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EPRI-DOE-EPA Combined Utility Air Pollutant Control Symposium

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Subject: UFTO Note — EPRI-DOE-EPA Combined Utility Air Pollutant Control Symposium
Date: Tue, 03 Jun 1997
From: Ed Beardsworth

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| ** UFTO ** Edward Beardsworth ** Consultant
| 951 Lincoln Ave. tel 415-328-5670
| Palo Alto CA 94301-3041 fax 415-328-5675
| http://www.ufto.com edbeards@ufto.com
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EPRI-DOE-EPA Combined Utility Air Pollutant Control Symposium
August 25-29, 1997
Washington Hilton & Towers, Washington, DC.

Background
This first-ever “Mega” Symposium will combine the SO 2 Control Symposium, the Joint Symposium on Stationary Combustion NO x Control, and the Particulate/Air Toxins Control Symposium into a single, week-long event. Cosponsored by the Electric Power Research Institute (EPRI) and the U.S. Department of Energy (DOE), with assistance from the U.S. Environmental Protection Agency (EPA), this multi-pollutant conference will continue the tradition of its predecessor meetings of showcasing the latest developments and operational experience with state-of-the-art methods for reducing NO x , SO 2 , and particulate/air toxics emissions from fossil-fueled boilers. Sessions will also be devoted to Continuous Emissions Monitors.

You can get the details on the Internet at
http://www.epa.gov/ORD/conferences/airsymp.pdf.
(This is an Acrobat Reader file,which if you don’t have can be downloaded at
http://www.adobe.com/prodindex/acrobat/readstep.html.)
A text version is reproduced below.

Registration fee for the full symposium is $600 ($650 after 8/3).
For a single topic is $350 ($400 after 8/3).
For information call Lori Adams, EPRI Sr. Conference Coordinator,
415-855-8763

DOE Environmental Remediation — Innovative Technology Summary Reports — “Green Books”

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Subject: UFTO Note – DOE Environmental Remediation — Innovative Technology Summary Reports — “Green Books”
Date: Fri, 30 May 1997
From: Ed Beardsworth

————————————————————–
| ** UFTO ** Edward Beardsworth ** Consultant
| 951 Lincoln Ave. tel 415-328-5670
| Palo Alto CA 94301-3041 fax 415-328-5675
| http://www.ufto.com edbeards@ufto.com
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DOE Environmental Remediation — Innovative Technology Summary Reports — “Green Books”

U.S. Department of Energy (DOE)
Office of Environmental Management (EM)
Office of Science and Technology (OST)

Innovative Technology Summary Reports present information about remediation technologies that OST has demonstrated in the DOE complex. The information includes technology summaries and information on performance, applicability, cost, regulatory issues, and lessons learned during the demonstrations.

Officially known as Innovative Technology Summary Reports and nicknamed the “green books,” these 10- to 20-page reports cover one DOE-developed technology per book. OST began publishing the reports in April 1995. To date, 13 technologies demonstrated by OST have been the topic of a DOE green book (see list below). More titles are in preparation. In particular, the DD&D (decommissioning) Large Scale Demonstration Project results will be published as part of this series.

The purpose is to provide a quick reference that will enable technology users to determine if an innovative technology is appropriate for their sites.

To make the reports useful across federal departments, OST collaborated with the EPA and DOD to determine the information they would contain. (EPA and DOD produce similar documents about technologies they have developed and demonstrated.) Each report contains the same seven sections: summary, technology descriptions, performance, technology application and alternatives, cost, regulatory/policy issues, and lessons learned. Demonstration site characteristics and references are included as appendices.

These reports are a way for vendors to submit technologies for acceptance into the DOE EM site clean-up realm. The format was revised to standardize and simplify the general requirements for those that wish to bring an existing technology to DOE for use on a contaminated site. With a Green Book in hand, a vendor can ease into the procurement process. Without it, they may have difficulty getting site managers to consider using their technology.

Copies of these reports are available free of charge from DOE/EM’s Center for Environmental Management Information, 1-800-736-3282.
Some titles can be found through NTIS.

The publication of this series is managed by
Diana Krop, DOE-EM, 301-903-7918, diana.krop@em.doe.gov
They can also provide copies free of charge.

Most of the reports are also available on line in their entirety, at
http://em-52.em.doe.gov/ifd/ost/pubs.htm

Innovative Technology Summary Reports (abstracts below)

*Cone Penetrometer
*In Situ Enhanced Soil Mixing
*Pipe Explorer System
*Advanced Worker Protection System
*Lasagna Soil Remediation
*Dynamic Underground Stripping
*Frozen Soil Barrier Technology
*In Situ Bioremediation Using Horizontal Wells
*Resonant Sonic Drilling
*Six Phase Soil Heating
*In Situ Air Stripping Using Horizontal Wells
*Flameless Thermal Oxidation
*SEAMIST

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*Cone Penetrometer
(DOE/EM–0309) — Cone penetrometer: Innovative technology summary report . USDOE Office of Science and Technology, Washington, DC . Office of Program Analysis . Apr 1996 . 24p . DOE Contract NODATA . Sup.Doc.Num. E 1.99:DE96014782. NTIS Order Number DE96014782 . Source: OSTI (DOE and DOE contractors only); NTIS (Public Sales); GPO Dep. (Depository Libraries)

Cone penetrometer technology (CPT) provides cost-effective, real-time data for use in the characterization of the subsurface. Recent innovations in this baseline technology allow for improved access to the subsurface for environmental restoration applications. The technology has been improved by both industry and government agencies and is constantly advancing due to research efforts. The U.S. Department of Energy (DOE) Office of Science and Technology (formerly Technology Development) has contributed significantly to these efforts. This report focuses on the advancements made in conjunction with DOE’s support but recognizes Department of Defense (DOD) and industry efforts.

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*In Situ Enhanced Soil Mixing
(DOE/EM–0289) In situ enhanced soil mixing. Innovative technology summary report. USDOE Office of Environmental Restoration and Waste Management, Washington, DC . Feb 1996. 25p. Sponsored by USDOE, Washington, DC . Source: OSTI; GPO Dep.

In Situ Enhanced Soil Mixing (ISESM) is a treatment technology that has been demonstrated and deployed to remediate soils contaminated with volatile organic compounds (VOCs). The technology has been developed by industry and has been demonstrated with the assistance of the U.S. Department of Energy’s Office of Science and Technology and the Office of Environmental Restoration. The technology is particularly suited to shallow applications, above the water table, but can be used at greater depths. ISESM technologies demonstrated for this project include: (1) Soil mixing with vapor extraction combined with ambient air injection. [Contaminated soil is mixed with ambient air to vaporize volatile organic compounds (VOCs). The mixing auger is moved up and down to assist in removal of contaminated vapors. The vapors are collected in a shroud covering the treatment area and run through a treatment unit containing a carbon filter or a catalytic oxidation unit with a wet scrubber system and a high efficiency particulate air (HEPA) filter.] (2) soil mixing with vapor extraction combined with hot air injection [This process is the same as the ambient air injection except that hot air or steam is injected.] (3) soil mixing with hydrogen peroxide injection [Contaminated soil is mixed with ambient air that contains a mist of diluted hydrogen peroxide (H{sub 2}O{sub 2}) solution. The H{sub 2}O{sub 2} solution chemically oxidizes the VOCs to carbon dioxide (CO{sub 2}) and water.] (4) soil mixing with grout injection for solidification/stabilization [Contaminated soil is mixed as a cement grout is injected under pressure to solidify and immobilize the contaminated soil in a concrete-like form.] The soils are mixed with a single-blade auger or with a combination of augers ranging in diameter from 3 to 12 feet.

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*Pipe Explorer System
(DOE/EM-0306) — Pipe Explorer{sup {trademark}} system. Innovative technology summary report . Oak Ridge National Lab., TN . Apr 1996 . 20p . DOE Contract AC0584OR21400 . Sup.Doc.Num. E 1.99:DE96014788. NTIS Order Number DE96014788 . Source: OSTI (DOE and DOE contractors only); NTIS (Public Sales); GPO Dep. (Depository Libraries)

The Pipe Explorer{trademark} system, developed by Science and Engineering Associates, Inc. (SEA), under contract with the U.S. Department of Energy (DOE) Morgantown Energy Technology Center, has been used to transport various characterizing sensors into piping systems that have been radiologically contaminated. DOE’s nuclear facility decommissioning program must characterize radiological contamination inside piping systems before the pipe can be recycled, remediated, or disposed. Historically, this has been attempted using hand-held survey instrumentation, surveying only the accessible exterior portions of pipe systems. Various measuring difficulties, and in some cases, the inability to measure threshold surface contamination values and worker exposure, and physical access constraints have limited the effectiveness of traditional survey approaches. The Pipe Explorer{trademark} system provides a viable alternative.

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*Advanced Worker Protection System
Advanced Worker Protection System . Lockheed Martin Energy Systems, Inc., Oak Ridge, TN (United States) . Apr 1996 . 17p . DOE Contract AC0584OR21400 . Sup.Doc.Num. E 1.99:DE96014778. NTIS Order Number DE96014778 . Source: OSTI (DOE and DOE contractors only); NTIS (Public Sales); GPO Dep. (Depository Libraries)

The Advanced Worker Protection System (AWPS) is a liquid-air-based, self-contained breathing and cooling system with a duration of 2 hrs. AWPS employs a patented system developed by Oceaneering Space Systems (OSS), and was demonstrated at their facility in Houston, TX as well as at Kansas State University, Manhattan. The heart of the system is the life-support backpack that uses liquid air to provide cooling as well as breathing gas to the worker. The backpack is combined with advanced protective garments, an advanced liquid cooling garment (LCG), a respirator, and communications and support equipment. The prototype unit development and testing under Phase 1 has demonstrated that AWPS has the ability to meet performance criteria. These criteria were developed with an understanding of both the AWPS capabilities and the DOE decontamination and decommissioning (D and D) activities protection needs.

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*Lasagna Soil Remediation
Lasagna{trademark} soil remediation . Science Applications International Corp., Gaithersburg, MD . Apr 1996 . 19p . DOE Contract AC0584OR21400 . Sup.Doc.Num. E 1.99:DE96014787. NTIS Order Number DE96014787 . Source: OSTI (DOE and DOE contractors only); NTIS (Public Sales); GPO Dep. (Depository Libraries)

Lasagna{trademark} is an integrated, in situ remediation technology being developed which remediates soils and soil pore water contaminated with soluble organic compounds. Lasagna{trademark} is especially suited to sites with low permeability soils where electroosmosis can move water faster and more uniformly than hydraulic methods, with very low power consumption. The process uses electrokinetics to move contaminants in soil pore water into treatment zones where the contaminants can be captured and decomposed. Initial focus is on trichloroethylene (TCE), a major contaminant at many DOE and industrial sites. Both vertical and horizontal configurations have been conceptualized, but fieldwork to date is more advanced for the vertical configuration. Major features of the technology are electrodes energized by direct current, which causes water and soluble contaminants to move into or through the treatment layers and also heats the soil; treatment zones containing reagents that decompose the soluble organic contaminants or adsorb contaminants for immobilization or subsequent removal and disposal; and a water management system that recycles the water that accumulates at the cathode (high pH) back to the anode (low pH) for acid-base neutralization. Alternatively, electrode polarity can be reversed periodically to reverse electroosmotic flow and neutralize pH

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*Dynamic Underground Stripping
(DOE/EM–0271) Dynamic underground stripping. Innovative technology summary report. Stone and Webster Environmental Technology and Services, Boston, MA ; Lawrence Livermore National Lab., CA . Apr 1995. 30p. Sponsored by USDOE, Washington, DC . DOE Contract FG34-91RF00117. Order Number DE96003566. Source: OSTI; NTIS; INIS; GPO Dep.

Dynamic Underground Stripping (DUS) is a combination of technologies targeted to remediate soil and ground water contaminated with organic compounds. DUS is effective both above and below the water table and is especially well suited for sites with interbedded sand and clay layers. The main technologies comprising DUS are steam injection at the periphery of a contaminated area to heat permeable subsurface areas, vaporize volatile compounds bound to the soil, and drive contaminants to centrally located vacuum extraction wells; electrical heating of less permeable sediments to vaporize contaminants and drive them into the steam zone; and underground imaging such as Electrical Resistance Tomography to delineate heated areas to ensure total cleanup and process control. A full-scale demonstration was conducted on a gasoline spill site at Lawrence Livermore National Laboratory in Livermore, California from November 1992 through December 1993.

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*Frozen Soil Barrier Technology
(DOE/EM–0273) Frozen soil barrier technology. Innovative technology summary report. Oak Ridge National Lab., TN . Apr 1995. 20p. Sponsored by USDOE, Washington, DC . Order Number DE96003568. Source: OSTI; NTIS; INIS; GPO Dep.

The technology of using refrigeration to freeze soils has been employed in large-scale engineering projects for a number of years. This technology bonds soils to give load-bearing strength during construction; to seal tunnels, mine shafts, and other subsurface structures against flooding from groundwater; and to stabilize soils during excavation. Examples of modern applications include several large subway, highway, and water supply tunnels. Ground freezing to form subsurface frozen soil barriers is an innovative technology designed to contain hazardous and radioactive contaminants in soils and groundwater. Frozen soil barriers that provide complete containment ({open_quotes}V{close_quotes}configuration) are formed by drilling and installing refrigerant piping (on 8-ft centers) horizontally at approximately 45{degrees} angles for sides and vertically for ends and then recirculating an environmentally safe refrigerant solution through the piping to freeze the soil porewater. Freeze plants are used to keep the containment structure at subfreezing temperatures. A full-scale containment structure was demonstrated from May 12 to October 10, 1994, at a nonhazardous site on SEG property on Gallaher Road, Oak Ridge, Tennessee.

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*In Situ Bioremediation Using Horizontal Wells
(DOE/EM–0270) In situ bioremediation using horizontal wells. Innovative technology summary report. Oak Ridge National Lab., TN . Apr 1995. 30p. Sponsored by USDOE, Washington, DC . Order Number DE96003565. Source: OSTI; NTIS; INIS; GPO Dep.

In Situ Bioremediation (ISB) is the term used in this report for Gaseous Nutrient Injection for In Situ Bioremediation. This process (ISB) involves injection of air and nutrients (sparging and biostimulation) into the ground water and vacuum extraction to remove Volatile Organic Compounds (VOCs) from the vadose zone concomitant with biodegradation of the VOCs. This process is effective for remediation of soils and ground water contaminated with VOCs both above and below the water table. A full-scale demonstration of ISB was conducted as part of the Savannah River Integrated Demonstration: VOCs in Soils and Ground Water at Nonarid Sites. This demonstration was performed at the Savannah River Site from February 1992 to April 1993.

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*Resonant Sonic Drilling
(DOE/EM–0268-96003563) ResonantSonic drilling. Innovative technology summary report. Oak Ridge National Lab., TN ; Colorado Center for Environmental Management, Denver, CO . Apr 1995. 22p. Sponsored by USDOE, Washington, DC . DOE Contract FG34-91RF00117. Order Number DE96003563. Source: OSTI; NTIS; INIS; GPO Dep.

The technology of ResonantSonic drilling is described. This technique has been demonstrated and deployed as an innovative tool to access the subsurface for installation of monitoring and/or remediation wells and for collection of subsurface materials for environmental restoration applications. The technology uses no drilling fluids, is safe and can be used to drill slant holes.

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*Six Phase Soil Heating
(DOE/EM–0272) Six phase soil heating. Innovative technology summary report. Stone and Webster Environmental Technology and Services, Boston, MA ; Lawrence Livermore National Lab., CA . Apr 1995. 25p. Sponsored by USDOE, Washington, DC . DOE Contract FG34-91RF00117. Order Number DE96003567. Source: OSTI; NTIS; INIS; GPO Dep.

Six Phase Soil Heating (SPSH) was developed to remediate soils contaminated with volatile and semi-volatile organic compounds. SPSH is designed to enhance the removal of contaminates from the subsurface during soil vapor extraction. The innovation combines an emerging technology, six-phase electric heating, with a baseline technology, soil vapor extraction, to produce a more efficient in situ remediation systems for difficult soil and/or contaminate applications. This document describes the technology and reports on field demonstrations conducted at Savannah River and the Hanford Reservation.

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*In Situ Air Stripping Using Horizontal Wells
(DOE/EM–0269) In situ air stripping using horizontal wells. Innovative technology summary report. Stone and Webster Environmental Technology and Services, Boston, MA ; Lawrence Livermore National Lab., CA . Apr 1995. 30p. Sponsored by USDOE, Washington, DC . DOE Contract FG34-91RF00117. Order Number DE96003564. Source: OSTI; NTIS; INIS; GPO Dep.

In-situ air stripping employs horizontal wells to inject or sparge air into the ground water and vacuum extract VOC’S from vadose zone soils. The horizontal wells provide better access to the subsurface contamination, and the air sparging eliminates the need for surface ground water treatment systems and treats the subsurface in-situ. A full-scale demonstration was conducted at the Savannah River Plant in an area polluted with trichloroethylene and tetrachloroethylene. Results are described.

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*Flameless Thermal Oxidation
(DOE/EM–0287) (DOE/EM–0287) Flameless thermal oxidation. Innovative technology summary report. USDOE Office of Environmental Restoration and Waste Management, Washington, DC . Sep 1995. 19p. Sponsored by USDOE, Washington, DC . Order Number DE96009312. Source: OSTI; NTIS; INIS; GPO Dep.

The Flameless Thermal Oxidizer (FTO) is a commercial technology offered by Thermatrix, Inc. The FTO has been demonstrated to be an effective destructive technology for process and waste stream off-gas treatment of volatile organic compounds (VOCs), and in the treatment of VOC and chlorinated volatile organic compounds (CVOCs) off-gases generated during site remediation using either baseline or innovative in situ environmental technologies. The FTO process efficiently converts VOCs and CVOCs to carbon dioxide, water, and hydrogen chloride. When FTO is coupled with a baseline technology, such as soil vapor extraction (SVE), an efficient in situ soil remediation system is produced. The innovation is in using a simple, reliable, scalable, and robust technology for the destruction of VOC and CVOC off-gases based on a design that generates a uniform thermal reaction zone that prevents flame propagation and efficiently oxidizes off-gases without forming products of incomplete combustion (PICs).

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*SEAMIST
(DOE/EM–0288) SEAMIST{trademark}. Innovative technology summary report. USDOE Office of Environmental Restoration and Waste Management, Washington, DC . Aug 1995. 23p. Sponsored by USDOE, Washington, DC . Source: OSTI; GPO Dep.

SEAMIST has been demonstrated and deployed as an innovative tool to better access the subsurface for characterization and monitoring of contaminants in both vertical and horizontal boreholes. The technology has been developed by industry with assistance from DOE’s Office of Technology Development to ensure it meets the needs of the environmental restoration market.

Reliability TF Draft “Framework”

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Subject: UFTO Note – Reliability TF Draft “Framework”
Date: Tue, 27 May 1997 07:37:59 -0700
From: Ed Beardsworth

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| ** UFTO ** Edward Beardsworth ** Consultant
| 951 Lincoln Ave. tel 415-328-5670
| Palo Alto CA 94301-3041 fax 415-328-5675
| http://www.ufto.com edbeards@ufto.com
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Attached below is the first page of a revised draft of “An Organizational Framework for Bulk Electric System Reliability: Functions and Interrelationships”. This paper will be the focus of discussions at the June 3 Task Force meeting.

The entire paper is 7-12 pages (depending on font choice). I can send it as a Word attachment or in the body of an email note.

A copy will also be available at the meeting.

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Draft: May 20, 1997 Task Force on Electric System Reliability

AN ORGANIZATIONAL FRAMEWORK FOR BULK ELECTRIC SYSTEM RELIABILITY: FUNCTIONS AND INTERRELATIONSHIPS

INTRODUCTION Purpose:

This paper presents one possible organizational framework to ensure the reliable operation of the bulk power system. It was written to provide a focal point for future discussions within the Task Force on Electric System Reliability of the Secretary of Energy Advisory Board. The paper is based on discussions by Task Force members at their first two meetings as well as their comments on a draft of this paper. The organizational framework is, at this point, necessarily described in broad terms. This document will evolve through further Task Force discussions and will become more specific as issues and alternatives are considered and addressed.

This paper does not attempt to address whether there are sufficient legal authorities to accomplish what is proposed herein. The need for additional legal authorities will be addressed after a suitable organizational framework has been designed.

In addition, five supporting papers discuss and propose positions on some important issues that cut across the organizations proposed in this framework document.

DOE Electric Reliability TF-2nd Meeting Minutes

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Subject: UFTO Note – DOE Electric Reliability TF-2nd Meeting Minutes
Date: Mon, 19 May 1997
From: Ed Beardsworth

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| ** UFTO ** Edward Beardsworth ** Consultant
| 951 Lincoln Ave. tel 415-328-5670
| Palo Alto CA 94301-3041 fax 415-328-5675
| http://www.ufto.com edbeards@ufto.com
————————————————————–

DOE SEAB Electric Reliability Task Force-2nd Meeting Minutes

According to our contacts at DOE, the second meeting went well. The group is starting to close on some basic assumptions regarding the future of the electric power industry and on a set of basic concepts/requirements for electric system reliability. In addition, the Task Force is gaining a better understanding of the differing viewpoints of NERC, Power Marketers, and DOE on how to maintain and assure reliability.

The complete minutes are posted at http://www.hr.doe.gov/seab

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Secretary of Energy Advisory Board
Task Force on Electric System Reliability

Minutes of Second Task Force Meeting March 25, 1997
Madison Hotel, Washington, D.C.

1.0 Opening Remarks and Perspectives

The second meeting of the Secretary’s Task Force on Electric System Reliability was held on March 25, 1997, in the Madison Hotel, Washington, D.C. Chairman Sharp opened the meeting at 8 a.m., noted that several new members had been added since the first meeting, and introduced those members. Following the introductions, Chairman Sharp stressed his receptiveness to advice from members at any time on how best to handle the agenda and schedule to make the best use of time. He stated his intent to try to get general consensus on a number of issues but stressed that at most some tentative conclusions might be reached at this meeting. He assured the members that they would have other opportunities to consider both the statement of the issues and the consensus Task Force position on each. He encouraged members to speak up and register their thoughts and concerns as the meeting proceeded.

Robert Hanfling, Chairman, Secretary of Energy Advisory Board (SEAB), was introduced by Chairman Sharp and welcomed the Task Force members on behalf of the SEAB and Secretary of Energy, Federico Peña.

2.0 Discussion of Assumptions Regarding the Future of the Electricity Industry

The Chairman thanked Dr. Theresa A. Flaim for her paper about how the electric industry is likely to evolve which proposed a division of assumptions into; A) those on which there may be emerging consensus; and, B) others. He asked that she lead the discussion of assumptions on which there may already be consensus among members. The Task Force opted to add several assumptions, including the one listed first, to better indicate its sense of priorities. There was preliminary consensus on each of the following assumptions:

Assumption #1: The reliability of the bulk electric power system will be maintained.
Comment: The reliability of the bulk electric power system must be a paramount objective in the transition to and maintenance of a competitive market. It was agreed among the members that introduction of competition should not be allowed to negatively impact the reliability of the nation’s integrated bulk electric power system.

Assumption #2: Retail customers will have their choice of supplier.
Comment: Retail customers in many states will also have the right not to choose (i.e., retain service from their existing supplier with a presumption that supplier would remain a provider of last resort).

Assumption #3: Generation can and likely will be deregulated as to price.
Comment: Although market power and transition costs were considered likely to be difficult issues, they were believed not to be closely linked to reliability.

Assumption #4: Transmission and distribution will remain regulated.
Comment: Some ancillary services may be purchased competitively on the open market.

Assumption #5: Power marketers, brokers and commodity retailers will have significant roles.
Comment: None.

Assumption #6: A reliable system will require a Regional Independent Operator (RIO).
Comment: The Task Force noted its unwillingness to use the term “ISO” because it is presently used in widely differing ways by other parties and to avoid appearing to support a particular type of institution at this time.

Assumption #7: The RIO will be a monopoly function and, thus, will need to be regulated.
Comment: This would not preclude a competitive process for acquiring RIO services or for outsourcing by the RIO for specific functions to for-profit contractors.

Assumption #8: Traditional obligation-to-serve compacts will be replaced by obligation-to- connect compacts.
Comment: None.

Assumption #9: RIO’s must not have a commercial interest in the market.
Comment: The security function must be separated completely from commercial operation of the market to avoid conflict of interest.

Assumption #10: RIOs must be able to direct and re-dispatch all generators and customers during emergencies.
Comment: However, RIOs would not necessarily need to have direct control of generation.

Assumption #11: The reliability of the bulk electric power system must be compatible with a range of reliability options for individual customers.
Comment: Customer end-use reliability should be conceptually distinguished from bulk electric power system reliability.

3.0 DOE Paper on Electric Systems Reliability Concepts

The Chairman moved to a discussion of a DOE staff paper intended to promote a better understanding of reliability by identifying basic system concepts and actions required for its attainment/maintenance. The members discussed the primary points made in the paper and reached general agreement on the following concepts:

Concept #1: Characteristics of Electric Systems
General Agreements: The Task Force generally agreed with the staff paper position as follows:

• The bulk power system needs continuous and near instantaneous balancing of generation and load.

• The transmission network is primarily passive but is becoming more active in time..e.g., FACTS.

• Any action can affect many other activities on the grid. — The activities of all players must be coordinated. However, all actions are not equally important.

• Cascading outages are unacceptable. — The physical system and the rules for its operation must minimize the likelihood of such outages.

• The need to be ready for the next credible contingency dominates the design and operation of the bulk power system.

Concept #2: Historical Design Criteria
General Agreements: The Task Force generally agreed with the staff paper position as follows:
• Generation & Transmission Adequacy — Capacity needed to maintain reliability is usually based on probabilistic analyses intended to meet a loss-of-load probability of one day in ten years.

• Generation & Transmission Security — Capacity needed to maintain reliability is based on
N-1 contingency.

Concept #3: Seven Critical Activities for A Reliable Power System
General Agreements: For the purposes of this discussion, the Task Force defined the term ‘system’ to include loads, transmission, distribution and generation and expanded the list of critical activities suggested in the DOE staff paper from five to seven. The additions are distinguished by an asterisk (*).

• Observe the network.
• Analyze and model the system.
• Communicate with operators of other systems.*
• Take control actions.
• Monitor and enforce compliance.
• Plan to expand and/or modify the system (including load management).
• Ensure incentive system for reliability.*

Concept #4: Time Scales for Reliability Maintenance.
General Agreements: The DOE staff paper pointed out that actions required to maintain system reliability take place in very different time frames, from cycles to minutes, to day ahead, to week ahead, to annual maintenance scheduling, and to several years ahead for transmission and generation planning. Each activity and its relative time frame is indicated in Table 1, shown at the end of this document.

Concept #5: Potential Restructuring Impacts
General Agreements: The Task Force generally agreed with the staff paper position that restructuring is likely to affect activities in different time frames, as follows:

• Automatic Protection — No effect
• Disturbance Response — Must consider contractual obligations
• Regulation and Voltage Control — Competitive markets will replace centralized control in selecting resources
• Economic Dispatch — Selecting units based on markets need not affect reliability
• Maintenance Scheduling — Scheduling of transmission maintenance should be under the authority of the Regional Independent Operator
• Fuel Planning — No effect
• Transmission Planning — If congestion rents can be captured, reliability constraints will be relieved. If not, there will be little incentive to take actions to relieve constraints.
• Generation Planning — Reliability will be maintained during the transition from central planning to the marketplace.
.
4.0 Panel Discussion and Roundtable on Policy and Institutional Issues

The Chairman moved to the next item on the agenda and introduced each of three panelists representing different perspectives on reliability and restructuring: Marc W. Chupka, DOE Acting Assistant Secretary for Policy and International Affairs; David R. Nevius, Vice President of the North American Electric Reliability Council (NERC); and, Barry N. P. Huddleston, Regional Manager, Regulatory Affairs, Destec Energy Corp. The Chairman pointed out that the panelists’ positions on each of the seven policy and institutional issues scheduled for discussion were documented in the meeting material and that, consequently, he would ask them to provide only brief introductions and then join in the Task Force roundtable discussion of each issue.

After a brief introduction by each panelist, the Chairman opened the discussion of the issues presented in the meeting material. While it is premature to consider any of the comments shown below as a conclusion or consensus by the Task Force, the following reflects some of the more notable opinions relative to each issue discussed.

Issue #1: Who should define and measure bulk power system reliability?
Comments:
• Reliability standards should not be legislated.
• The institutions setting reliability standards must be separated from those responsible for measurement or enforcement.
• The composition of the institutions setting reliability standards should reflect that of the restructured industry (including customers).
• Setting and enforcing reliability standards probably will require a regulatory backstop.
• Relationships established by legislation and contracts will need to be well understood (e.g., who has enforcement responsibility? who has an appellate function?).
• In the future, reliability will need to be defined in terms of customer perspectives but customers will not be able to purchase higher reliability than is designed into the bulk electric system unless they are willing to acquire localized resources for themselves.
• Approved tariffs of the future will be required to specify the applicable standards and the consequences that will apply if they are not met.
• Compacts among states to address reliability issues may alleviate the need for intervention by the federal government at the time of an emergency.
• States certainly will want to continue to be involved to protect their constituents.
• Additional federal authority may be needed to resolve all the compliance matters.
• NEPOOL depends on regulatory agencies in six states that have a history of long standing coordination and cooperation, but they rely on FERC regulation for backstop.
• FERC only exercises jurisdiction over 60-70% of the power system. The system also involves Canada and Mexico — clearly not under FERC jurisdiction. Legislation, or the threat of legislation, will be needed.
• A broad based organization (like NERC) is the best option to define standards regarding the security of the bulk electric power system. However, the marketplace should decide on matters of adequacy.
• A region like New England that decides to join together and operate in a unified system may not need federal authority except on issues that may affect the Regional boundaries.
• Legislation may be required to clarify federal authorities, as opposed to expanding them.

The Chairman concluded this portion of the discussion and opened the floor to comments by members of the public.

5.0 Public Comment Period.

The Chair recognized Mr. Mark Lively who indicated his concerns about how the industry will function in a deregulated environment, particularly in terms of two sciences, physics and economics. He referred to NERC’s interests as those representing the science of physics and FERC’s interests the science of economics. He stressed a need to consider them jointly and to be very precise in the definitions used in the process (e.g., utilities have not had an obligation to serve, they have had an obligation to serve at a price). He questioned whether transmission needs to remain a natural monopoly.

The Chair next recognized Mr. Jose Calvo of the Nuclear Regulatory Commission (NRC). Mr. Calvo stressed the need to set reliability standards before problems arise…not afterwards. He indicated NRC’s interests in the possible effects of restructuring on the availability of off-site power for nuclear plants. He noted that additional on-site backup power sources may be needed at nuclear plants if backup supplies from the grid cannot be assured at all times.
6.0 Panel Discussion and Roundtable (Cont’d)

Following comments by the public, the Chairman resumed discussion of the seven issues presented in the meeting material. Again, while it is premature to consider any of the comments shown below as a conclusion or consensus by the Task Force, the following reflects some of the more notable opinions relative to each issue discussed.

Issue #2: Should a minimum capacity requirement, or reserve margin, be established for all load-serving entities?
Comments:
• The Regional Independent Operator should assure that the necessary minimum reserve is available.
• If capacity reserves can be procured in the market, let the market supply them.
• The system can be operated reliably with insufficient reserves…those customers with reserves could continue to be served while those without would have service terminated.
• Customers that want to pay for 15% capacity overhang should be able to buy it — those that want 30% capacity overhang should be able to buy that — but to obtain higher reliability than the bulk system is designed for will require that customers acquire local supplies for themselves.
• The need to establish day-ahead minimum capacity requirements is clear. The issue is how far to go into the future — 6 months?–12 months?
• Another key issue is ‘who gets disconnected first?’ Those with reserves will stay connected. It is a matter of defining the rights and incentives (or penalties) of customers.
• Long term prices send signals for the investment community to build capacity and, in addition, customers are going to have contracts. The contracts will specify how much reliability customers want.
• Bulk system reliability has the characteristics of a “public good.” That is, everyone wants it. If it is obtained, everyone enjoys it whether they paid their share of its costs or not. Consequently, everyone has an incentive to avoid paying for it — which puts the good at risk.
• A basic problem: How to manage unpredictable loads while minimizing the need for installed capacity? Edicts by fiat on how much reserve capacity is needed for reliability are likely to be incorrect by a significant margin. The solution is to let the market resolve these balancing problems whenever possible.
• Legislation may be required to clarify federal authorities, as opposed to expanding them.

Issue #3: What is the appropriate use of engineering standards and markets to ensure adequate ancillary services?
Comments:
• The overall presumption of this committee should be biased toward letting the market provide ancillary services …if it can. If it can’t, the Regional Independent Operator takes over. Market rules should be relied on to the maximum extent. A basic problem: Where’s the boundary? Who determines it?
• Make Regional Independent Operators responsible for providing the services but allow self-provision of ancillary services by suppliers and customers as an option.
• Let individual buyers and sellers work out their own arrangements…but assure that the Regional Independent Operator takes over in default.
• Line loading relief and re-dispatch should be a Regional Independent Operator function.

Issue #4: Who should be responsible for transmission planning, construction and maintenance?
Comments:
• The issue is not who can build…but who has the capacity to collect from customers, so as to cover the costs of construction? Only a regulatory entity has the right to site.
• A regional focus for planning is essential.
• Transmission expansion does not present premium investment opportunities. There does not appear to be any way to avoid taking a regulated approach, with investment going into a rate base.
• The core issue seems to be who should be doing studies to determine whether new transmission is needed and, if so, where.
• Studies done in the 1980s on transmission siting by NGA and Keystone should be reviewed.

Issue #5: What authorities or incentives are needed to ensure that system operators will be able to compel real time actions by users of the bulk power system, when necessary, to maintain reliability?
Comments:
• Additional regulatory authorities are not needed. It should be possible to design and utilize contract provisions that are capable of ensuring proper behavior by users of the bulk power system.
• Penalty-backed financial decisions could be used to force customers off the system when necessary. After-the-fact assessments of very high costs for service (e.g. $90,000/kWh) are likely to be effective.
• We need an objective, duly appointed body to say what is fair and what the standard (penalty) should be. Probably FERC.
• After-the-fact penalty assessments will assure that someone pays, but in real time someone will have already paid for whatever extra capacity is available, and that margin gives others the opportunity to “lean” on the system. We need to be careful that this sort of opportunistic behavior does not erode the system’s resilience.

Issue #6: What legal recourse should customers, other market participants, or the public have if reliability is not maintained?
Comments:
• The court system permits utilities, RIOs , etc. to be sued. These entities will have to carry insurance…for which users will have to pay…somehow.
• A FERC-backed stiff penalty ($90,000/kWh) may be the answer.
• Penalties are preferable to extensive reliance on court proceedings.
• Litigation has not been effective in the Northwest.

Issue #7: What is the appropriate role for government in ensuring electric system reliability?
Comments:
• FERC may be the right agency to handle oversight responsibilities, but are they equipped to handle the additional mission?
• FERC could delegate oversight responsibilities to NERC.
• Bulk power should be a federal oversight responsibility. Local reliability should be a state function.
• An industry compact could cover all sectors that are now regulated by FERC plus some areas (Canada, Mexico) that are non-FERC jurisdictional.
• States may need help in dealing with new T&D issues [EPRI has good material on this, e.g., EPRI has a power quality benchmarking capability already].

7.0 Final Public Comment

The Chairman offered a final opportunity for public comment and Mr. Mark Lively was the only commentor. He offered his opinion that, if a very large penalty ($90,000) was adopted for customers leaning on the system in the short term, the long term will take care of itself. Investors will see the opportunity and invest accordingly.

The Chairman closed the meeting by thanking the members for their participation. He advised them that the next meeting would probably be scheduled sometime in late May but would be coordinated with everyone’s schedule, and adjourned the meeting at 4 p.m.

Mr. Rich Burrow, DOE staff representative to the SEAB, suggested that Task Force members use the SEAB Home Page for information pertaining to minutes of meetings, membership, notices of future meetings, reports, etc. He announced that the Internet address of the SEAB Home Page is: http: //www.hr.doe.gov/seab.
Table 1:
Services Affecting Bulk Power Reliability

Service Time Scale Description
Automatic Protection Instantaneous Minimize damage to equipment and service interruptions
Disturbance Response Instantaneous-minutes-hours Adjust generation, breaker, and other transmission equipment
Regulation & Voltage Control Seconds-minutes Adjust generation to match scheduled intertie flows and actual system load
Economic Dispatch Minutes-hours Adjust committed units to maintain frequency…at minimum cost
Unit Commitment Hour ahead & week ahead Decide when to start up and shut down generating units
Maintenance Scheduling
(Long Term) 1-3 years ahead Schedule and coordinate interutility sales and planned maintenance
Fuel Planning
(Long Term) 1-5 years ahead Develop least cost fuel supplies, contracts and delivery schedules
Transmission Planning
(Long Term) 2-10 years ahead Design regional and local system additions
Generation Planning
(Long Term) 2-5 years ahead Develop mix of new units, retirements, life extensions, and repowering based on long term load forecasts

Reliability TF, 3rd Meeting Notice, June 3

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Subject: UFTO Note – Reliability TF, 3rd Meeting Notice, June 3
Date: Mon, 19 May 1997 13:29:09 -0700
From: Ed Beardsworth <edbeards@ufto.com>

————————————————————–
| ** UFTO ** Edward Beardsworth ** Consultant
| 951 Lincoln Ave. tel 415-328-5670
| Palo Alto CA 94301-3041 fax 415-328-5675
| http://www.ufto.com edbeards@ufto.com
————————————————————–

The next meeting of the DOE Reliablility Task Force, scheduled for June 3, 1997 in Philadelphia PA, will focus on several of the key policy and institutional differences between NERC, Power Marketers and DOE.

Here is the official notice to appear in the Federal Register.

———————————————
[6450-01-P]
DEPARTMENT OF ENERGY
Secretary of Energy Advisory Board
Notice of Open Meeting
SUMMARY: Consistent with the provisions of the Federal Advisory Committee Act (Public Law 92-463, 86 Stat. 770), notice is hereby given of the following advisory committee meeting:
Name: Secretary of Energy Advisory Board
– Electric System Reliability Task Force
Dates and Times: Tuesday, June 3, 1997, 8:30 AM – 4:00 PM
Place: Valley Forge Hilton
Rittenhouse Ballroom
251 West Dekalb Pike
King of Prussia, Pennsylvania 19406

FOR FURTHER INFORMATION CONTACT: Richard C. Burrow, Secretary of Energy Advisory Board (AB-1), U.S. Department of Energy, 1000 Independence Avenue, SW, Washington, DC 20585, (202) 586-1709 or (202) 586-6279 (fax).

SUPPLEMENTARY INFORMATION:

Background
The electric power industry is in the midst of a complex transition to competition, which will induce many far-reaching changes in the structure of the industry and the institutions which regulate it. This transition raises many reliability issues, as new entities emerge in the power markets and as generation becomes less integrated with transmission.

Purpose of the Task Force
The purpose of the Electric System Reliability Task Force is to provide advice and recommendations to the Secretary of Energy Advisory Board regarding the critical institutional, technical, and policy issues that need to be addressed in order to maintain the reliability of the nation’s bulk electric system in the context of a more competitive industry.

Tentative Agenda

8:30 – 8:45 Opening Remarks & Objectives;
Philip Sharp, Chairman, Electric System Reliability Task Force
8:45 – 9:15 Presentation and Discussion:
Legal Issues Regarding FERC as a “Backstop”
9:15 – 10:15 Discussion: Role of the FERC
10:15 – 10:30 Break
10:30 – 11:45 Discussion: Role of the National
Reliability Organization (NERC and RRCs)
10:30 – 11:45 Discussion: Role of the
National Reliability Organization (NERC and RRCs)
11:45 – 12:00 Public Comment
12:00 – 1:00 Lunch
1:00 – 2:15 Discussion: Role of the Regional
Independent System Operator
2:15 – 2:30 Break
2:30 – 3:45 Discussion:
Role of States and Regional Regulatory Agencies
3:45 – 4:00 Closing remarks; Philip Sharp, Chairman,
Electric System Reliability Task Force
4:00 Adjourn

This tentative agenda is subject to change. The final agenda will be available at the meeting.

Public Participation
The Chairman of the Task Force is empowered to conduct the meeting in a fashion that will, in the Chairman’s judgment, facilitate the orderly conduct of business. During its meeting in Washington, D.C. the Task Force welcomes public comment. Members of the public will be heard in the order in which they sign up at the beginning of the meeting. The Task Force will make every effort to hear the views of all interested parties. Written comments may be submitted to David Cheney, Acting Executive Director, Secretary of Energy Advisory Board, AB-1, 1000 Independence Avenue, SW, Washington, DC 20585.
Minutes

Minutes and a transcript of the meeting will be available for public review and copying approximately 30 days following the meeting at the Freedom of Information Public Reading Room, 1E-190 Forrestal Building, 1000 Independence Avenue, SW, Washington, DC, between 9:00 AM and 4:00 PM, Monday through Friday except Federal holidays.
Issued at Washington, DC, on

Rachel Samuel
Acting Deputy Advisory Committee Management Officer

Nuclear Decommissioning

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Subject: UFTO Note — Nuclear Decommissioning
Date: Mon, 12 May 1997
From: Ed Beardsworth

————————————————————–
| ** UFTO ** Edward Beardsworth ** Consultant
| 951 Lincoln Ave. tel 415-328-5670
| Palo Alto CA 94301-3041 fax 415-328-5675
| http://www.ufto.com edbeards@ufto.com
————————————————————–

Nuclear Decommissioning and the Strategic Alliance

Major programs are underway in the Federal sector to begin D&D — decommissioning and decontamination (and dismantlement!) — of nuclear facilities. DOE’s efforts are focused on the many contaminated weapons facilities and lab sites around the country, but much of the technology being developed and applied will be directly relevant to the decommissioning of civilian power reactors.

Only a few civilian reactors have been shut down so far, but eventually this huge issue will have to be addressed (maybe sooner rather than later, with industry restructuring). Some utilities are already paying close attention. The Nuclear Energy Institute (NEI) has industry working groups dealing with the government on policy issues, but there’s been little attention so far to the technologies to be used. (EPRI has a new initiative in this area, just getting started.)

With so much at stake, utilities already dealing with shut-down plants are understandably wary of new technology, so the government’s efforts to “prove” new technology could prove to be quite valuable.

——————–

Of immediate potential interest–an upcoming conference, June 24-27 in Chicago, featuring a special on site tour of the CP-5 at Argonne National Lab, where new robotics technology is being used in the large scale demonstration project there.

For more information on the conference, contact Eileen Schmitz, Weapons Complex Monitor Forums Office. 847-234-2353 excpub@aol.com. The registration package and agenda should be available after May 19.

——————–

There will also be a major international conference in Miami, December 1-5, 1997, sponsored by DOE, on the theme of cost reduction for D&D, and technology transfer “across the oceans”. To get on the mailing list for further details as they become available, contact Chuck Broom, ICF Consulting, 630-778-0972, CABroom@msn.com

——————–

OVERVIEW

Since this is such a complicated topic, with so many programs and players, here’s a very quick overview, presented as a series of definitions:

–> “D&D” —

Decommissioning and Decontamination (and Dismantlement!) of nuclear facilities

–> “EM” — Environmental Management —

This is the DOE Office responsible for dealing with management and cleanup of sites within the DOE complex. EM-40, the Office of Environmental Restoration; has line management responsibility for clean up. EM-50 is Office of Science and Technology. EM-60 handles deactivation of facilities (done long before D&D can begin). EM sponsors a great deal of work in remediation for both radioactive and other hazards and contamination.

At FETC in Morgantown (METC and PETC have merged into FETC), there’s a group (not connected to Fossil) that manages part of the EM D&D program.
More information is available at: http://www.wpi.org/doe/focus/dd/

“The mission of the D&D Focus Area is to develop, demonstrate, and deploy improved technologies and systems; to solve customer-identified needs; to decontaminate and decommission DOE’s radiologically contaminated surplus facilities and their contents; and to facilitate the acceptance, approval, transfer, commercialization, and implementation of these technologies and systems.”

–> “LSDP” — Large Scale Demonstration Projects —

Major projects sponsored by EM to integrate the ongoing D&D of specific government facilities with the deployment of a number of new technologies in real conditions, and evaluate their performance. Four such projects are currently underway.

The mission is “to select innovative, ‘field test ready’ decontamination and decommissioning (D&D) technologies, demonstrate those technologies in a large scale demonstration environment, and compare the results against existing commercial technologies with the intent of showing that significant benefits can be achieved through the utilization of enhanced D&D technologies or verify existing technology practices are the most cost effective.”

–> “CP-5” —

The first LSDP has been underway for some time at Argonne National Lab, at the CP-5 reactor (“Chicago Pile 5”).

–> “Strategic Alliance for Environmental Restoration” —

The consortia of contractors for the CP-5 LSDP, comprised of Duke Engineering and Services, 3M, ICF Inc., Florida International University, and Commonwealth Edison. The contract is a cooperative agreement with DOE, but not a CRADA — all results will public information, and the group is just now gearing up to tell the story more widely in the utility industry.

The “deliverables” of the Strategic Alliance will take the form of additional titles in the “Green Books” series — reports documenting proven technology for environmental remediation. (See separate UFTO Note)

The Alliance has a very detailed web site at:
http://www.strategic-alliance.org

To find detailed descriptions of the technologies being tested, click on “Demonstration Projects”, and then “Technology Demonstrations”. Use the “guest” log on feature.

——————–

For more information:

There are many institutions and people involved (e.g., several offices of DOE, Argonne, and all of the Alliance participants), and many of them can be hard to get a hold of. I can provide more contacts if you want them.

Mr. Rock AKER, Com Ed’s representative in the Alliance, has kindly offered to serve as a point of contact for UFTO members. He can be reached at Tel 630-663-5491 email: akerrex@ccmail.ceco.com

Survey Critical Infrastructure

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Subject: UFTO Note – Survey Critical Infrastructure
Date: Fri, 18 Apr 1997 08:53:19 -0700
From: Ed Beardsworth

————————————————————–
| ** UFTO ** Edward Beardsworth ** Consultant
| 951 Lincoln Ave. tel 415-328-5670
| Palo Alto CA 94301-3041 fax 415-328-5675
| http://www.ufto.com edbeards@ufto.com
————————————————————–

(Forwarding this news time-sensitive news item. This commission is separate from the DOE Reliability Task Force.)

——————–
Survey- President’s Commission On Critical Infrastructure Protection

(Via Utility-News Inc.)- April 17, 1997- The President’s Commission on Critical Infrastructure Protection is requesting information regarding technologies and capabilities for protecting critical infrastructures vital to our nation’s economic and national security. Of particular concern are physical and cyber threats. Eight critical infrastructures have been identified: (1) telecommunications, (2) electrical power systems, (3) gas and oil storage and transportation, (4) banking and finance, (5) transportation, (6) water supply systems, (7) emergency services, and (8) continuity of government services. The Commission has retained the Department of Energy’s Argonne National Laboratory to act on its behalf in soliciting and collecting this information.

The Commission designed a survey template to facilitate this critical infrastructure data collection effort. The survey template can be requested via e-mail at formpccip@anl.gov, or downloaded from www.dis.anl.gov/survey. Responses must be received no later than May 30, 1997, to guarantee inclusion in the Commission’s report.

Taking time to provide information may increase organizational visibility, not only with the Commission, but also with government agencies and private-sector entities needing infrastructure protection technologies and capabilities. Responses will be entered into a database and made available to the government and private sector. The Commission will use the information to help (1) formulate critical infrastructure protection strategies, and (2) develop recommendations for research and development programs to address technology shortfalls.

For more information on this critical infrastructure protection technologies and capabilities data collection or the Commission, please contact Mr. Jerry Gillette at 630/252-7475 or jgillette@anl.gov.

2nd National Green Pricing/Power Conf

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Subject: UFTO Note – 2nd National Green Pricing/Power Conf
Date: Fri, 14 Mar 1997 09:25:57 +0000
From: Ed Beardsworth
————————————————————–
| ** UFTO ** Edward Beardsworth ** Consultant
| 951 Lincoln Ave. tel 415-328-5670
| Palo Alto CA 94301-3041 fax 415-328-5675
| http://www.ufto.com edbeards@ufto.com
————————————————————–

DOE, EEI, EPRI, and host C & SW will hold the “Second National Green Pricing and Green Power Marketing Conference” on May 13-14, 1997, in Corpus Christi, Texas.

Agenda will include updates on existing programs, an overview of new Green Power projects, lessons learned about Green Power and retail wheeling, and perspectives on issues such as certification and disclosure.

Discounted registration fee if paid before April 15, and for members of the EPRI Renewables Target.

For registration/information, contact: Lorie Adams, EPRI coordinator, 415-855-8763, fax 415-855-8501. (EPRI has published an “Events” sheet for this.)

Also, a complete description of the program and online registration will be available beginning tomorrow at the DOE/EREN Green Power web site, either as a separate button “Second DOE/EPRI green pricing & power marketing conference” or in the “What’s New” botton, under “upcoming events” :

http://www.eren.doe.gov/greenpower/

A summary of last year’s conference appears there, along with a number of other useful resources on Green Power.