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DOE Distrib Power Review & IEEE Interconnection Working Group

** DOE Distributed Power Program Review and Planning Meeting
** IEEE SCC21 P1547 Interconnection Working Group
Arlington, VA, September 27-30, 1999

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** DOE Distributed Power (DP) Program Review and Planning Meeting

— Welcome and Introduction
— Dan Adamson, Deputy Assistant Secretary, Office of Power Technologies
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— Distributed Power in DOE’s Office of Energy Efficiency and Renewable Energy
— Dan Reicher, Assistant Secretary, EE

DP covers a wide gamut of topics, from village power and rural electrification to industrial power parks, partially self-powered office towers (incl. PV), combined heat and power (CHP) and all varieties of renewable energy. There are three “elements of success” that must be met — technologies, markets, and policies. A number of DOE programs involve DP, and there are several cross-cutting initiatives: CHP, Million Solar Roofs, Buildings for the 21st Century, Bioenergy, and Distributed Power (i.e. to address interconnection issues). A DP website is under construction.

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— An Industry Perspective — Beverly Jones, Consolidated Natural Gas

Broad trends are setting the stage for DP: industry restructuring, gas/electric convergence, and the role of information technology in energy. All of these are changing the buyer seller relationship dramatically, as the distinct “one-point” of contact is replaced by myriad complex and overlapping interactions. As the slow process of policy change proceeds, the action is mostly at the state level, where there are many opportunities to bring up DR issues arise. States are competing for jobs, and see energy prices/markets as a key determinant. There is less urgency at the federal level, and the lack of standardization is a big problem. One area that’s particularly important–tax policy, especially depreciation rates for DR investments, which should be faster than for traditional generation and distribution facilities.

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— Creating Value Streams for Distributed Resources — Dave Hoffman, Celerity Energy

Barriers to DP growth include 100 years with a regulated monopoly system, with it’s concerns about reliability, and the credibility, reliability and costs of DR. Market pressures and technology are driving change. Celerity’s business is acquiring options on peaking capacity from existing gensets, which will be linked via networks and bid into th e power market.

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— Program Overview — Joe Galdo, DOE Program Manager

A workshop Dec 98 made recommendations for DOE program actions for DP:
-Interconnection (standards, documentation of the problem,
system integration modeling, and equipment certification)
– Outreach to state regulators
– Quantify benefits
– Model (building) codes and ordinances

The program is organized around three main topics:
– Strategic Research (concepts for advanced system control, etc.)
– Systems Integration (address safety, reliability, etc issues.
Analysis, modeling, hardware testing, interface hardware
and software)
– Regulatory and Institutional Barriers

FY99 Program — $1.2 Million funding — planning, support IEEE standards working group, document interconnection barriers, outreach to stat es.

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— Documenting Barriers to Distributed Power — Brent Alderfer, Competitive Utility Strategies

[DP is not new. DOE commissioned a major study to examine what is currently being done.]

A report is due in the next 2 months, detailing 70 case studies of current interconnection experience and practices. Sizes ranged from 300 watt PV to 100 MW combined cycle.

DP “barriers” are seen differently by utilities–who are concerned with safety, reliability, risk, liabilities, and who don’t want “gadgets and gizmos” on the grid. Some utilities simply refuse any (non-QF) connection.

Standby tariffs range widely ($1 to $250/kw/yr). These are arbitrary now, often set to discourage DP. In the future, however, real markets may probably show as wide a range, but for entirely different reasons.

Uplift tariffs are usually based on entire radial system, even if transaction only uses a portion.

Restructuring by states generally has no impact on barriers. Some utilities have embraced DP (O&R 10 years experience using reciprocating gensets owned by 3rd parties to defer substation additions) Southern Co, while opposing FERC restructuring of G&T markets, is actively hooking up cogenerators.

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— Interconnection Standard Development — Richard DeBlasio, NREL

[brief overview of SCC21 working group progress]

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— Technical Assistance to States and Localities — Gary Nakarado, NREL

Assumed (interconnection) goals are uniform technical requirements, minimized cost, standardized contracts, and costs commensurate with DP system size. PV has paved part of the way. Standards alone won’t assure adoption of DP. For example, net metering laws can limit utility’s ability to resist.

[DOE “State Energy Alternatives” — this website gives specific information on the potential of selected renewable energy resources in each state as well as background information on each state’s electricity sector
http://www.eren.doe.gov/state_energy/ ]

[The Regulatory Assistance Project (RAP) provides assistance to state regulators.
http://www.rapmaine.org/ ]

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— Environmental and Economic Impact Assessment — Howard Gruenspecht, DOE Office of Policy

The administration’s restructuring proposal addresses DP issues.
(See: http://www.doe.gov/policy/ceca.htm)

A pdf document (the 3rd one listed on the webpage) is an explanatory memo for the proposed legislation, and discusses DP issues in several aspects:
http://www.doe.gov/policy/elecrol.pdf

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from CECA Supporting Analysis, Chapter 3, page 34

Distributed Power

“The revised Administration proposal includes a package of provisions designed to promote the adoption of efficient combined heat and power and distributed generation technologies. It proposes the development of nationally applicable interconnection standards, clarification of depreciation treatment to assure that distributed generation installations are not subject to unfavorable schedules for the depreciation of structural components, and State-level consideration of stranded cost recovery mechanisms that do not impede cost-effective and energy-efficient combined heat and power projects. It also promises continued efforts by the EPA and the DOE to explore and implement regulatory approaches that recognize the environmental benefits of combined heat and power technologies.”
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Secretary Richardson held a “Midwest Electricity Summit” in Chicago on October 8, with several dozen invited stakeholders (utilities, regulators, local government, etc.) to discuss industry issues. Anyone is welcome in the audience. His prepared remarks are posted at: http://www.doe.gov/news/speeches99/octss/midwest.htm

Another is to be held somewhere in the Northeast in a couple of weeks — details tbd.

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— Where Are We Going? A framework for planning White Paper on Interconnection and Controls for Large-Scale Integration of Distributed Energy Resources — Phil Overholt, DOE Program Manager, Transmission Reliability; Joe Eto, LBNL

This was a presentation of the 2nd of the 6 draft white papers.

See: 20 Sep99 UFTO Note-CERTS Draft White Papers
01 Mar99 UFTO Note-CERTS-New DOE Prog in Elec. Reliability

(There’s still time to provide comments on any of the 6 papers.
See 20 Sept note for details.)

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— How Do We Get There? — Five-Year Planning (Breakout Sessions)

– Interconnection Standards, Certification and Testing
– Interconnect Hardware and Software
– Addressing Regulatory and Institutional Barriers
– Planning Analysis and Tools

These were facilitated sessions to develop recommendations for near and longer term destinations, R&D requirements, recommended program activities and resources. A summary is being prepared by DOE and should be available in 6-8 weeks.

UPDATE: It looks DOE’s DP program will have a budget of about
$4 million in FY2000.

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IEEE SCC21 P1547 Interconnection Working Group
Sept 28-30

Topical Presentations:

The first morning of the 3 day meeting was a series of presentations to further the mutual understanding of technical issues.

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— VAR Control from a DR Perspective (T.-E. Moen, ABB)
A detailed technical discussion of voltage source inverters (VSI) and how they can be an economic option for supplying VAR’s into a network.

— Distributed Resources in Downtown Networks (N. Ioannou, BGE) Downtown grid networks, covering perhaps 5% of the total US system, are very different from standard radial networks. There are two types which are very different from each other: grid (or secondary) and spot (or isolated). DP can be connected to either, though it can’t push power into a spot network.

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— EEI Interconnection Study Update (M. Davis)
Progress is continuin g. Outlined a 7 step process to determine interconnection requirements, beginning with identifying the type of generator, i.e., induction (externally or self-excited), synchronous (cylindrical or salient pole) or inverter (line or self commutated) and then on to defining characteristics of the distribution system, etc. A great deal of material has been added to the Working Group’s “Resource Document”, a 2 inch thick compendium of information that backs up the standards development.

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— Shifting the Balance of Power: Grid Interconnection of Distributed
Generation (Brendan Kirby, ORNL and Nick Lenssen,E SOURCE)

Examines the various issues that hinder DP deployment, mostly coming down to utility resistance, lack of uniform requirements and processes (which are based on large units, and are too extensive for most DP). Points out that loads aren’t very different from DP–both can cause harmonics, ripple, DC, fault current, etc., yet they receive very different treatment. Main difference is intentional injection of power. Existing system built for one way power, but in future may be configured to take better advantage of DP. DP are ideal ancillary service providers, but usually excluded from markets. Need to deal with conflict that utilities are both guardians of the public good, and a competitor in the same system. (This will be published as an E-Source report, with a summary version more generally available. I have a copy of the vugraphs if anyone wants them.)

[Note: check out http://www.homepower.com re the “guerilla solar” movement–people hooking up to the grid without permission.]

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— Proposed Revisions toNEC by EEI Elec Light & Power Group (P. Amos, ConEd)

— Proposed New NEC Article on Fuel Cells (K. Krastins)
(See email forwarded to UFTO list on 31 August)

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I have email and tel #’s for everyone mentioned above, and some additional hard copy information. Please let me know if you want more details on any o f the above.

NIST Workshop – Technical Implications of Deregulation

It’s been 5 years since the first UFTO visit to NIST, and we’ve had continuing contacts ever since. Our colleagues there have recently announced an upcoming workshop that may be of interest.
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“Challenges for Measurements and Standards in a Deregulated Electric Power Industry”

A Workshop focused on the Technical Implications of Deregulation

–> For details, go to:
http://www.eeel.nist.gov/deregulation-workshop/
(ignore the password request–just click on “cancel”)

Key Bridge Marriott, Arlington, VA (near downtown Washington, DC)

December 6-8, 1999

Sponsored by:
-NIST (National Institute of Standards and Technology)
-EEEL (Electronics and Electrical Engineering Lab)
-Electricity Division

Technical Co-Sponsors: IEEE, DOE, NST, ERPI and NEMA

Deregulation promises to spur significant change in the electric power industry. To compete successfully and to provide the high levels of services that customers expect, companies will have to adapt to a new business climate, while effectively integrating emerging technologies into their operations. Thus, this historically regulated industry will be challenged to identify its technology needs in a changing and uncertain environment. To help the industry respond effectively, this workshop will address technical challenges related to measurements and standards that are needed to ensure continued reliable generation, transmission, and distribution of electric power.

The technical impact of deregulation on the industry’s measurement and standards infrastructure will be assessed from the perspectives of the electric utilities, power producers, electrical equipment manufacturers, meter manufacturers, federal and state regulators, government agencies, and standards-writing bodies. Sessions for this two-day workshop will focus on:

– measurement needs for transmission and distribution,
– international and voluntary standards needs of a deregulated
electric power industry,
– communication and control systems protocols and standards,
– competitive metering,
– distributed generation, and
– power quality.

The workshop will feature three or four plenary speakers each morning, and their comprehensive overviews of the technical topics will be complemented by panel sessions each afternoon. Panels will consist of recognized experts from all sectors of the electric power industry and relevant government agencies. The workshop’s published proceedings will identify key technical challenges facing the industry as it undergoes fundamental change, and it will discuss potential solutions. Copies will be distributed to all attendees.

Registration fee: $350 (includes reception, two lunches, and proceedings)

For questions and comments about this workshop, contact:

James K. Olthoff, 301-975-2431, james.olthoff@nist.gov
Electricity Division, NIST
Gaithersburg, MD

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ASSESSMENT REPORT
Technological and Economic Assessment of the Changing Measurement and Standards Needs of the Electric Power Industry

With restructuring of the electric power industry looming in all 50 states, NIST has initiated efforts to anticipate needs for measurements and standards that may arise as the industry transitions from a system of monolithic utilities to a diverse collection of firms competing to generate, distribute, and meter the power that goes to homes and businesses. In its role as the nation’s measurement authority, NIST has commissioned a study of technology and marketing trends in the transmission, distribution, and generation sectors of the electric power industry. Researchers will assess measurement and standards needs identified by power industry experts interviewed during the study.

The results of the study will be presented in a report, which will be distributed to the attendees of the workshop. An overview of the report and the conclusions therein will be presented in the first plenary talk of the workshop.

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In May 1997, The Electricity Division at NIST published a planning document entitled:

“Measurement Support For the U.S. Electric Power Industry in the Era of Deregulation with Focus on Electrical Measurements for Transmission and Distribution”

It is available in “html” and “pdf” format.
–> http://www.eeel.nist.gov/811/plan_ep.html

A earlier draft of this document was offered to UFTO companies for comment.
(ref: UFTO Notes: 28Jan97 and 14Nov96)

The Division continues to seek input on its program to provide metrology support to the US electronic instrumentation and test equipment industry.
–> http://www.eeel.nist.gov/811/comments.html

DOE Distributed Power Program Review and Planning Meeting

Just received this notice a few minutes ago…
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Below you will find details regarding a Distributed Power for the 21st Century program review and planning meeting. Please register promptly if you plan to attend. Registration forms should be emailed to kimberly_taylor@nrel.gov
>
<>

U.S. Department of Energy DISTRIBUTED POWER FOR THE 21st CENTURY
DOE Distributed Power Program Review and Planning Meeting

As a result of recommendations from stakeholders at a workshop on removing technical, regulatory and institutional barriers to distributed power, held in December 1998, a Distributed Power Program was initiated at the Department of Energy to address these barriers. The focus of the FY1999 program activities has been on addressing near-term barriers, namely, documenting interconnection issues, supporting the fast-track development of a uniform national interconnection standard, and providing technical assistance to state and local governments as they consider legislative and regulatory actions impacting distributed power.

To continue to build on the results of last December’s workshop, DOE will be having a Program Review and Planning Meeting in conjunction with a meeting of the IEEE SCC21 distributed power interconnection working group, September 27-29, 1999, at the Holiday Inn National Airport in Arlington, VA. This meeting will provide an opportunity for you to evaluate the program=s early efforts and to help formulate multi-year plans to address longer-term R&D needs. These longer-term needs will focus on capturing the full value of distributed power in an electricity market in which customers can sell power, employ load management, and provide operations support services (ancillary services) as easily as the utility, in an automated and adaptive electric power system. As we move into the next century, distributed power will provide the ultimate choice of electricity supply for consumers and will be the real foundation of competition in the electric power industry.

Please join your Distributed Power colleagues in this important meeting.

———————–(additional information sent as follow-up)————–
Just got word from Dick DeBlasio at NREL about the IEEE Working Group meeting and the DOE planning workshop. A decision was reached to open the IEEE meeting to everyone.

“Ed – the IEEE meeting SCC21 P1547 will be on Sept 28-30th, 1999 for 2 1/2 days following the September 27th DOE DPP review and planning meeting. The idea is that all are invited to all 3 1/2 days of meetings . Its one meeting that includes a full IEEE SCC21 P1547 working group session for 2 1/2 days and a DOE planning meeting. I hope that helps. Dick”

IEEE Standards Group Tackles DR Interconnection Issues

The IEEE Standards Coordinating Committee 21 (IEEE SCC21) oversees the development of standards in the area of fuel cells, photovoltaics, distributed generation, and energy storage.

— SCC21 coordinates efforts in these fields among the various IEEE societies and other appropriate organizations to insure that all standards are consistent and properly reflect the views of all applicable disciplines. SCC21 reviews all proposed IEEE standards in these fields before their submission to the IEEE Standards Board for approval and coordinates submission to other organizations. (To learn more about IEEE Standards activities, go to: http://standards.ieee.org/ )

“Standard for Distributed Resources Interconnected with Electric Power Systems” is the task of a new working group (one of 19 under SCC21). Their project authorization request (PAR) P1547 got the final go ahead in March ’99 to develop a “uniform standard for interconnection of distributed resources with electric power systems and requirements relevant to the performance, operation, testing, safety considerations, and maintenance of the interconnection.”

Working Group Chair — Richard DeBlasio (NREL)
Vice Chair — Frank Goodman (EPRI)
Vice Chair — Joseph Koepfinger (Duquesne), and
Working Group Secretary — Thomas S. Basso (NREL).

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For a good and timely overview, see this recent testimony before the US Senate:

“Testimony on Interconnection of Distributed Resources before the Senate Energy and Natural Resources Committee, US Senate” June 22, 1999,
by Tom Schneider,Vice Chair, Energy Policy Committee, IEEE/USA,
http://www.ieeeusa.org/FORUM/POLICY/99june22.html
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The P1547 Working Group, whose membership is approaching 200, has met already several times since the initial organizational meeting in December, and will continue to meet as often as every 2-3 months. The last meeting was held Jun 28-30, in Chicago. Future meetings are set for Sept 27 (tentative – precise date to be determined), in Washington DC, then Dec 1-2, in Tampa.

At the September meeting, there are tentative plans to hold an open informational session, which might be good to attend. Also, the Summer Power Meeting in Edmonton (July 18-22) will have DR as a major theme (“Track 3”), with a panel session on interconnection.
(http://www.ieee.org/organizations/society/power/subpages/meetings-folder/summer99/sm99prev.htm)

There’s an aggressive schedule to put together a DR standards document for submission to the IEEE Standards Board — to have a final draft ready by March 2000. Individuals and small groups are working on writing assignments to prepare the various sections. The group has already produced and assembled a great deal of valuable information, and have worked out detailed classification schemes for types of DR interconnection equipment and configurations. Probably the most important attribute is size of the DR, and the size of the system it’s connected to–the larger the DR, as a fraction of the system, the more involved the requirements.

Overall, this is a huge undertaking. According to one estimate, there are at least 18,000 “combinations,” considering the number of different kinds of distribution circuits, inverter types, size ranges, and “issues” to address. An analysis by EEI (Interconnection Operations and Planning Group) has identified 30 issues, times 3 converter types (inverter, and synchronous, and asynch generator), times 5 distribution circuit types. (Some of the 30 issues include nuisance fuse blowing, reclosing, islanding, overvoltages, harmonics, switchgear ratings, lineworker safety, etc.) A major goal of this project is to minimize the time and expense required for protection studies and eliminate customization of solutions, by providing a common analysis framework and prequalification of equipment.

Individual states are under ratepayer pressure to come up quickly with their own jurisdictional DG interconnection rulings, and there are major programs in Europe, so it’s all the more important to avoid the complications of multiple (possibly conflicting) sets of requirements. Fortunately, many other IEEE committees already have standards related to interconnection topics or components, e.g. for power quality, relaying, etc. The ongoing cooperative consensus approach to the P1547 DR standard should help accelerate the development of a technically sound, uniform interconnection standard.

It’s seems surprising that relatively few utilities are represented on the Working Group, despite the often stated belief that DR is going to be hugely significant. (Industry organizations are actively participating, however, along with equipment makers and others.) The companies that are involved seem to embrace the DR concept and appear to be positioning themselves to prosper by it. (Some other companies are getting reputations as obstructionists, throwing obstacles and delays at every proposed installation.)

Participation is the best (only) way to tap into this rich array of information on the subject (all in hardcopy with minutes of the meetings!), and to track and influence developments. Industry experts who contribute their time and energy get a chance to make a difference.

Contact: Dick DeBlasio, 303-384-6452, dick_deblasio@nrel.gov
Tom Basso, 303-384-6765, thomas_basso@nrel.gov

Emerging Transmission Market Segments (IEEE Article)

The article cited below is from the January issue of Computer Applic in Power, and for non-subscribers interested in T&D issues, it happens to be available in its entirety on the IEEE website: http://teaser.ieee.org/pubs/mags/9905/rahimi.html

I thought you might find it useful as an overview of the various ways transmission systems are being organized around the world.

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Who’s coming to the IEEE PICA Meeting in Santa Clara this month (May 17-20)??

Let me know, and maybe we can get together, or at least say hello at the conference.
Complete details available at: http://www.pica99.org
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Remember QuickStab? (UFTO Note March 22) Dr. Savalescu will be at PICA, and would be pleased to offer a private demonstration. Give him a call!
>>>>>>>>>>>>>>>>>>>>>>>>>>
(I just joined IEEE, and am beginning to appreciate the wealth of information it provides to the power industry.)
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IEEE Computer Applications in Power January, 1999 Volume 12 Number 1 (ISSN 0895-0156)

Meet the Emerging Transmission Market Segments
Farrokh A. Rahimi & Ali Vojdani

Around the globe, the electric industry is undergoing sweeping restructuring. The trend started in the 1980s in the U.K. and some Latin American countries, and has gained momentum in the 1990s. The main motivation and driving forces for restructuring of the electric industry in different countries are not necessarily the same. In some countries, such as the U.K. and the Latin American countries, privatization of the electric industry has provided a means of attracting funds from the private sector to relieve the burden of heavy government subsidies. In the countries formerly under centralized control (central and eastern Europe), the process follows the general trend away from centralized government control and towards increased privatization and decentralization. It also provides a vehicle to attract foreign capital needed in these countries. In the United States and several other countries where the electric industry has for the most part been owned by the private sector, the trend is toward increased competition and reduced regulation.

This article presents an overview of the evolving structural models and the main structural components of the emerging deregulated electricity industry. An analysis of the central structural components, namely the independent system operator (ISO) and the power exchange (PX), is provided and used as a basis for structural classification with a view to the supporting computer application needs.

ESA Newsletter

(By special permission from ESA, here is their latest newsletter.)

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NEWS BOLTS
A MONTHLY NEWSLETTER FOR ENERGY STORAGE ASSOCIATION MEMBERS

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A NEW YEAR AT THE ESA
The ESA has listened to its membership and is being responsive to what the membership says it wants from the ESA. In our survey of ESA members over the last few months, the number one thing you want from the ESA is promotion and a forum so that potential customers are aware of the value and opportunities for including energy storage in their business plans. Energy Storage: It’s About Time! Is the theme for our new brochure and our marketing campaign for the next several years? Our new brochure should be available at the Spring meeting and the ESA staff is hard at work to deliver this message throughout the industry.

Our upcoming meeting in Phoenix is also focusing on the customer. The meeting’s preliminary agenda (mailed last week) includes presentations by power quality customer’s that have incorporated energy storage, electric utility customer’s that are installing energy storage, and fuel cell developers incorporating energy storage into their designs. Along with the exceptional visits to Arizona Public Service Company and Salt River Project (not to mention the amenities available in the Phoenix area), we expect our meeting to have outstanding attendance.
I recently was invited to participate in a plenary session on Alternative Generation and Storage at IEEE’s Winter Power Meeting at Tampa, Florida. I used the opportunity to present our standard ESA electronic presentation (available to any ESA member) and the response was overwhelming. More than 30 participants immediately asked for more information and I suspect several will attend our upcoming meeting in Phoenix. I am more convinced than ever that the interest in energy storage is at an all time high. However, we must be more proactive in delivering our message.

Thus, the objective of our brochure and marketing campaign.

Our membership is reflecting the transition taking place in the electricity business. We are picking up several new members while others have merged, downsized, or gone out of business. We cannot improve without ideas, feedback and commitment from our membership. As always, contact us at any time by phone, fax, and email or via our website and stop in to pay us a visit the next time you are in Washington, DC. Register for the Spring meeting early and do not forget your dues with registration and encourage other business partners, customers, and colleagues to participate in the ESA.

Jon Hurwitch, ESA Executive Director

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ENERGY STORAGE ON NATIONAL PUBLIC RADIO

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MEETINGS AND WORKSHOPS ESA Spring 1998 Meeting

The Spring 1998 ESA meeting is fast approaching. The preliminary agenda and registration materials are in the mail. As always, we anticipate changes to the agenda, additions and deletions as well as details on the presentations. Updates to meeting program will be available via the ESA world wide web site.

This meeting is shaping up to be very exciting and we hope that you will find the new format refreshing. The Feature Forum is dedicated to presentations on how customers are using energy storage technologies. We have avoided over-booking this session so that the presenters can give longer, more detailed presentations and there is time for questions and answers.

The Fuel Cell Storage Session will both serve to introduce fuel cell technology, a close relative to energy storage, and the potentially interactive relationship between fuel cells and storage, particularly for grid-independent systems. The remaining sessions are broken into the three primary applications for storage, utility, power quality and renewables. In addition to a strong program, we have two tours planned at Salt River Project and Arizona Public Service Company.

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ESA/SEIA to Host PV-Battery Storage Discussion at SOLTECH

The Energy Storage Association will be co-sponsoring a session at the SOLTECH meeting on Monday, April 27, 1998. The SOLTECH , Interstate Renewable Energy Council and Utility Photovoltaic Group annual meetings are being held in Orlando, Florida, April 25-30, 1998.

For more information on the panel discussion, please contact the ESA. For information on the SOLTECH meeting contact the Solar Energy Industries Association at 202/383-2670.

————————— EESAT ’98 Meeting

The ESA has received copies of the meeting program and registration and will be distributing them at the meeting in Phoenix. If you need copies ahead of time, please give us a call and we will put them in the mail to you.

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Other Upcoming Meetings

Marriott Boca Center, Boca Raton, Florida
For information call, 561/997-2299, or www.alber.com

HydroVision98: Exploring Our New Frontiers
July 28-31, 1998
For information call, 816/931-1311, or. www.hydrovision98com

Powersystems World ’98: Managing your Facility in a New Energy Marketplace
November 7-13, 1998
Santa Clara Convention Center

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ESA Participates at IEEE Winter Power Meeting Plenary Session

ESA Executive Director, Jon Hurwitch was one of five invited panelists for the Plenary Session on “Alternative Energy Generation and Storage: Concepts or Becoming Operational Reality?” The other panelists were, Gilbert Cohen, Kramer Junction Company; Douglas Hyde, Green Mountain Energy Resources; Ernesto Terrado, World Bank; and Richard Walker, Central and Southwest Services.

The Plenary Session attracted more than 1000 delegates primary from the U.S. electric utility industry. Jon delivered an abridged Energy Storage Overview presentation which was well received and generated a number of prospective ESA members.

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1998 ESA Index

The Energy Storage Association is in the process of updating the ESA Index for 1998. If you have any changes or additions to your listing or that of your colleagues, please forward that information to the ESA as soon as possible. We hope to issue the 1998 Index at the Spring meeting in Phoenix.

1998 ESA Member Directory
This year the ESA will be preparing a directory of its membership that will include a discussion of the products and services offered by member companies. The directory will be available in electronic form via the ESA website.

We are asking members to please send us, preferably in electronic form, a brief write up about the company; information on your energy storage product and services; photos or other graphics, but in particular the company logo; contact name and information; and the URL address for a company website.

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WHAT’S NEW
ESA Welcomes New Member, KEMA

The Energy Storage Association continues to stretch its membership boundary. In February 1998 KEMA Nederland B.V., a major Dutch utility became the second European ESA member. KEMA has been a participant in the International Energy Agency Annex IX and has its own storage research program. We will all have the opportunity to meet representatives from KEMA and hear more about their interest in energy storage at the ESA meeting in Phoenix.

Omnion and AC Battery Reunited

Delphi and Omnion believe the prospects for AC Battery” power quality products are substantial, particularly in light of the ever-increasing sophistication of manufacturing and data processing operations and the potential power supply problems that may occur as utility deregulation moves forward. AC Battery products offer unique technological advantages over competitive products in the field.

Trace Engineering and Statpower Technologies Announce Merger Plans

Trace Engineering Corporation of Arlington, Washington and Statpower Technologies Corporation of Burnaby, British Columbia, Canada signed a Letter of Intent to merge the two businesses in November of 1997. The merger, expected to be completed in the first quarter of 1998, will result in the world’s leading manufacturer of small electronic power inverters.
According to Trace Engineering President Bill Roppenecker, “Trace and Statpower make an excellent strategic fit. We have complimentary technologies, products, and market strengths. By joining forces we get the critical mass necessary to effectively serve the rapidly growing market for mobile and renewable power sources.”

Trace Engineering and Statpower Technologies develop and manufacture electric power inverters, battery chargers, and other power conversion products for a variety of markets including the recreational vehicle, marine truck, mobile office, backup power, and renewable energy markets.

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Department of Energy 1999 Budget Request
The Administration has submitted its fiscal year 1999 budget request to Congress. The House and Senate are expected to begin hearings on the budget this month.

The budget for energy efficiency and renewable energy programs has jumped from $908 million in 1998 to a proposed $1,198 million in 1999. This increase of 32% will help to support the President’s proposed Climate Change Technology Initiative for clean energy research and development.

The budget request breakdown by major program offices is:

$322M – Utility
$167M – Industrial
$293M – Transportation
$ 34M – Federal Energy Management
$317M – Buildings, States & Communities

The energy storage program request for 1999 stands at $6 M up from $3.9 M in 1998, and includes funding for the ESA-backed Storage 2000 initiative. The Energy Storage Association backed the recommendation of the President’s Council of Advisors on Science and Technology (PCAST) to increase the energy storage program budget to $20 M in 1999 to support renewable generation and storage programs. The ESA will work with the Sustainable Energy Coalition to continue to push for the PCAST budget recommendations during appropriations hearings in Congress.

Excerpts from the President’s State of The Union Address

In his State of the Union Address in January, President Clinton introduced his proposal for $3.6 billion in tax incentives over the next five years that will go directly to consumers in an effort to get advanced energy efficiency and renewable energy technologies into the marketplace.

Some specific tax credits include:

– 20% credit on purchase price for energy-efficient building equipment which includes: fuel cells, electric heat pump water heaters, advanced natural gas and residential size electric heat pumps, and advanced central air conditions;
– 15% credit for qualified investment up to a maximum of $1,000 for solar water heating systems and $2000 for rooftop photovoltaic systems;
– five year extension of 1.5 cent/kWh tax credit for electricity produced from wind or closed-loop biomass

A copy of the report containing the proposed tax incentives is available via the world wide web at: www.treas.gov/press/releases/grnbk98.html.

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The National Regulatory Research Institute Issues Unbundling Report

According to a recent report, Unbundling Generation and Transmission Services for Competitive Electricity Markets: Examining Ancillary Services, the nationwide cost of ancillary services is about $12 billion a year, roughly 10% of the cost of the energy commodity. The report sponsored by the National Regulatory Research Institute and prepared by Oak Ridge National Laboratory is available from NPRI for $29.95 by calling 614/292-9404 (report number NPRI 98-05.)

The report notes that although the utility industry has made substantial progress in identifying and defining the key ancillary services, much remains to be done. Developing metrics, determining costs, and setting pricing rules are important because most ancillary services are produced by the same pieces of equipment that produce the basic electricity commodity. Thus, production of energy and ancillary services is highly interactive, sometimes complementary and sometimes competing. In contrast to today’s typical time-invariant, embedded-cost prices, competitive prices for ancillary services would vary with system loads and spot prices for energy.

The individual ancillary services differ substantially in their features, competitiveness, provision, and pricing. Operating reserves, for example, can likely be provided by competitive markets. The primary supplier cost for this service is the opportunity cost associated with foregone energy sales; significant fuel costs are incurred only when these reserves are called upon to respond to the loss of a major generation or transmission outage.

The report provides an overview of the twelve ancillary services plus details on two of those services, operating reserves and voltage support.

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Cara Molinari Joins ESA Staff

On February 17, Switch Technologies welcomed new staff member Cara Molinari. As Executive Assistant, Cara will be taking over the responsibilities of ESA Coordinator including handling communications with members, finance, office administration, meeting planning, library maintenance, and website updates.

Prior to joining Switch, Cara was a Work Assignment Manager and Communications Specialist for Technical Resources International, Inc. of Rockville, Maryland. Cara brings experience in the preparation of communications and marketing materials including newsletters, brochures, and educational materials; and meeting planning to Switch and the ESA. Cara received her BS in Sociology and Italian Studies from St. Joseph’s University. Cara is fluent in Italian and proficient in Spanish and French.

You will have an opportunity to meet Cara in person at the upcoming ESA meeting in Phoenix.

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Premium Power RFP Issued

The Department of Commerce, Advanced Technology Program released a request for proposals for premium power technology research and development. The goal of the program is to promote U.S. economic growth by supporting sustained, High-Risk Research and Development to accelerate progress in power technologies critical to changes occurring in information systems, telecommunication, and distributed electric power. Technologies within the scope include advanced rechargeable batteries, photovoltaic arrays, fuel cells, ultracapacitors and flywheels. In FY98, $82 million is available for new projects.

Proposals for the first round are due April 8, 1998. Proposal kits can be obtained by calling the ATP hotline at 800-ATP-FUND or e-mail at: atp@nist.gov. Information on the premium power program is also available via the ATP website at: www.atp.nist.gov/www/press/cbd98-03.html.

ESA NEWS BOLTS
JON HURWITCH, Executive Director
LAURA WALTEMATH, Projects Director
CARA MOLINARI, ESA Coordinator

Please contact ESA office at:
301-951-3223
jwitch@switch.smart.net

NACE – Int’l Corrosion Society

NACE Annual Conference and Exposition — CORROSION/98
March 22 – 27, 1998 San Diego, CA

See website at http://www.nace.org

A brochure for this conference came in the mail recently.

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In the unlikely event that there could be people in your company who ought to be involved with NACE and aren’t, some background information is included below. (I checked with the NACE membership office, and several UFTO companies do have individuals who are members, though some have only one or two, and some have none.)

NACE is to corrosion what IEEE is to electrical engineering, and is one of those exceptional independent resources in a particular technical area of importance to the industry.

UFTO is developing information on other such resources as well.

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(excerpts from the NACE website)

NACE International – The International Corrosion Society
1440 South Creek Drive
Houston, Texas 77084
281-228-6200 fax 281-228-6300

Mission ——–
NACE International is a professional technical society dedicated to reducing the economic impact of corrosion, promoting public safety, and protecting the environment by advancing the knowledge of corrosion engineering and science. With more than fifty years of experience in developing corrosion prevention and control standards, NACE International has become the largest organization in the world committed to the study of corrosion.

Membership ——–
NACE’s membership has grown to more than 15,000 professionals from eighty nations representing virtually every major industry. NACE’s membership is comprised of: engineers, inspectors, and technicians; presidents, business owners, and consultants; managers, supervisors, and sales representatives; scientists, chemists, and researchers; and educators and students.

Organizational Structure ——–
NACE is organized into four Areas in North America and four Regions outside the continent. More than eighty sections within these Areas and Regions sponsor local programs to promote the exchange of corrosion information throughout the world.

Conferences ——–
Each year, NACE sponsors a number of conferences, regional symposia, and expositions. NACE’s annual conference is the world’s largest gathering dedicated to the control and prevention of corrosion. This event attracts more than 5,000 attendees each year and is comprised of technical symposia, research sessions, technical committee meetings, current issue presentations, informative lectures, and a comprehensive four-day exhibition.

Education Courses ——–
NACE offers education programs for both members and nonmembers in the US, Canada, and a variety of international locations. Intensive week-long courses are developed and taught by corrosion professionals with years of practical experience in the field. A variety of other corrosion topics are covered in short courses, TechEdge programs, in-house training programs, and video courses.

Coating Inspector Training and Certification Program ——–
NACE’s Coating Inspector Training and Certification Program was developed to meet the coatings industry need for recognized professional training standards and application guidelines.

Professional Recognition Program ——–
More than 4,500 individuals worldwide have been certified in corrosion science and technology

Public Affairs ——–
NACE raises the awareness of corrosion control and prevention technology among government agencies and legislators, businesses, professional societies, and the general public.

Standards ——–
NACE’s Technical Practices Committee oversees more than 300 technical committees that research, study, and recommend state-of-the-art corrosion technologies to both the public and private sectors. These committees produce consensus industry standards in the form of test methods, recommended practices, and material requirements. Industries and governments across the globe rely on NACE standards for materials preservation and corrosion control information.

Publications ——–
– Materials Performance, a monthly journal that publishes practical corrosion control applications and case histories for solving corrosion-related problems affecting all industries.

– Corrosion Journal, a monthly technical research journal devoted to taking a critical look at the causes and effects of corrosion processes and the protection of materials in corrosive environments.

– Corrosion Abstracts, a bimonthly reference periodical providing more than 500 abstracts of corrosion-related publications per issue from the world’s leading technical journals and book publishers.

Software ——–
NACE packages the latest in corrosion technology in easy-to-use desktop software programs. Data selection and reference software programs assist engineers with researching, analyzing, and developing advanced corrosion control systems.

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Energy Technology Committees

Corrosion and materials degradation control in the generation, conversion, and utilization of energy.

— T-2-4 Material Performance in Power T&D Systems
To facilitate identification and resolution of corrosion-related problems with components of power transmission and distribution systems. The components to be considered are: hardware, conductors, insulators, structures, stations, and other aboveground equipment.

— T-2A Nuclear Systems
To provide scientific and engineering information concerning the performance of materials exposed to environments related to any phase of the generation of energy originating from a nuclear source, and of materials used for disposal of spent nuclear fuels and radioactive wastes.

— T-2A-2 Interim Storage of Radioactive Liquid Waste
To examine corrosion of radioactive liquid waste storage and transfer systems. This assignment includes material selection, corrosion monitoring, control, and research activities associated with the interim storage of radioactive liquid wastes and their impact on safety and the environment. Specific areas of interest include: life prediction, corrosion surveillance, corrosion control, degradation mechanisms, and tank structural integrity.

— T-2E Geothermal Systems
To identify methods and materials for the control of degradation proceses in the extraction, conversion, and utilization of geothermal resources.

— T-2F Fossil Fuel Combustion and Conversion
Materials performance in the generation and utilization of energy derived from combustion of fossil fuels and in systems converting fossil fuels into gaseous and liquid products. Areas of coverage are fireside combustion systems, including waste incineration. In the synfuels sector, areas covered are coal conversion (gasification; liquefaction) and extraction of oil from tar sands (bitumens) and shale.

T-2F-1/T-5-1 Materials Problems in Waste Incinerator Fireside and Air Pollution Control Equipment
To provide a forum for exchange of information on the performance of materials in incineration facilities for chemical, municipal, and toxic wastes, and combustion facilities for low-grade and biomass fuels. Scope encompasses associated energy recovery and emission control systems.