This is an excerpt from EERE Network News, a weekly electronic newsletter.

December 05, 2012

New Chevy, Fiat EVs Unveiled at the LA Auto Show

The Chevy Spark EV is in the spotlight at the Los Angeles Auto Show. Credit: GM

The Los Angeles International Auto Show is showcasing the debut of two high-profile electric vehicles (EV), the 2014 Chevrolet Spark EV and the 2013 FIAT 500e.

The Spark, introduced by General Motors on November 27, is a five-door urban mini car using a lithium-ion battery pack, and will be priced at under $25,000 with tax incentives. The electric motor delivers 130 horsepower, or more than 100 kilowatts (kW). Spark EV recharges in less than seven hours when using a dedicated 240-volt outlet, but the Spark EV is also offered with an optional SAE Combo DC Fast Charge capability, which can charge the battery to 80% of capacity in about 20 minutes. The EV builds on Chevrolet's experience producing the Volt. The car will initially be available in California, Oregon, Canada, and selected overseas markets. See the General Motors press release.

The FIAT 500e is equipped with a 111 horsepower (83 kW) electric-drive motor and relies on a lithium-ion battery. The 500e uses a blended braking system with a mix of regenerative brakes and standard hydraulic brakes, which allow the motor to generate electricity. The car can recharge in four hours with a Level 2 charger. See the Fiat Blog post.

The Los Angeles Auto Show runs through December 9 at the Los Angeles Convention Center. See the Los Angeles Auto Show website.

This is an excerpt from EERE Network News, a weekly electronic newsletter.

December 05, 2012

DOI Announces Renewable Energy Offshore Lease Sales

The Department of the Interior (DOI) and its Bureau of Ocean Energy Management (BOEM) on November 30 announced competitive lease sales for renewable energy development of two wind energy areas in the Atlantic Ocean. BOEM is proposing the lease of nearly 278,000 acres offshore of Massachusetts, Rhode Island, and Virginia.

The lease sales, which will be held next year, will be the first ever competitive sales on the Outer Continental Shelf for wind energy. They are major milestones in DOI's "Smart from the Start" wind energy program to facilitate the siting, leasing, and construction of new wind energy projects. These proposed leases cover areas considered to have high wind resource potential and are expected to be able to support more than 4,000 megawatts of wind generation, enough electricity to power an estimated 1.4 million homes.

The Proposed Sale Notices were published in the Federal Register on December 3, providing detailed information about the areas available for leasing as well as details such as award procedures. The 60-day public comment period for the notices ends on February 1, 2013. See the DOI press release, the Federal Register notice for Massachusetts and Rhode Island and the Federal Register notice for Virginia.

This is an excerpt from EERE Network News, a weekly electronic newsletter.

December 05, 2012

Energy Department Announces New Batteries and Energy Storage Hub

The Energy Department announced on November 30 that its Argonne National Laboratory in suburban Chicago was selected for an award of up to $120 million over five years to lead a multi-partner team to establish a new batteries and energy storage hub. The hub, to be known as the Joint Center for Energy Storage Research (JCESR), will combine research and development power of five Energy Department national laboratories, five universities, and four private firms in an effort aimed at achieving revolutionary advances in battery performance. Advancing next-generation battery and energy storage technologies for electric and hybrid cars and the electricity grid are a critical part of President Obama's strategy to reduce reliance on foreign oil and lower energy costs for U.S. consumers.

Other national labs partnering with Argonne include Lawrence Berkeley National Laboratory, Pacific Northwest National Laboratory, Sandia National Laboratories, and SLAC National Accelerator Laboratory. University partners include Northwestern University, University of Chicago, University of Illinois-Chicago, University of Illinois-Urbana Champaign, and University of Michigan. Four industrial partners have also joined, including Dow Chemical Company; Applied Materials, Inc.; Johnson Controls, Inc.; and Clean Energy Trust.

The State of Illinois is providing $5 million to help build the state-of-the-art JCESR facility located on the Argonne campus in suburban Chicago. JCESR is the fourth energy innovation hub established by the Energy Department since 2010. Other hubs are devoted to modeling and simulation of nuclear reactors, achieving major improvements in the energy efficiency of buildings, and developing fuels from sunlight. A fifth hub focused on critical materials research was announced earlier this year and is still in the application process. See the Energy Department press release.

This is an excerpt from EERE Network News, a weekly electronic newsletter.

December 05, 2012

ARPA-E Awards $130 Million for 66 Energy Technology Projects

The Energy Department on November 28 announced 66 research projects selected by its Advanced Research Projects Agency-Energy (ARPA-E) to receive a total of $130 million in funding through its "OPEN 2012" program. ARPA-E seeks out transformational technologies that show fundamental technical promise but are not ready for private-sector investment. The selected projects encompass 11 technology areas in 24 states.

The OPEN 2012 projects will focus on a wide array of technologies, including advanced fuels, vehicle design and materials, building efficiency, grid modernization, renewable power, and energy storage.

For example, for the growing market of wind turbine generators and electric vehicle motors, the Electron Energy Corporation in Landisville, Pennsylvania, will develop a technology to manufacture permanent magnets that cost less and are stronger than those available today. For another project, the University of North Dakota in Grand Forks, North Dakota, will develop an air-cooled device for power plants that offers low environmental impact and helps maintain water and power efficiency during electricity production.

The projects were selected through a merit-based process from thousands of concept papers and hundreds of applications. They are based in 24 states, with approximately 47% of the projects led by universities, 29% by small businesses, 15% by large businesses, 7.5% by national labs, and 1.5% by non-profits. The announcement brings ARPA-E's total portfolio of projects to about 285, for a total of approximately $770 million in awards. See the Energy Department press release.

GE Press Release:

GE Lighting Announces Call for Entries for Prestigious GE Edison Award Competition

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December 5, 2012

EAST CLEVELAND, Ohio — December 5, 2012 — (NYSE:GE) — GE Lighting announces a call for entries for its 30^th annual GE Edison Award competition, recognizing excellence and quality in professional lighting designs that employ the significant use of GE lighting products, including, but not limited to these GE Lighting Products: GE LED systems, LED luminaires, LED architectural products, LED lamps and modules, lighting controls, and non-LED lamps and luminaires (“GE Lighting Products”).

A Web-based entry submittal process has been developed to replace the former hard-copy process. Online entries must be received by 5:00 p.m. Eastern time on January 7, 2013. To submit a project, applicants should go to the GE Edison Award website for full details.

The competition is open to professional designers, architects, engineers and consultants for projects completed during the 2012 calendar year. Online entries are judged on the following criteria: functional excellence; architectural compatibility; effective use of state-of-the-art lighting products and techniques; appropriate color, form and texture revelation; energy efficiency and cost effectiveness.

Projects scoring the highest number of points will qualify to receive either Awards of Merit or Awards of Excellence. The GE Edison Award Winner is selected from among the Awards of Excellence.

In addition to these distinctions, an Award for Residential Lighting Design is presented to the project that best exemplifies excellence in lighting design within a residential application, using the same criteria as the other award categories. For this category, judges are looking for designs with innovative application(s) of light and the creative integration of lighting layers and controls.

The Award for Environmental Design gives special recognition to projects that minimize the use of energy, maximize the use of daylighting, control light pollution, and ensure system durability and maintainability.

All qualifying entrants will be invited to an awards ceremony, which will take place Monday, April 22, 2013, in Philadelphia, Pennsylvania, USA, on the evening prior to the opening of LightFair International, the world’s largest annual architectural and commercial lighting trade show and conference. At that time, all winners will be recognized with personalized plaques acknowledging their lighting design achievements.

The identity of the 2012 GE Edison Award Winner will remain confidential until announced at the awards ceremony. The winner will receive a personalized Steuben crystal trophy and continued publicity throughout the following year. A distinctive plaque also will be presented to the owner of the winning installation.

All lighting projects submitted for award consideration must have been completed between January 1, 2012 and December 31, 2012 and must employ significant use of GE Lighting Products.

For more information about the GE Edison Awards visit www.GEEdisonAward.com.

About GE Lighting

GE Lighting invents with the vigor of its founder Thomas Edison to develop energy-efficient solutions that change the way people light their world in commercial, industrial, municipal and residential settings. The business employs about 15,000 people in more than 100 countries, and sells products under the Reveal® and Energy Smart® consumer brands, and Evolve™, GTx™, Immersion™, Infusion™, Lumination® and Tetra® commercial brands, all trademarks of GE. General Electric (NYSE: GE) works on things that matter to build a world that works better. For more information, visit www.gelighting.com.

50 Years of LED Innovation

Oct. 9, 1962, GE scientist Dr. Nick Holonyak, Jr., invented the first practical visible-spectrum light-emitting diode (LED). In the 50 years since, GE has been on the forefront of LED innovation. The company has released inspired LED products for both residential and commercial settings, from the first ENERGY STAR®-qualified A19-shaped LED bulb to LED street lighting that illuminates cityscapes the world over.

NREL Press Release:

NREL Teams with Berkeley Lab to Analyze Solar Pricing Trends and Benchmark "Soft" Costs for PV Systems

Downward pricing for solar projected to continue; soft costs made up 40-50 percent of residential and commercial PV prices in 2010

Tuesday, December 04, 2012

The U.S. Department of Energy's (DOE)'s National Renewable Energy Laboratory (NREL) and Lawrence Berkeley National Laboratory (LBL) jointly released two reports examining solar photovoltaic (PV) pricing in the U.S.

The first report, Photovoltaic (PV) Pricing Trends: Historical, Recent, and Near-Term Projections, examines progress in PV price reductions to help DOE and other PV stakeholders manage the transition to a market-driven PV industry and to provide clarity surrounding the wide variety of potentially conflicting data available about PV system prices. By examining progress in PV price reductions, the report will also help DOE track progress toward the SunShot goals of reducing the installed cost of solar energy systems by roughly 75 percent between 2010 and 2020. The joint report indicates that PV system prices in the U.S. have been falling rapidly during the past decade, and are likely to continue their downward trend through 2012 and into 2013. 

 

"There is often confusion when interpreting estimates of PV system prices," NREL Solar Technology Financial Analyst David Feldman said. "This report helps to clarify this confusion by bringing together data from a number of different sources and clearly distinguishing among past, current and near-term projected estimates." 

 

The report indicates that while data sources, assumptions, and methods differ substantially between the bottom-up analysis and the reported price analysis, the results support the validity of both analyses and provide a consistent perspective on system pricing.

 

The report draws on several ongoing NREL research activities, including detailed component level benchmarking of recent PV system prices, based on NREL's detailed bottom-up engineering model of PV system costs, and NREL's ongoing tracking of near-term projections of system- and component-level pricing from various analysts and manufacturers. The report also summarizes findings on historical price trends from LBL's Tracking the Sun V report. 

 

The second report, Benchmarking Non-Hardware Balance of System (Soft) Costs for U.S. Photovoltaic Systems Using a Data-Driven Analysis from PV Installer Survey Results, presents results from the first DOE- sponsored data collection and analysis of non-hardware balance-of-system costs -- often referred to as "business process" or "soft" costs. The report concludes that in 2010, while total soft costs constituted roughly 40-50 percent of a typical PV system's price, the four categories of soft cost benchmarked in the report accounted for 23 percent of residential PV system prices, 17 percent of small commercial system prices, and 5 percent of large commercial system prices. The four categories studied were customer acquisition; permitting, inspection, and interconnection; installation labor; and labor associated with arranging third-party financing.

 

"These soft costs present significant opportunities for further cost reductions and labor-productivity gains," NREL Solar Technology Markets and Policy Analyst Kristen Ardani said. "Benchmarking and tracking these costs will help with the development of policies and practices aimed at reducing cost inefficiencies."

 

Both reports were produced as part of an ongoing collaborative research effort between the two labs focused on solar technology soft cost and system-level cost analysis and modeling. This research is supported by funding from the DOE's Office of Energy Efficiency and Renewable Energy.

 

Lawrence Berkeley National Laboratory addresses the world's most urgent scientific challenges by advancing sustainable energy, protecting human health, creating new materials, and revealing the origin and fate of the universe. The University of California manages Berkeley Lab for the U.S. Department of Energy's Office of Science. For more, visit http://www.lbl.gov.

 

NREL is the U.S. Department of Energy's primary national laboratory for renewable energy and energy efficiency research and development. NREL is operated for DOE by The Alliance for Sustainable Energy, LLC.

 

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Pacific Northwest National Laboratory News Release:

Sunshine, biofuel & the tides, oh my!

December 04, 2012 

• Frances White, PNNL, (509) 375-6904

PNNL discusses alternative energy options at AGU

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  At today’s American Geophysical Union meeting, PNNL’s Chuck Long will discuss how he and his colleagues are using total/diffuse pyranometers (instrument pictured on the table, to the right) to measure solar radiation and use that data to predict when solar power production will ramp up or down. Pictured here is Long’s colleague on the project, Laura Riihimaki.

SAN FRANCISCO – Scientists from the Department of Energy's Pacific Northwest National Laboratory will present a variety of alternative energy-related research at the 2012 American Geophysical Union Fall Meeting, which runs Monday, Dec. 3 through Friday, Dec. 7 at the Moscone Convention Center in San Francisco. Topics to be discussed include improving solar power forecasting, measuring the resources needed to grow algae for biofuel and predicting the environmental impacts of ocean energy. Summaries of some of PNNL's noteworthy presentations are below.

Forecasting clouds to improve solar power

The sun's fleeting nature has limited our ability to turn sunshine into electricity. While we can easily foretell when the sun will rise and fall each day, predicting the intermittent daytime shading created by continually morphing clouds is much more difficult. Repeated appearing and disappearing acts by clouds lead to large fluctuations in solar power generation, which makes balancing supply and demand on the power grid a challenge. But now PNNL scientists propose using a new approach to predict clouds from 5 minutes to about an hour ahead of time, giving grid operators a chance to adapt before solar power ramps up or down. Initially created for climate research, the approach uses an instrument called a total/diffuse pyranometer. Depending on their size, shape and thickness, clouds can affect light coming from the sun in many different ways to produce varying amounts of sunshine. Total/diffuse pyranometers enable scientists to measure direct and indirect solar radiation, both of which are used in different types of solar power generation. Next, the new approach uses a PNNL-developed method to forecast the clouds that will appear in the near future, what properties those clouds will have and how much direct and indirect solar radiation will make it past the clouds and onto the earth's surface. PNNL's Chuck Long will present the research.

A24E-04: "Near-term forecasting of solar total and direct irradiance for solar energy applications," 5-5:15 p.m., Tuesday, Dec. 4, Room 3008, Moscone West.

Digging for details on growing algae for biofuel

Algae have been touted as a promising source of renewable fuel, but questions remain about whether the U.S. has the resources needed to grow it on a large scale. Ongoing PNNL research indicates that algal biofuel's sustainability can be increased by carefully analyzing the resources available at specific growing sites. Current efforts are building on earlier PNNL research, which involved developing a detailed map of the nation's freshwater and land resources to calculate algal biofuel production potential. PNNL researchers are digging deeper by also examining alternative water sources such as seawater, the nutrients needed to grow algae, real estate prices and costs to transport algal oil to existing refineries. The combined information will help determine the financial and environmental bottom lines of U.S. algal biofuel. PNNL's Mark Wigmosta will present a poster that describes early results, including that the Gulf Coast region generally has the nation's best water supplies and climate for growing algae.

H53H-1632: "A high-resolution national microalgae biofuel production and resource assessment," 1:40-6 p.m., Friday, Dec. 7, Hall A-C, Moscone South.

Modeling tidal power's environmental effect

Extracting energy from the natural ebb and flow of the ocean's tides could help wean the world off of greenhouse gas-producing fossil fuels. But, with very few tidal power projects in existence, it's difficult to know how such efforts could affect the marine environment. To help answer that question, PNNL scientists developed a detailed, 3-D computer model of a hypothetical bay where seawater enters through a coastal channel. They added tidal turbines to the digitized channel and ran simulations to find out how water flow could be impacted. They found that installing large numbers of turbines can decrease the flushing rate­ — the amount of time it takes to replace the bay's water with new ocean water. The longer it takes to flush out a bay, the longer it takes to remove contaminants from river runoff and human activity. This could worsen the conditions of bays already experiencing low levels of dissolved oxygen. On the other hand, simulations also showed turbines increase mixing in the water column, which could breathe more life into a bay's lower waters by transporting more oxygen from the surface. PNNL's Taiping Wang will discuss the computer model and some of its simulation results.

OS53D-07: "A Modeling Study of In-stream Tidal Energy Extraction and Its Potential Environmental Impacts in a Tidal Channel and Bay System," 3:10-3:25 p.m., Friday, Dec. 7, Room 3024, Moscone West.

Tags: Energy, Environment, Biomass, Solar Power, Biofuel, Energy Production, Marine Research

Interdisciplinary teams at Pacific Northwest National Laboratory address many of America's most pressing issues in energy, the environment and national security through advances in basic and applied science.  PNNL employs 4,500 staff, has an annual budget of nearly $1 billion, and has been managed for the U.S. Department of Energy by Ohio-based Battelle since the laboratory's inception in 1965.  For more, visit the PNNL's News Center, or follow PNNL on Facebook, LinkedIn andTwitter.