Austin Energy Plans Its Smart Grid 2.0

After defining, architecting and being almost done building our Smart Grid, which will be live and covering 100% of our service territory by August 2009 (yes this year!). Our Smart Grid covers 440 square miles, 500,000 devices, 100 terabytes of data, 1 million consumers and 43,000 businesses, and we are moving very fast to our next phase of evolution.

Our current Smart Grid Program, which we call Smart Grid 1.0, is focused on the utility side of the grid. It is all about systems integration, communications, safety and reliability of electric operations, better and new services, and even better customer service. It goes from the central power plant through the transmission and distribution systems and all the way to the meter and back.

Our Smart Grid 2.0, which will be defined by recommendations of the Pecan Street Project, will be done with its planning by September and will commence deployment soon thereafter. It focus is all about the grid beyond the meter and into the premise (e.g. home, office, store, mall, building) with integration back to our utility grid. Our Smart Grid 2.0 is about managing and leveraging Distributed Generation (Solar PV, Micro Wind, etc), Storage, Plug-In Hybrid Vehicles, Electric Vehicles and Smart Appliances on the customer side of the meter.

The Pecan Street Project is a partnership between Austin Energy, the City of Austin, The University of Texas, The Greater Austin Chamber of Commerce, The Environmental Defense Fund, Dell, GE, IBM, Intel, Oracle, Cisco Systems, Microsoft, Freescale Semiconductor, Sematech, GridPoint, and several others.

Why Smart Grid 2.0? Why the Pecan Street Project?

The power sector, which is responsible for 40 percent of annual energy use in the United States, is the single largest consumer of energy nationwide. The transportation sector, which is responsible for 29 percent of annual energy use in the United States, is the second largest consumer of energy nationwide. These two sectors also depend heavily on depleting resources, are prone to supply or delivery disruptions, and are the leading sources of greenhouse gas emissions.

The vision of the Pecan Street Project is to solve the energy problem in Austin, Texas by reinventing the power sector via moving into new energy models, including interconnecting with the transportation sector.

We want to transform Austin Energy into the urban power system of the future while making the City of Austin and its local partners a local clean energy laboratory and hub for the world’s emerging cleantech sector. In doing so, we seek to prove that it is possible to remake the way we produce, use, store and trade energy in a way that is simultaneously consistent with our economical, environmental, social and security objectives. Implementing this vision will include the following types of innovations:

• Connected homes that incorporate smart end points such as meters, appliances, and local generation, integrated with smart markets and distributed smart grids to enable two-way electricity flow

• Smart home energy control systems/portals that provide citizens with more information, alternatives, and decision support

• Smart appliances and devices that can turn off during times of peak demand or high price, either driven by the energy services provider ’s policies or citizens preferences

• Smart markets that have a price built on supply and demand and therefore varies during the time of day and day of year

• Smart policies and government stimulus approaches that foster the innovation and implementation of these technologies and markets

• Green economy workforce members that can build, design, test, install, maintain, operate, and continually improve and invent sustainable capabilities

• Smart business plans that enable Austin Energy to lead on this reinvention of the energy system without compromising its sound financial footing

• Smart political leadership and popular will that shares the vision to make this project a reality

• Innovative laboratory environments supported by public, educational, private and Non-Government Organization partnerships

• Energy communities and networked information platforms that enable social network community development, markets and open society sustainable economic improvements

• Smart transportation systems that incorporate two-way distributed approaches to information flows, energy flows, and unified information and energy storage

• Smart working alternatives that provide more green options to citizens, from smart working centers with virtual life size video alternatives to alternative mass transportation to alternative routes to stay at home options.

• Connected and sustainable buildings for management of commercial and personal real estate, either by tenants, owners, and energy services providers

• We are hoping for 300MWs of alternative, distributed generation through distributed wind and solar

The Pecan Street Project will comprise three phases with several parallel efforts. Only the first two phases will be described here. The third phase is a potential new research consortium. The first phase will be complete by the end of August 2009, and will focus on developing an action plan for Austin Energy and identifying key barriers that must be overcome for success. These barriers will be organized into the following categories: technologies, workforce, markets and business models and policies. The technology section will be further organized into those that 1) are ready for implementation (for example motion sensors for hallway lights), 2) need to be tested and verified when integrated into the grid, and 3) need to be developed, as well as by generation, storage, efficiency, and low-tech options.

As technologies are verified over the first few years, they will be moved into implementation. As technologies are developed from research, they will be re-categorized as ready for testing and verification. Policies will also be organized into several additional categories that accelerate adoption with incentive approaches for citizens, energy services providers, the city, and private sector. Stimulus approaches from investments through bonds to taxes incentives to R&D partnership are just some of the methods to build out the desired impact of green economy and Information Communication and Technology (ICT) economy jobs. Some policies will be readily identified for implementation (for example, removing the ability for homeowner’s associations or others to prohibit the installation of solar panels), while others be identified, developed, and worked through the appropriate regulatory, policy, and citizen acceptance models. It is recognized to change behaviors toward the positive opportunities Pecan Street project strives for collaboration between city, state, and federal authorities is critical to ensure higher levels of citizen will power, satisfaction, and desire to contribute to a sustainable economy in Austin.

Just as it took a century to invent today’s energy system, the Pecan Street Project will require many years to reinvent it. Consequently, the cycle of technological innovation and implementation is expected to take place continuously. The inflection point of these two aspects will cause a disruption and accelerate the cycles from multiple decades to a decade or less.

Our better days are still ahead!

Smart Grid Stimulus Money Plans Announced

The Obama administration offered more details yesterday on how it plans to distribute $4.5 billion in grants to speed the development of smart grid technologies across the nation's electric power system, from transmission monitors to digital household electric meters.

The administration also announced a top-level meeting in early May with smart grid industry leaders intended to speed up the pace of developing technology standards that will enable smart grid devices and software to work together.

Vice President Joe Biden used a visit to Jefferson City, Mo., to update plans for the grants, authorized by the 2009 stimulus bill. The Energy Department said it is beginning a 20-day comment period on a draft process for issuing $3.375 billion in grants for smart grid technology installations by power companies. The grants, ranging from $500,000 to $20 million, must be matched by the recipients. The agency is also seeking comments on its plans to award grants of $100,000 to $5 million for grid monitoring devices.

Another $615 million in stimulus funds will go to smart grid demonstration projects focusing on regional programs, storage technologies and advance monitoring devices called phasor measurement units that give grid control room operators instantaneous data on power flows. Phasor controls could allow more power to move over the grid without overloading lines and equipment.

Commerce Secretary Gary Locke said he and Energy Secretary Steven Chu will chair a meeting with grid technology leaders in early May to seek agreements on smart grid standards.
"Industry leaders at the meeting will be expected to pledge to harmonize industry standards critical to developing the smart grid, commit to a timetable to reach standards agreement and abide by the standards devised," Biden's office said in a statement. This session will precede a previously scheduled May 19-20 meeting on smart grid technical standards.

Laying down rules for the energy revolution

The meetings represent the administration's attempt to accelerate a smart grid standards regime, called for in the 2007 Energy Independence and Security Act. The standards would cover equipment, software and communications protocols.

The Commerce Department's National Institute of Standards and Technology (NIST) has been under pressure from Congress to complete the standards. NIST Deputy Director Patrick Gallagher acknowledged last month that the process is so complex it has created "a bit of a jam" in setting priorities for the standards. "Right now, what is desperately needed is an overall road map," Gallagher said.

The Federal Energy Regulatory Commission and the National Association of Regulatory Utility Commissioners have collaborated on a set of criteria that they say DOE should use in funding smart grid demonstration projects. Grant applicants should show how their technology will support the reliability of grid operations while protecting the network from cyber-attack, the organizations said.

On the one hand, smart grid advocates are pushing for a common architecture of communications and software protocols to link the parts of the smart grid together. On the other hand, the more open the network is, the more potentially vulnerable it may be, experts say.
"A smart electricity grid will revolutionize the way we use energy, but we need standards in place to ensure that all this new technology is compatible and operating at the highest cybersecurity standards to protect the smart grid from hackers and natural disasters," Locke said.

Grant process moving forward

NIST says it expects to issue an initial set of standards and priorities in early fall, followed by testing and certification that it wants to complete by the end of the year.
Whether smart grid grants can move far in advance of the standard setting was not immediately clear. Yesterday's action "kicks off the process of taking in applications," said DOE spokesman Tom Reynolds.

Bracken Hendricks, a senior fellow with the Center for American Progress, said there need not be a holdup. "I don't think the NIST process will be a significant barrier at this point," he said. Pilot projects funded by the stimulus grants can help expedite standards development, he added.

http://arstechnica.com/tech-policy/news/2009/04/biden-launches-doe-stimulus-program-for-the-smart-grid.ars

NREL Ranks Austin Energy #1 in US Green Power Sales

Annual assessment shows more consumers making clean power choices

April 13, 2009 -- GOLDEN, CO. - The U.S. Department of Energy’s (DOE) National Renewable Energy Laboratory (NREL) today released its annual assessment of leading utility green power programs. Under these voluntary programs, consumers can choose to help support additional electricity production from renewable resources such as wind and solar.

According to the NREL analysis, more than 850 utilities across the United States now offer green power programs. Green power sales in 2008 increased by about 20 percent over 2007, and they represent more than 5 percent of total electricity sales for some of the most popular programs. Wind is the primary source of electricity generated for green energy programs nationwide.

“Despite the economic downturn, utility green power sales continued to expand nationally last year,” said NREL senior energy analyst Lori Bird. “These utilities are the national leaders.”
Using information provided by utilities, NREL developed “Top 10” rankings of utility programs for 2008 in the following categories: total sales of renewable energy to program participants, total number of customer participants, the percentage of customer participation, green power sales as a percentage of total utility retail electricity sales, and the lowest price premium charged for a green power program using new renewable resources.

Ranked by renewable energy sales (kWh/year), the green power program of Austin Energy (Texas) is first in the nation. Rounding out the top five are Portland General Electric (Ore.), PacifiCorp (Oregon and five other states), Xcel Energy (Minnesota and seven other states), and the Sacramento Municipal Utility District (Calif.).

Ranked by the percentage of customer participation, the top utilities are City of Palo Alto Utilities (Calif.), Lenox Municipal Utilities (Iowa), Portland General Electric, Madison Gas and Electric Company (Wis.), and Silicon Valley Power (Calif.). (See attached tables for additional rankings).

Customer choice programs are proving to be a powerful stimulus for growth in renewable energy supply. “Participating in green power programs is one way that consumers can reduce their environmental footprint,” NREL analyst Claire Kreycik, who co-authored the report. In 2008, total utility green power sales exceeded 5 billion kilowatt-hours (kWh), about a 20% increase over 2007. More than 600,000 customers are participating in utility programs nationwide.

Utility green pricing programs are one segment of a larger green power marketing industry that counts Fortune 500 companies, government agencies and colleges and universities among its customers, and helps support about 5,000 MW of new renewable electricity
generation capacity.

NREL analysts attribute the success of many programs to persistent marketing and creative marketing strategies, including some utility partnerships with independent green power marketers. In addition, the rate premium that customers pay for green power continues to drop.

The Green Power study was performed by NREL's Strategic Energy Analysis and Applications Center (SEAAC), which integrates technical and economic analyses and leads NREL's efforts in applying clean energy technologies to both national and international markets.

NREL released its first annual Green Power study in 2000.

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.

Visit NREL online at http://www.nrel.gov/

Source: NREL

http://www.allamericanpatriots.com/nrel/48751100-nrel-highlights-utility-green-power-leaders

South Texas Project Selects PricewaterhouseCoopers for SAP-Enabled Business Transformation Project

Project Will Leverage PwC's Proprietary Nuclear Generation Template to Help Accelerate the Project and Enable Focus On Performance Improvement

NEW YORK and HOUSTON, April 9, 2009 (GLOBE NEWSWIRE) -- PricewaterhouseCoopers LLP (PwC) has been awarded the initial planning and design phase of a major SAP-enabled business transformation project by the STP Nuclear Operating Company. PwC Advisory professionals will assist STP to plan and blueprint the replacement of more than 60 mission-critical, enterprise-wide legacy applications with the SAP ECC 6.0 platform and applications while improving and sustaining business performance. The scope of work includes replacement of virtually all of STP's current business applications including Financials, Human Resource Management, Enterprise Asset Management (EAM) and Supply Chain Management (SCM), along with a number of specialized nuclear plant applications.

To help achieve this business and IT transformation, PwC will leverage their proprietary nuclear generation template and accelerators, based on over 11 years of experience implementing SAP in the nuclear industry. PwC's consulting professionals in the utilities industry have a proven track record of successful SAP implementations into nuclear plants and helping to accelerate the realization of performance improvement benefits at nuclear facilities across North America.

"Replacing the legacy systems of STP with a process-driven SAP-based solution will help STP achieve a transformation in business process and performance that will support the company and provide a scalable platform for planned future units,'' said David Etheridge, PricewaterhouseCoopers partner and U.S. Industry Leader - Utilities and Power Generation. "Our PwC consulting professionals are excited to team with STP and we look forward to working together to help plan and blueprint the transformation.''

The STP Nuclear Operating Company manages the South Texas Project nuclear power plant, a facility that has earned more honors than any other U.S. nuclear power plant. STP is a two-unit nuclear power plant that federal and industry officials have commended as a state-of-the-art and model facility. Its two reactors produce 2,500 megawatts of electricity, enough for more than one million homes and businesses in south central Texas.

"We selected PricewaterhouseCoopers to help us plan this important business transformation because they were uniquely qualified to deliver a team with experience in the nuclear power industry, equipped with a proven nuclear template for SAP and backed by PwC's depth in risk management, change management and IT implementation and design,'' said Mike Meier, STP Vice President, Shared Services. "We are confident that PwC will team with us to put quality and excellence at the forefront of this project.''

Terms of the contract were not disclosed.

About South Texas Project
STP supplies approximately 7.5 percent of the electricity used in Texas. The plant is managed by the STP Nuclear Operating Company and owned by Austin Energy, CPS Energy and NRG Texas. STP's twin reactors produce 2,700 megawatts of carbon-free energy, powering more than two million homes and businesses throughout Texas. To learn more about STP, visit http://www.stpnoc.com/.

About PricewaterhouseCoopers' Advisory Practice
PricewaterhouseCoopers' business advisory professionals provide clients with the confidence to succeed by helping them anticipate, create and manage change. Whether clients are proactively implementing change or reacting to an unplanned event, we leverage our network's resources, deep industry experience, and functional acumen across the areas of operations, finance, organizational strategy and structure, process improvement, human resources effectiveness, technology integration and implementation, risk mitigation and crisis management to help organizations effect sustainable change.

About PricewaterhouseCoopers
PricewaterhouseCoopers (http://us.lrd.yahoo.com/_ylt=AqQpXahcMYwV1xQuVPackh7xGZEB/SIG=10o0sir3q/**http%3A//www.pwc.com/) provides industry-focused assurance, tax and advisory services to build public trust and enhance value for its clients and their stakeholders. More than 154,000 people in 153 countries across our network share their thinking, experience and solutions to develop fresh perspectives and practical advice. "PricewaterhouseCoopers'' refers to PricewaterhouseCoopers LLP or as the context requires, the PricewaterhouseCoopers global network of other member firms of the network, each of which is a separate and independent legal entity.

http://finance.yahoo.com/news/South-Texas-Project-Selects-pz-14890604.html

Landis+Gyr Technology Enables Austin Energy's Full Service Smart Grid Coverage

Gridstream deployment within Austin Energy’s territory to be completed this year


ATLANTA, Georgia, USA – March 31, 2009 – Landis+Gyr, which began deploying a Gridstream™ two-way smart grid communications network at Austin Energy in 2008, announced it is on schedule to complete the 280,000 meter project by August 2009.

Landis+Gyr is providing support services for the deployment of advanced meters and a turn-key network hardware upgrade as part of its managed services agreement with Austin Energy. The company began deploying the Gridstream two-way RF mesh network as part of an expanded management contract with Austin Energy that was signed last year.

More than 165,000 two-way meters have been installed so far, and integration with the utility’s meter data management system is underway. Landis+Gyr and Austin Energy are testing access to interval usage and metering data, and will soon begin testing other advanced features, such as remote disconnect and load management.

Austin Energy’s deployment will enable the utility to leverage its network for smart grid and demand response applications, including in-home networking, and distributed generation and automation.

“As the deployment proceeds we continue to identify ways in which the Gridstream network will provide value for Austin Energy’s aggressive smart grid initiatives,” said Tracy Moore, Senior Vice President of Services at Landis+Gyr. “Austin Energy is one of the leaders in promoting conservation and alternative energy applications for its consumers. Its smart grid initiatives are supporting those efforts.”

Austin Energy is the ninth largest community-owned electric utility in the nation, serving nearly 400,000 electricity customers in and around Austin, Texas. The utility has used a Landis+Gyr fixed-network advanced metering solution for approximately a third of its customers since 2002.

The Landis+Gyr Gridstream solution combines industry-leading communication technologies for advanced metering, distribution automation and personal energy management with interoperable tools for monitoring and controlling energy delivery to help utilities and consumers manage energy better.

http://www.landisgyr.com/en/pub/media/press_releases.cfm?news_ID=2537

Jeff Han's Multi Touch User Interface Research

I just wanted to share the powerful break through that Jeff Han at his team at NYU has been working on for a long while. His first demo was in 2006. Since then his work has inspired Microsoft and many others to find the new user interface of the future.

You be the judge if Jeff Han's research is going to change the world or not.

Jeff Han's first demo at TED.

http://www.youtube.com/watch?v=PLhMVNdplJc

Microsoft announces Surface

http://www.youtube.com/watch?v=rKgU6ubBgJA

Microsoft Surface demo

http://www.youtube.com/watch?v=rP5y7yp06n0

iBar - Largest Multi Touch Screen
http://www.youtube.com/watch?v=iaKehq6qsdY