission of electricity. Therefore, the Commission should enact regulation that further promotes the deployment of energy storage systems.
2. Enacting State Energy Storage Regulation:
Effective state energy storage policy must clearly prioritize energy storage based on its potential value in each state’s distribution markets. Public utility commissions should define energy storage as a separate asset class based upon its value in local distribution markets. As public utility commissions better understand the value of energy storage, they can begin establishing energy storage targets and procurement standards. Establishing procurement standards will increase utility investment in energy storage systems. Public utility commissions can promote further growth in energy storage by: 1) including energy storage standards and requirements in renewable portfolios and generation projects; 2) integrating energy storage in demand response, net metering, distributed generation and electric aggregation regulation; and 3) removing barriers for utilities to recover costs on eligible energy storage systems through retail electric rates.
a) Promoting Energy Storage through Renewable Portfolios and Generation Projects
Energy storage adds value to renewable generation projects and mitigates the added stress it places on transmission and distribution systems. Incorporating energy storage policy within policy on renewable energy embraces the complementary relationship of energy storage to renewable generation. Including policy on energy storage within renewable portfolio standards and renewable generation regulation will promote investment in both renewable energy and storage systems.
Public utility commissions should streamline applicable generation and transmission siting regulations for energy storage facilities. Energy storage facilities have lower costs and fewer adverse environmental impacts than traditional generation and transmission resources. Therefore, public utility commissions should not apply the same regulatory oversight and review towards energy storage facilities as used for traditional generation or transmission resources. Streamlining siting regulation will reduce regulatory delay and increase speed in deployment for storage systems.
b) Promoting Storage Growth through Inclusion in Demand Response, Net Metering, Distributed Generation
and Aggregation Regulation
Incorporating energy storage in demand response, net metering, distributed generation and aggregation regulation will promote increased use of consumer based energy storage systems. The versatility of energy storage systems allows some consumer based systems to provide some distribution support applications. Therefore, state public utility commissions should distinguish energy storage from other resources in these categories and value it based upon its operational characteristics for both consumer and distribution support applications. Furthermore, including energy storage into these categories will better prepare both public utility commissions and utilities for potential regulatory issues as automobile batteries develop into viable storage options.
Public utilities should also remove barriers preventing the aggregation of end-user storage by third parties for the use of distribution system support. Removing potential barriers will allow energy storage providers and aggregators to experiment with possible business models that would increase deployment of consumer based systems by increasing the value of a consumer’s storage system. Increased aggregation of consumer storage for distribution support services will improve distribution system reliability and efficiency.
c) Promoting Storage Growth through Retail Rate Recovery
Removing restrictions on utilities from owning and recovering costs of energy storage systems will promote utility investment in energy storage. Public utility commissions should utilize federal proceedings as guidance on developing appropriate standards of accounting for storage systems. Increased deployment of energy storage systems throughout the distribution system will improve reliability, reduce the size of unexpected blackouts and lower distribution costs. Distributed storage will also allow utilities to better adapt to the increasing consumer utilization of intermittent renewable resources (i.e., solar panels and wind turbines). Public utility commissions may also create further incentives for utility investment by allowing accelerated deprecation of energy storage equipment in retail electric rates.
[1] Rate, Accounting, and Financial Reporting for New Electric Storage Technologies, Docket No. AD10-13.
[2] The commission also sought comments on the potential for contract storage service.
[3] 16 U.S.C. § 824s.
Written by Robert Clifford. Robert is a Boston-based attorney who represents clients before the Federal Energy Regulatory Commission and state public utility commissions.
Pepco Promoting Energy Efficiency With Smart Solutions
Jul 4th
Joe Rigby, Chairman and CEO of Pepco Holdings Inc., discusses the importance of having the right strategies in place to educate customers about the importance of smart energy use.
Why Japan Will Turn to Solar Energy Following Fukushima
Jun 30th
As the dire news continues to leach out of Fukushima, the silver lining in its nuclear cloud is that renewable energy technologies, despite their daunting start-up costs, are receiving renewed scrutiny.
Make no mistake – given the trillions of dollars invested over the last five decades in nuclear energy, the industry and its lobbyists will not go down without a fight, promoting new, “safe” reactor designs, etc. etc. etc.
But the Fukushima debacle has finally bared the industry’s darkest secret, it inability to manage its nuclear waste. The six reactor TEPCO Daichi Fukushima stored all its waste onsite, and the spent fuel rods and their lack of cooling have been a major contributor to the high radiation levels observed around the facility. Worse for nuclear power proponents has been the reluctant admission by TECPO that three of the complex’s six reactors apparently did in fact suffer a meltdown.
So, what’s next?
Hydroelectric facilities are a proven technology, but expensive and take years to construct.
Wind power also has substantial start-up costs, is erratic, and faces environmental opposition.
With the notable exception of bio-ethanol, little real money has gone into biofuel renewable, particularly in the U.S., where bio-ethanol produced from corn has a hammerlock on both subsidies and crop insurance, despite rising concerns about shifting land from food to energy production is driving up costs of foodstuffs. The leading contenders for bio-renewables, camelina, algae and jatropha, all are starved for investment as a result.
Which leaves solar energy, whose major drawback up to now has been its high cost to generate kilowatts.
That however is changing, as research finds ways to lower costs.
DuPont’s colorless polyimide film, a revolutionary new material currently in development for use as a flexible superstrate for cadmium telluride (CdTe) thin film photovoltaic modules, has established a new world record for solar cell conversion efficiency reaching 13.8 percent using the new Kapton colorless film, leapfrogging their previous world record of 12.6 percent and nearing that of glass. Robert G. Schmidt, new business development manager, Photovoltaics – DuPont Circuit & Packaging Materials commented, “Rather than transporting heavy, fragile glass modules on large trucks and lifting them by crane onto rooftop PV installations, one could imagine lightweight, flexible film-based modules that could simply be rolled up for transport, and easily carried up stairs.”
On the other side of the world, according to Huang Xinming, head of a research institute at JA Solar, a large Chinese solar power company, JA Solar has just developed a new technology that could cut the cost of producing silicon, an important material in manufacturing solar panels, by 60 percent.
Cutting raw material costs, raising efficiency and reducing weight and transportation costs – t’would seem the future is lighting up, no pun intended.
And once again, China is apparently out-thinking its Wall Street competition, obsessed with maximizing profits and quarterly balance sheets. In any industrial process, increased production in turn lowers production costs. Rather than wait for entrepreneurs to line up in Beijing, China is apparently moving to make solar energy a component of its foreign policy in Africa as it moves to secure access to the Dark Continent’s mineral riches.
According to Sun Guangbin, the secretary-general of photovoltaic products at the China Chamber of Commerce for Import & Export of Machinery and Electronic Products, speaking in a recent interview, China intends to build solar power projects in 40 African nations in a boot-strap effort that will both reduce the continent’s reliance on fossil fuels and open a new market for Chinese manufacturers, the biggest producers of solar panels. Sun noted, “China needs new emerging markets to consume their solar products besides Europe, and Africa could be one of them. We’ll begin investigating this month in Africa to determine a suitable project in each country, such as installing solar panels on the rooftops of schools and hospitals.”
Compare this with today’s pronouncement from London that the Conservative government of David Cameron intends “Drastic cuts for large-scale solar power subsidies,” according to a headline in the Guardian.
London and Washington are both still wedded to Big Oil and nuclear power. But if the 21st century is going to be about the struggle by Western economies to have access to Third World raw materials, it would seem that Africans, their schools, hospitals and homes lighted by solar panels, may well look eastwards.
Written by. Dr. John C.K. Daly for OilPrice.com. For more information on oil prices and other commodity related topics please visit www.oilprice.com
Butte College Goes ‘Grid Positive’
Jun 30th
Butte College Goes ‘Grid Positive’
California-based Butte College has become the first U.S. college go ‘grid positive,’. Each year, the college is able to generate more electricity, over 6.5 million kilowatt hours, than it consumes from 25,000 solar panels that are spread out over the 928-acre property. It is estimated that the college will achieve between $50 million and $75 million in savings over 15 years.
Department of Energy Secretary Steven Chu has announced conditional loan guarantee commitments totaling approximately $4.5 billion for the development of three solar generation facilities. The Antelope Valley Solar Ranch project, the Desert Sunlight project and the Topaz Solar project are all focusing on building alternating current Cadmium Telluride (Cd-Te) thin film photovoltaic (PV) solar generation facilities. When completed the projects, which will all be located in California, will generate approximately 1.33 GW of clean electricity. This announcement raises the total number of DOE supported projects to 40 at a projected loan guarantee total of over $38 billion.
A study by APCO Insight has found that the Fukushima nuclear disaster has had a minimal impact on the amount of support for nuclear power in the US. A June survey of private and public sector public policy elites shows that 69% of energy policy makers and influentials still feel that nuclear power should be a somewhat or very high priority for fulfilling future energy demand. 65% of those surveyed gave a favorable impression of nuclear energy’s ability to balance environmental and energy needs. This is a 5% drop from the time the initial survey was taken which was in November 2010.
GridPoint Announces Release of The GridPoint Energy Manager Platform
Jun 28th
GridPoint Announces Release of The GridPoint Energy Manager Platform
GridPoint, Inc. has announced the release of a new enterprise utility energy management platform. Called the GridPoint Energy Manager, the software-based solution helps its users manage the deployment and operation of energy endpoints, such as building management systems, solar arrays, electric vehicle and home energy management technologies. Customers can achieve a savings of up to 20% on their and energy operational expenses by being able to manage multiple locations through one user-interface, establish energy management control measures at their locations. The company already has more than 7,000 existing sites using the new software and its customers are realizing an 18-24 month payback on the cost of the new solution.
DOE funds $7.5M in Research for better Wind Turbine Drivetrains
The Department of Energy has announced that California, Colorado, Florida, and New York – have been awarded a total of almost $7.5 million over two years to research and design new drivetrains for wind turbines. Advanced Magnet Lab, Boulder wind Power, Clipper Windpower, Dehlsen Associates, LLC, GE Global Research, and the National Renewable Energy Lab were the organizations that received funding for this initiative. Drivetrains, which include a turbine’s gearbox and generator, are at the turbine’s core and are responsible for generating electricity from the rotation of the blades. The goal of this initiative is to accelerate the development and rollout of advanced turbines for offshore wind power in the U.S.
Weston, Florida installing LED’s to save more than $250K each year in lighting related costs
The city of Weston, Florida, has announced that they will be installing 1,200 LED street lights as part of a project to lower energy costs. The project will save the city up to $160,000 in energy costs and $100,000 in maintenance costs each year because the LED’s are 60% more efficient than the bulbs that the city is replacing them with.
Spain To Add 50MW Solar Thermal Power Plant To Its Grid
Jun 27th
MAGE SOLAR USA Receives UL Certification
MAGE SOLAR USA has announced that they have successfully received their UL certification. With this approval, the solar manufacturer will now be able to ramp-up production of solar panels at their American headquarters in Dublin, Georgia. The company’s signature MAGE POWERTEC PLUS modules are polycrystalline modules with power ratings of 190 watts and 230 watts. The first UL-listed modules are currently being made for delivery to fulfill orders of customers that had already preordered the US-based supply.
Spain To Add 50MW Solar Thermal Power Plant To Its Grid
Termosolar Alcazar, has announced that the Spanish government has awarded the company a 50 megawatt (MW) solar thermal plant contract in Alcazar de San Juan. The company’s technology, which consists of a fully dispatchable molten salt concentrated solar power tower technology, will help Spain achieve the EU Climate & Energy objective of achieving 20 percent of the nation’s energy consumption from renewable resources. The project will also create approximately 4,000 jobs in Spain and more than 2,500 jobs in the United States during the two year build-out.
Details About New DOE Loan Guarantees
There are 2 new loan guarantees that the DOE has recently announced. The first is a $135.76 million loan guarantee to Granite Reliable Power, LLC for a new 99 MW wind generation project in Coos County, New Hampshire. This is the second U.S. wind project to deploy Vestas V90 3.oMW wind turbines. Most of the power generated from this project will be purchased by the Central Vermont Public Service and Green Mountain Power. The DOE will also provide a partial guarantee for a $1.4 billion loan to support Project Amp. The solar generation project includes the installation of approximately 733 megawatts (MW) of photovoltaic (PV) solar panels, which is nearly equal to the total amount of PV installed in the U.S. in 2010 is unique in that the electricity generated from this project will be sent directly to the electrical grid, as opposed to powering the buildings where they are installed.
New York Wind: Much Ado for So Little!
Jun 10th
Wind generation, is a variable power source and, as such, will add to the total variability of a regional grid system. A number of studies have been completed that analyze wind profiles by region with the intent of better understanding how high penetrations of wind energy might impact system reliability and what steps could be taken to minimize the impacts. In most cases, these studies are based on available wind data (speed, direction, timing) collected over many years; the same type of data used by developers when forecasting project performance prior to construction. These wind studies are also used by legislators and regulators when evaluating policies that mandate renewable energy development. But what we’ve found is that performance models based on wind data often promise levels of generation substantially above actual wind power output.
UK Wind: Overstated
The United Kingdom has long been regarded as having the best wind resource in Europe. A 2005 analysis of hourly wind speeds collected from sixty-six UK locations identified three characteristics of the wind resource that proponents rely on to justify an expansive build-out of wind energy facilities.
The study concluded that between 1970 to 2005, a total of 35 years, there was never a time when the entire country was without wind and the resource tended to blow more strongly when demand was highest: during the day and winter months.
The analysis found that wind would operate at an annual average capacity factor of 27%; low wind speeds affecting most of the country would be rare, occurring for one hour every five years.
But last month, the 2005 study was put to test. The United Kingdom’s leading wild land conservation charity, the John Muir Trust, released a report examining wind power’s actual contribution to the UK’s energy supply. The findings, based on real-time energy production, were sobering. Wind generated at substantially below the 27% capacity factor, and low wind events- where output fell below 10% of capacity- occurred over one third of the time, or almost nine months in aggregate.
The report created a firestorm for those tracking wind development. Legislators and energy policy experts immediately questioned whether the same reality existed in their area. Since preconstruction forecasts for wind power performance are based on wind speed data, what if the modeling overstated actual generation?
New York Wind: Overestimates Too
In fact, we need only look to New York State to see an identical story line. In 2005, the New York State Energy Research And Development Authority (NYSERDA) and General Electric assessed the impact of large-scale wind generation on the reliability of the State’s bulk power system to understand the operational and economic effects of deploying 3,300 megawatts of wind (10% of New York’s peak load).
The study concluded that New York could support a 10% penetration of wind into its grid system with turbines reliably operating at 30% average capacity factor or better.
With several years of wind generation data now available, we took a look at how well NYSERDA and GE predicted output levels. We were particularly interested in the project performance after developers had a year or more to address start-up issues.
By the end of 2010, New York State claimed fifteen wind energy facilities totaling an installed capacity of 1,275 megawatts. The projects are geographically distributed in the northern and western regions of the State but typically away from denser population centers including New York City with the highest demand for electricity.
Twelve of the fifteen projects comprise the bulk of the nameplate capacity (1,225 megawatts).1 These facilities went into service in the years between 2006 and February 2009. Since early 2009, wind development in the State has been largely stagnant with only one wind project built in the last two years.2 The lull in construction has provided a valuable opportunity to evaluate two full years of wind generation and to assess whether the promises of New York wind have been realized.
The below table, prepared using the New York ISO’s Gold Book data, provides an important glimpse at wind performance in New York in the years 2008-2010.
Promises Meet Reality
It can be seen that no wind project in New York achieved a 30% capacity factor and most are operating at well below this figure including Maple Ridge 1 and 2 touted by wind proponents as a premier wind site. Maple Ridge was forecasted to have a capacity factor of 34% prior to construction but has consistently operated around 25% — a significant performance reduction.
Noble Environmental’s projects produced at even lower levels. When the company sought community acceptance of its projects in upstate New York, John Quirke, an officer and founder of Noble, insisted their projects would operate at 30-35% of their nameplate capacity. In the tax agreement signed with Clinton County, New York, Noble went so far as to sweeten the deal by offering to pay a bonus of $1000/MW every time the annual capacity factor of any of their projects exceeded 35%. Clinton County officials had no way to verify the sincerity of Noble’s offer since preconstruction wind data was confidential, but Noble certainly knew the truth. Noble’s upstate projects operated with a 20% to 22% capacity factor in 2010.
Wind Forecasts and Project Financing
When determining whether a wind energy project is worth the financial risk, a credit analysis is prepared based on conservative wind production. This production amount, known as the ‘annual energy yield prediction’, represents the average wind speed forecast for a project with a 90% confidence (P90). In other words, the wind production level that the project is expected to operate at 90% of the time.
The P90 figure needs to be within 12% to 15% of the average production figures in order to catch a bank’s attention. If the difference between the average capacity factor (P50) and P90 is off by 20% or better, a project would be considered ‘unfinanceable’. We can’t know the P90 figures presented to investors for most of New York’s wind projects, but our guess is that most of these projects would have been considered unworthy had actual production numbers been available. We’d be interested in knowing whether those who fronted the money for the projects would bother again.
Meeting Public Goals
NY ratepayers who are subsidizing wind development in the State are also receiving considerably less than promised. Square miles of New York’s most rural areas have been transformed into industrial power plants, communities and families are split over project opposition, and homeowners have been driven from their homes due to turbine noise, shadow flicker and other nuisances. If tax revenue agreements with communities are negotiated based on inflated capacity factors, actual payments will be lower.
State and local officials have long encouraged wind as an economic development tool for rural areas, but at some point the public needs to know whether the projects are delivering on the primary plan i.e. to see more renewable energy on the grid. At capacity factors in the low- to mid- 20% range, many more wind turbines and related infrastructure (transmission) will be needed to meet State mandates and this will increase costs and impacts.
Our review only looked at average annual capacity factors and did not consider the hourly and daily variability of the resource and whether the wind helped meet peak demand needs. But looking at average performance alone is enough to suggest New York’s wind is not worth all the fuss.
[1] Less than 50 megawatts of wind was installed prior to 2006.
[2] Iberdrola’s 74-megawatt Hardscrabble project went online in February 2011.
Written by Lisa Linowes, Industrial Wind Action Group
Loading ...
Recent Comments