Fax – Mar 1995

To: UFTO Subscribers
UFTO FAXGRAM March 3, 1995

 

Michael Mulcahy BECO
Rex Roehl Comm•Ed
Mary Cucchiarella NSP
Sheila Snyder NYSE&G
Betsey Krieg PG&E
Doug Boleyn PGE
Dave Odor PSI Energy
Bill Muston TU
Graham Siegel WEPCo
Daniel Madet EDF

No “Bulletin” this month** — Gearing up for the meetings in Denver!

[Please pass this along to whoever’s coming to Denver.]

We’ll have strong attendance in Denver next week. All but two utilities will be represented, and several of you are sending two people.

• UFTO SITE VISIT TO NREL Thursday March 9 8:30 am -5 pm

NREL has planned a very full day of presentations and discussions for us. Jo Ellen Nealy is lining up the program, and she’ll be faxing a preliminary agenda, along with directions from the new Denver International Airport to NREL and the Marriott (where everyone plans to stay).

I hope everyone will come to dinner Thursday night, at a famous restaurant in downtown Golden. (No-host, unless someone volunteers?) I’ve suggested to NREL staff that they join us. Let’s hope a number of them will.

(You can reach Jo Ellen at 303-275-3066, Fax 275-3097, or by email: nealyj@tcplink.nrel.gov)

 

• UFTO GROUP MEETING Friday March 10 8:30 am- 3 pm

This is our own UFTO meeting. Here are some of the topics to be covered:

• Program overview and objectives

• Member Utilities’ technology strategies

• How members are using UFTO , and what will success look like

• How/when can members support each other (and when they can’t)

• FEEDBACK — how to enhance the program, the process, the materials, etc.

• Where do we go from here:

– Scope of work for the balance of the 94-95 program and final site choices

– After September 1st ? Early thoughts — continue? modify? new subscribers?

(Gary Nakarado asked if he could sit in, so be thinking about whether or not we need part or all the time with just the UFTO group. My own view is that it could be quite helpful to have Gary present.)

 

Please, give me a call with your thoughts on the content and process for Friday’s meeting.

[Especially if you’re not coming!]

See you in Denver! EdB

** • Welcome to Sheila Snyder, Jim Marean’s replacement at NYSEG.

• Had a very productive first visit at L. Berkeley Lab, and met with rep of Pacific NW Lab.

Some really prime technology and programs for utilities! Details to follow.

• Going to Sandia and Los Alamos right after the Denver meeting.

Bulletin #5 (Feb 1, 1995)

UFTO Bulletin #5

February 1, 1995

To: UFTO Subscribers

1995 seems to be in full gear for everybody. Here’s the news from here:

1. The NREL report is enclosed! Please don’t put it on your “to read” pile. Take just a few minutes to glance through it now, and get copies made and distributed in your company. {Maybe your copy is the one with a $20 bill inside!} In light of our upcoming return visit to NREL (see next item), it’s important to be thinking about what topics you want to hear more about.

Note particularly: DU (distributed utility) — be sure your company’s DU guru sees this report!

2. At least two of you have said you want to visit NREL, and we’re looking at dates from March 1-15, or April 3-18. Since many of you have also indicated a desire to get the group together, and since Denver is a hub location, the plan is to also have an UFTO group meeting at the same time. (And maybe a side trip to go skiing?) NREL may be able to provide us a meeting room. Please fax back the attached questionnaire asap.

3. New information from LLNL — enclosed is a special bonus “UFTO Update”. Some very exciting stuff. They need our help with these programs!

4. My first visit to Lawrence Berkeley Labs is set for the second week in February. Working on dates for Sandia and PNL. I still owe you a program plan for the rest of the year.

5. Made some new inroads in DOD in the last few weeks. A contact at OTA referred me to the right place in the Pentagon, and after a very good phone call, I’m exchanging information with Dr. Lance Davis, who is Director, Office of Technology Transition, in “Research and Engineering”. He’s sending me a report on R&D in DOD. We’ll see where it all leads, but “dual use” is such a key concept these days that there ought to be some very good opportunities.

6. Storage seems to be heating up all of a sudden, or maybe I’m just noticing it. A good friend just joined B&W’s SMES program, and is working on the Anchorage project. Flywheels are continuing to make good progress at LLNL and Trinity Flywheel. And note LLNL’s Zinc battery. How many of you are in the UBG, the independent utility run battery group? I met them and the folks from the Sandia battery program at the DA/DSM meeting here in San Jose last week, along with Delco and AC Battery, who are coming on strong with a utility battery storage product, and interested in learning more about what the industry needs. Particular attention needs paying to the connection between storage and power quality, for UPS and ride-through for critical industrial loads.

Sincerely,

 

PS: •• Did NREL contact you about their internal program to develop more efficient gas jet ejectors? Any interest? •• You should start to receive two quarterly publications, Argonne’s Superconductivity Bulletin, and the NREL News, along with the NREL publications catalog. I gave them your names and addresses. •• Anybody want to hear about a Wave Energy project that just may actually work? ••

 

 

FAX to: UFTO Ed Beardsworth fax # 415-328-5675 date:___________

 

 

Subject: NREL Visit and UFTO Group meeting

 

Dear Ed:

I ____ WILL ____ WON’T join the upcoming UFTO group visit to NREL.

I ____ WILL ____ WON’T attend a UFTO group meeting in Denver.

 

Of the suggested dates, March 1-15, or April 3-18,

I CANNOT do it the following dates:

My Preferred dates would be:

 

Preferred days of the week are: ___ Mon ___ Tues ___ Wed ___ Thurs ___ Fri

 

___ Anytime is fine

 

Whether or not you’re coming, please indicate:

 

• Areas at NREL of greatest interest to my company, and that I want to hear more about:

 

• Issues, goals, agenda items for the UFTO group:

 

 

Other comments:

NREL Gas Jet Proposal (Jan 1995)

From: Edward Beardsworth
To: UFTO Subscribers
January 1995

This cover letter is to introduce the enclosed materials from the National Renewable Energy Lab (NREL).

Dr. Desikan (Des) Bharathon has been awarded internal funding at NREL for his proposal to develop efficient gas jet ejectors. He believes he can improve dramatically on the very low efficiency of commercially available units. Dr. Bharathon is looking for utility partners for this program, and I agreed to provide this cover letter and your names to him.

These devices have wide application in utility power plants and in other industries, chemical processing in particular. They use thermal energy in place of mechanical energy to compress gases. In power plants, they are used to remove noncondensible gases from steam systems.

The business terms of any arrangement between you and NREL (and perhaps a manufacturer) are completely open at this point, and could represent an important ground floor opportunity for you.

At this point you know about as much as I do about this technology, but if I can be of any assistance, please let me know.

Sincerely yours,

Edward Beardsworth

Bulletin #4 (Jan 3, 1995)

To: UFTO Subscribers

HAPPY NEW YEAR! I hope your holidays were good, and your in-basket isn’t filling up too fast. We had a great time here, and now it’s time to get UFTO back into high gear.

1. Expect to hear soon from NREL about an internal program to develop more efficient gas jet ejectors. They’re looking for partners, and I gave them your names, along with a letter of introduction.

I also gave your names to Dr. Hanafy Meleis, of the Advanced Technology Program (ATP) at NIST, and asked him to send you information about a workshop he and Dave Cain at EPRI are sponsoring January 30-31 in Atlanta on Information and Telecommunications Technology for U.S. Utilities, and open forum to discuss technical, strategic and economic issues, and needed R&D. Have a look, and see if someone from your company should be there.

2. A revised roster of subscribers is enclosed. Welcome to Bill Muston at Texas Utilities, and Daniel Madet of the R&D Division of Electricite de France (office in Palo Alto!).

3. Plans for January include:

– Writing up the full report for NREL

– On Site Briefings for several more subscriber utilities (3 of you have already completed this).

– Site visits to LBL and possibly another lab.

– Ongoing follow-up

4. If you (or anyone from your company) will be in California for EPRI meetings later this month, let’s try to get together for breakfast, lunch or dinner, and/or for visits to the various startups I’ve been telling you about.

5. By the end of February at the latest, I’d like to try to reach agreement about the scope of this year’s program, and which labs will be included in our program. I’ll propose a list in the next few weeks.

One very important question– Are we going to get together as a group, and if so, when? How does mid to late March sound? Any volunteers to host such a meeting? What are your thoughts about the program or what we’d try to accomplish? I’m sure we could get some Lab (and DOE) representatives who would welcome the opportunity to meet with us and make a presentation.

6. Do you (or someone from your company) want to pay a visit to one of the labs? We found followup visits to be very valuable. Dave Odor at PSI has already said he wants to go to NREL, perhaps in March or April. Want to join us? Let me know.

Sincerely, EdB

PS: I just signed up with a local internet provider, giving me full directaccess via Mosaic. It’s very exciting, but I can see it’s easy to spend far too much time “net-surfing”. Any of you have experience on the net? Any good sites for information on energy technology?

Selection of Labs to Visit

Rank Lab Comments
#1 NREL probably the most important place for us to go
#2 L Berkeley the second most important?
#3 Sandia good TT programs; emphasis on engineering
Los Alamos
PNL
INEL
Brookhaven
METC manages DOE fossil programs in fuel cells
PETC manages DOE fossil programs in coal
NASA Lewis extensive fuel cell, battery programs
(a DOD lab) an experimental first foray? DOD will be a whole new game.
Savannah Rvr surprising amount of things; keen interest in working with us
DOE Hdqtrs for the big picture; where the shots get called
Update/revisit Oak Ridge, Argonne, Livermore, NIST

UFTO FAXGRAM

December 12, 1994

To: UFTO Subscribers

Michael Mulcahy BECO
Rex Roehl Comm•Ed
Mary C. Starks NSP
Jim Marean NYSE&G
Betsey Krieg PG&E
Doug Boleyn PGE
Dave Odor PSI Energy
Bill Muston TU
Graham Siegel WEPCo

UFTO FAXGRAM

A quick note before the holidays…

1. One or two of you have indicated that you may not have received the November Bulletin #2, which included the Argonne and NIST reports. Please let me know immediately if you missed any of these mailings:

8/4
Welcome to UFTO
10/1
Bulletin #1, with Oak Ridge report
11/1 Bulletin #2, with Argonne and NIST reports. Also a report containing background and reference materials
12/1 Bulletin #3, with Livermore report, and notes on NREL and the DOE Fossil International program

2. Any suggestions on format and content would be most welcome. Is there anything I can do to help you manage this material and pass information along to people in your company in a truly effective way?

3. The invoice will go out this week for the 2nd installment, due January 1, to improve chances of action on it in early January.

4. Urgent Business! Let’s schedule the briefing at your company for early next year–February at the latest, OK? OK!

Have a Great Holiday and Very Very Happy New Year!!!!

EdB

Bulletin #3

December 1, 1994

From: Edward Beardsworth
To: UFTO Subscribers

Happy Holidays!–almost. Getting to be that time when you think of the year as already over, but UFTO has a very full month ahead.

1. On-site briefing and needs assessments are set at NYSEG, Boston Edison and NSP…risky places to travel to in December, but I plan to be lucky with the weather.

2. The last of the “previous reports”, Lawrence Livermore National Lab (LLNL) is enclosed. (You already have 3 reports, ORNL, NIST, and ANL.) Livermore was the first place we went. LLNL has just looked over a final draft, and helped update some of the organizational information, however the technical material is essentially as it was a year ago. LLNL will provide new information to us as it arises. Some new ideas in fuel cells and work in ground penetrating radar will be coming soon.

3 The trip to National Renewable Energy Lab (NREL) in Golden CO, November 21 and 22, was quite successful. See the attached sheet of “hot” items. The detailed report is in preparation.

4. Labs to visit: I’m making arrangements to go to LBL and Sandia. You’ve heard from ETEC outside LA, and there’s one vote for going there. How do the rest of you feel?

5. I attended a DOE meeting in San Francisco mid November. It was one of 3 “stakeholder” meetings around the country for the DOE Fossil Energy International Progam to get input on how it could best help with the export of U.S. fuels, technology and know how. Several interesting items came to light–see attachment.

6. Another connection you may want to know about, if you don’t already: E Source, Inc. is a small company in Boulder CO that spun off from the Rocky Mountain Institute several years ago. They provide excellent detailed information about efficient end-use technology. It’s a subscription/membership service, and each of your companies already belong! The contact person in your utility is most likely in your marketing group. You may see different uses and value in this data resource, e.g. to help assessing technology and developing new business strategies. To find out who the subscriber is in your company, call E Source at 303-440-8500. (Tell them I sent you.)

7. Our contacts at NIST led to an open invitation for any of us to visit the Center for Environmental Engineering at the Univ. of Maryland at College Park MD. Dr. Reinhard Radermacher, Director, sent me some information about their capabilities and expertise in energy conversion cycles, heat transfer and thermophysical properties of materials. They have a membership program as well. Their phone # is 301-405-5286.

8. FEEDBACK–please! Reactions, suggestions, criticisms, requests! Any items pique your interest? Have you tried calling anyone at a lab yet? Let me know how it goes.

9. Save-the-best-for-last department: We have verbal commitments to join from two new subscribers, Texas Utilities and Electricité de France!

National Renewable Energy Lab (NREL)

In the first official UFTO visit, I went to NREL in Golden CO on November 21 and 22, for two very full days of meetings. The full report is in preparation. Meanwhile, here are some “time-sensitive” or special items of interest:

• Distributed Utility Valuation: new two phase program in planning stage. Phase one will be a collaboration between NREL and 10-12 utilities to investigate the institutional (i.e. regulatory) issues. Funding would be 1/2 from NREL and the other half from the utilities (about $10K each). In Phase 2, contractors would work with individual utilities, so that competitive aspects can be handled separately from the (phase 1) aspects that can and should be in a more public forum. The feeling is that this cannot be an EPRI undertaking because of the regulatory aspects.
Contact Lynn Coles 303-275-4699

• Hybrid Solar Thermal — new concept to dramatically lower front end financial risk, by using solar heat as preheater for a gas turbine, instead of a dedicated steam plant. GT could be used stand-alone, and use of the solar would cut fuel consumption (reduce CO2). Looking for interested utilities or IPPs. Contact: Tom Williams 303-275-3602

• “Smartco” — brainstorming concept of the utility of the future that integrates generation, transmission with end use in a technology-based grand optimization, and combines talents in finance, marketing, and high technology. DOE seed program looking for 1-2 utilities to think it through and estimate benefits. Contact is Gary Nakarado, 303-275-3072

• Federal-Utility Partnership Program (FEMP) — Brings to a utility all the Federal government “customers” in the service territory, for concentrated effort to improve efficiency of government buildings by linking to utility DSM and energy savings programs. (Environment Act requires all Fed. buildings to increase effic. by 30% by 2005.) Utility Working Group is forming subcommittees and will hold its 3rd meeting December 6 in Atlanta (at AEE meeting). Contact is Bob Westby 303-275-6021 or Nancy Carlisle 303-275-6034. Program director in DOE is Mark Ginsberg — contact is Lou Harris at 202-586-9794.

• Biomass Power/Climate Change Action Program Item 26 — new RFP due in December for follow-ons to the 10 venture program site-specific feasibility studies done over past 2 years. New entrants welcome. Must involve a dedicated feedstock (i.e. closed loop for CO2) and generation. (Can include ethanol.) Contact is Rich Bain 303-275-2946

• Hydrogen — NREL provides technical oversight for the DOE national program. An RFP has been/will be issued for “any” H2 application. Contact Cathy Gregoire 303-275-2919

________________________________
Here’s an unusual (non-NREL) item: Dr. Tom Marrero of the University of Missouri-Columbia heads a program to develop a way to transport coal in pipelines, not as a slurry, but in compressed “logs”. It’s been under development with DOE funding for several years, and is ready for a demo! He promised to send some information which hasn’t arrived as yet, but if anyone is interested, let me know and I’ll track it down.

DOE Fossil International Program Meeting
Nov. 1994
Items of Interest

Contact Miles Greenbaum, International Programs Manager, Office of Fossil Energy, for information on their “Regional Implemenation Plans” (Africa, E. Europe, Pacific Rim, Russia/NIS, S. Asia/N East, W. Europe, and W Hemisphere). Tel # 301-903-2796

1. The Office of Fossil Energy will issue a RFI soon for Clean Coal Projects in Foreign Countries, as a means to support the goals of reducing Greenhouse Gases. (Increased efficiency leading to lower CO2 emissions.) There will be a conference in Washington on or about Dec. 14. Copies will be sent to everyone on the clean coal mailing list, but to be sure, you can contact Jerry Pell at 301-903-9447. (Note how many birds you could kill with this one stone!)

AID is already funding projects in Poland, administered by DOE, to reduce pollution from low stacks in the city of Krakow, under the Clean Energy Fuels Efficiency Program. Howard Feibus is the DOE program manager 301-903-3348.

2. As you’ve seen in the press, Secretary O’Leary has led a couple of very successful trade missions, to China, India and Pakistan. U.S. business representatives go along at their own expense, after a thorough preparation on opportunities in the target country, and come back with signed contracts for big projects! The extensive briefing materials prepared for these trips, and summaries about the results, are available (but are not “published”) from DOE. You can also get information about future trips, and how to apply to go along.
Contact Dawn Schrepel, DOE Trade Mission Coordinator, at 800-860-1097. (very sharp!)

The Dept of Commerce’s International Trade Administration also has an energy office: Andy Vitali is Director of the Office of Energy Infrastructure. tel 202-482-1466. Others in that group include Joe Yancik (Div. Director, Energy), Les Garton (renewables), and Katherine Viel (electric utilities).

Commerce also has a Trade Information Center, 800-USATRADE. They’ll connect you with country and or industry experts, and explain Federal export assistance centers.

Other resources: Overseas Private Investment Corp, and US Trade & Development Agency. Call me for details if there’s interest.

3 The U.S. Energy Association: Contact John Rasmussen, USEA, 1620 Eye St. NW, Suite 210, Washington DC, 20006, tel 202-331-0415.

The USEA is the USA’s official link to the World Energy Council, which puts on the major “World Energy Conference” every 3 years. The next WEC is in Houston in 1996, and there will be a “warmup” meeting in Houston May 8-12, 1995 on the Strategic Value of Fossil Fuels, sponsored by USEA and DOE.

Working with AID (Agency for International Development) the USEA has arranged 10 partnerships between US utilities and countries in E. Europe. (Two UFTO members are in this program, e.g. Comm•Ed with Poland, and Boston Edison with Romania.) EEI is the partner for Russia, owing to the huge size of the utility there. The issues dealt with are mostly management, efficiency of operation, finance, budgets, and business planning. [Our ANL report mentioned this program.]

4. The National Coal Council, is not the National Coal Association. It’s a non-profit that advises DOE, and has a series of publications. Contact James McAvoy, 703-527-1191

Technology Transfer Opportunities – Livermore National Laboratory

by Edward Beardsworth
Nov 1994

Summary

This report details findings about technology and technology transfer opportunities at Lawrence Livermore National Laboratory (LLNL) that might be of strategic interest to electric utilities. It is based on several visits to LLNL in 1993 as part of a project for PSI Energy, which had the additional goal to establish relationships that would enable PSI to monitor developments and gain access on an ongoing basis.

Background
Noting the tremendous scope of research underway in the research facilities of the U.S. government, and a very strong impetus on the government’s part to foster commercial partnering with industry and applications of the technology it has developed, PSI Energy supported this project to become familiar with the content and process of those programs, and to seek out opportunities for collaboration, demonstration or other forms of participation that will further the business objectives of PSI. PSI has agreed to make these results available to the participants in UFTO.

Findings
Detailed listings of LLNL people, technologies and programmatic capabilities (of relevance to utilities) were assembled in the course of the project, and are included. LLNL’s matrix organization is not easily understood, though we did begin to get a sense of it, and certainly identified the key people and groups to deal with. It was a matter of hearing similar accounts a number of times from a number of people, before one began to have confidence that an accurate picture was forming.

LLNL has a large body of work that is relevant to utilities, including storage and power conditioning (batteries and capacitors), toxics remediation, NOx reduction, modeling, hydrogen storage, sensors, materials (catalysts, coatings, insulators, thermoelectrics), etc.

Armed with a brief statement of PSI’s technical and business interests (and an understanding of generic industry interests), it was possible to sift very quickly through a large body of program information at LLNL, mostly through conversation with key contact individuals, and identify areas meriting further study. Additional information was requested for projects of particular interest.

On a practical note, it was interesting to discover that a degree of advance preparation is involved even in the practical matters of learning where facilities are located and the procedures for gaining entry (no minor matter in LLNL’s case, since it still operates as a secret weapons lab). After an actual visit, one can approach a facility with far greater ease and familiarity. Like putting names to faces, there is no substitute for seeing things for oneself.

Method of Approach
LLNL personnel repeatedly suggested that progress would be quicker with a list PSI’s specific needs/problems. LLNL could then do its own internal scan of technology resources to find a match. This certainly is a useful approach, however PSI had an additional broader mission in mind. The broader objective included a general familiarization with LLNL’s programs and the start of a fruitful ongoing set of (personal) relationships. Over time, as PSI becomes a known commodity to LLNL, one would expect LLNL to bring new opportunities to PSI’s attention.

Both the “specific needs” approach and a general awareness approach were used. The two overlap, each supporting the other. As interactions continue, each organization gains increasing awareness of the other’s methods, resources, needs and capabilities (“culture”), leading to a stronger potential for a mutually beneficial business relationship. (General Motor’s experience bears this out. See separate writeup.) No “deal” can be made without personal contact at some point, and conversation is the process by which that happens. In any case, when both parties are motivated to “do something”, the process moves with remarkably efficiency, as was the case in this study.

In particular, the “general awareness” mode identified a LLNL technology of potential interest to PSI that is just at a stage where utility interest was being sought (flywheels). In the “specific problem” mode, an unexpected match was identified between a need of PSI to find uses for glass microspheres from flyash, and LLNL’s work on hydrogen storage (itself a spin off from inertial fusion research).

To accomplish the “general awareness” goal, there is no real substitute for personal contact, visits and probing into the various programs and perceptions at a complex organization like LLNL. Published materials are likely to be out of date and certainly will not provide any of the nuance or subtlety of understanding that could eventually lead to an actual working relationship or “deal”.

The various search databases and services can only help to identify contacts for a particular, rather well-defined, question or problem. Even then, however, it is noted in a couple of test cases that neither the National Technology Transfer Center (NTTC) or the Federal Labaratory Consortium (FLC) identified LLNL’s activity in a particular area.

Business Arrangements
Livermore, as with all the federal labs, are feeling strong pressure to show results in technology transfer, to get their technology out into the marketplace and help the U.S. economy. Likewise, they are very concerned with the survival of their programs, and are anxious to obtain additional outside resources. So, while money is a concern, the motivation is not the same as a business profit motive. The primary goal is to get things used, so society benefits.

While there is a long list of mechanisms for industry-laboratory collaboration, including exchange programs, licenses, and cost-sharing, nearly all new agreements are being prepared under the provisions of CRADAs. The business arrangements possible under a CRADA are very flexible, and can accomplish most if not all of kinds of objectives. Importantly, it is only under CRADA (and directly funded “work-for-others”) that the industrial partner can gain a measure of protection for intellectual property (for up to 5 years) while gaining benefit from the government’s technical capabilities.

CRADAs can be approved more quickly if they do not involve new (i.e. unplanned) expenditure by the lab program. Generally, the concept is a 50-50 split, with each party’s contribution provided by funding, intellectual property rights, technology know-how, use of facilities, man-hours, etc. The only restriction is that government money cannot flow to the industrial partner.

Federal Policies and Programs in Flux
Federal efforts in this arena are very much in flux and the subject of considerable debate and political controversy. The future of the major labs is by no means clear or assured. A new study “Defense Conversion, Redirecting R&D” [Office of Technology Assessment May 1993] cites the continuing difficulties of intellectual property, liability, US only use, funding, and bureaucracy that bedevil the “CRADA” negotiation process, against a backdrop of major debate on the appropriate government role in fostering competitiveness and economic growth (in the context of the end of the cold war and all it implies for defense R&D). Such periods of uncertainty and transition often present big opportunities to those willing to jump in and see what can be done.

General Observations

• TECH TRANSFER is much easier to approach with specific needs/problems!!!!
The message from everyone contacted at LLNL (also a dominant theme from General Motors’ experience) is that a potential industrial partner is best served by coming forward with a statement of its own needs, problems, and goals, and a characterization of its own interests, abilities, and resources. Lab people will then get you together with the right contacts.

• Utilities could have high leverage/influence on LLNL’s ability to get the attention and funding from DOE/Fossil Energy. As a defense lab, LLNL tends not to be regarded as an likely player in fossil work, and is often prohibited by law from responding to DOE solicitations. If PSI sees work of interest at LLNL, its opinion alone would carry considerable weight.

• “TT is a contact sport” Ultimately, deals will be made between individuals, who have to first find each other. The Lab’s objectives are funding and commercial utilization, so they want real business deals to happen.

• The scale of material, technology, personnel and organizational complexity of LLNL is staggering. Over 10,000 people work there. [Note what it takes for a utility to keep up-to-date and tapped in to EPRI]

• Noteworthy that in LLNL’s case, the bulk of the core program is for weapons, isotope separation or magnetic and inertial fusion. Only a relatively small portion is “applied”. Tremendous spin-off potential, however.

• There are tremendous time lags in all aspects of the the TT process, from making first contact to signing a deal.
– Telephone tag and people’s travel schedules mean that initial contacts can take weeks to establish, and meetings can be difficult to arrange. If LLNL perceives a real opportunity, then they are likely to respond more promptly, but they seem very open and accommodating as a general rule.
– At least 4 sets of lawyers get involved in putting a deal together — DOE , U Calif, LLNL and the industrial partner. Sometimes DOE regional office at odds with headquarters. Policy subject to varying interpretations. Policies also evolving.
– DOE budget cycles delay, limit resources available for matching funds.

• If companies approach LLNL, LLNL can respond 1 on 1. If LLNL seeks partners, they must make good faith effort to make opportunity available to any/all companies in the industry.

• LLNL’s internal organization is in constant flux–responding to very real threat of extinction by trying lots of new things. New faces appear, new programs–a moving target to try to know who’s who. Roles and missions of people and offices are changing over time. There appears to be some friction between some of the new “marketers” and some technical people, although most people seem to appreciate the seriousness of the need for LLNL to change in order to survive.

• Information systems, publications, conferences and trade shows are good as hunting grounds, but the Federal R&D resource is immense. Again, having a specific need/topic/problem/question is very helpful.

• Although there is a long list of “mechanisms” for tech transfer with the labs, ranging from cost-sharing and exchange programs to licensing and “work-for-others”, most new agreements are being written as CRADAs (cooperative R&D agreements). This is the only mechanism that affords the industrial partner a degree of protection for intellectual property.

Specific LLNL Technologies Identified

[“Ref Oppty’s ” refers to LLNL publication “Opportunities for Partnership” Technology Profiles — one page write-ups on selected items.]

Batteries:
Zn-Air — [like Al-Air which was commercialized from LLNL work in 70’s (Alu-Power, NJ)]
Cheaper cycle, due to low temp reduction process. Instant refueling. Very little environmental impact of discard.

Flywheel –1, 5, 25 KWH versions. very high specific energy (100-150 kwh/kg) and high power. Conceivably could compete with Pb-Acid in $/kwh. A demo is being built at LLNL. Can tailor design for applications from railroads to UPS (uninterruptible powr supply). Better than SMES. Utility application — interest being pursued by an equipment mfg.

Li-Ion — improvement over Sony/AT&T technology (Reversible intercalation of Li in carbon anode) using foam technology get 1-1/2 times current 80-100 wh/kg. High cycle life. Utilizes aerogel carbon foam technology (see aerogels below).

Renewables:

Windpower: NDE for blade mfg; windflow modeling for siting and dispatch; flywheel storage.

Solar: advanced solar rankine cycle (MHD) very speculative

Thermoelectric Materials. Thermoelectric power generation and cooling has always been limited to very specialized applications, due to low efficiency and high cost. Very recent theoretical work (paper to be published soon) indicates the possiblity of a new class of devices based on new materials and very thin multi layers, with dramatically enhanced figures of merit that would make them competitive. At the stage of basic R&D, first application of interest is cooling of electric vehicles. LNLL has a relationship with MITand a company that is developing solid state replacements for alternators on truck diesels(which use waste exhaust heat).
Contact is Joseph Farmer 423-6574 or Jeff Wadsworth

Storage Reservoir Characterization — acoustic and seismic imaging techniques from work in geothermal applicable to CAES or gas storage? Contact is Alan Burnham. (The principal investigator is Paul Kasameyer, Earth Sciences.)

Hydrogen/fuel cells: LLNL concentrating on vehicle storage–composite materials for tanks; cryogenic carbon adsorption and glass microspheres.
Contact is Glenn Rambach 423-6208
– 10-12 years ago, they needed “perfect” glass microspheres for inertial laser fusion (fill with deuterium or tritium — tiny H-bombs when blasted with lasers). Commercial ones too irregular–sorted thru and found that only 1 in 10**13 that were good enough. (Note one of the commercial processes involves flyash in a turbulent flame.) They developed a way to make perfect ones. Now seeking to scale up the manufacturing process, to use spheres for bulk storage of H2.
– They’re in discussions with a vendor interested in a near term commercial application.
– Need to scaleup mfg. by factor of 10**12 — already accomplished 10**6.
– Still may be able to use commercial/imperfect spheres–sorting process to pick out the ones that are good enough.
– Reference: Robert Teitel, BNL Report # 51439, May 81 “Microcavity H2 Storage, Final Progress Report”. Also, there is an LLNL report on properties, manufacture and use.
– LLNL has best capability in the world to study structure/characteristics of microspheres.

Economic Modeling: Genlzd Equilibrium modeling (3rd generation) network/market model; (relaxation of Lagrange coefficients.) Want opportunity to use methods to meet a utility’s needs. (Tom Edmunds and Alan Lamont)

– National market model –policy applications — market clearing/capacity additions — with accurate detailed charactization of technologies, linked in a network model.
– Distributed Utility (DU) they contributed to PG&E DU report — their approach apparently was not adopted. They feel confident their approach would be useful to utility planners–based on idea of value/market clearing prices determining what is built and when.
– For EIA/DOE — Emission trading and natural gas models.
– META•NET is beta software “language/platform” for this kind of modeling — user’s manual provided.
– Suggest LLNL’s has special competence in sensors, data mgt, control/response moment-to-moment, that would be important in operation of DU.

Supercapacitors:

Thin-layer — < 4 µ layer dielectric – very rugged, high voltage, very high power for pulse applications and high voltage power conditioning. 0.6 wh/kg. With other materials,can go to megavolts! [ref 9-13 Opptys] This is one application of very thin film multilayer manufacturing technology.

Aerogel — (see aerogel discussion) 10**4 better! up to 40 Farads/gm,
high energy 5-10 wh/kg , power 2-20 kw/kg (contact is Jim Kaschmetter, Physics)
Uses carbon aerogel foam in thin layer as electrode in liquid electrolyte. Extremely large surface area and double layer capacitor effect. Carbon aerogel manufacture appears to be closer to practicality, as it doesn’t require non-critical extraction. Very low cost. Opens up possibilities for very low energy desalination via capacitive deionization.
[Update: Jim Kaschmetter left LLNL to form Polystor, a spinoff startup company that is commercializing this technology.]

Materials (general): Contact Alan Burnham or Jeff Wadsworth
Ceramics–non-brittle “plastic”, moldable and fracture resistant.
Blast resistant laminates
Anti-corrosion coatings; modeling of coating properties

Granular Flow Modeling
Over last 10-15 years, developed new class of modeling capability applying molecular dynamics to macroscopic materials. Otis Walton is a world expert. Lots of interest from chemical mfg, and some discussions re coal handling (need better inroads with coal/utilities).
(Potentially applicable to ground source heat pump work.)

Combustion Modeling (Charles Westbrook) work for IC engines, use of refinery gas.
Works very closely with Sandia/Livermore’s combustion group. He does chemical kinetics, toxics, Clean Air Act, etc. They do more numerical work, and have a major coal program.
– Big CRADA with auto makers, Cummins & other engine makers, Sandia and Los Alamos for modeling to reduce HC and NO emissions from engines. (Separate from post combustion NOx project).
– Haven’t had much contact with utilities–have gone to auto, oil, mfg industries first.
Putting together concept for consortium with oil companies for a “Clean Air Act Center”
– Ultra low NOX nat. gas burner subcontract to UC Irvine/Calif Instittute for Energy Efficiency.
– GRI project similar/related
– Also for GRI — Burner Engineering Research Lab at Sandia

NOx reduction: — pulsed plasma and hydrocarbon catalysis — (Henrik Wallman) CRADA with diesel mfg. -Cummins– (advantages over ammonia and urea injection) [ref 3-11 Opptys & handout] Interested in developing power plant application.

Methane-to-methanol in conjunction with power generation: (A. Burnham) once thru system for conversion, with the effluent used for power generation. Avoids expense of multi-pass and separations to utilize all the methane. Conversion takes place via pulse plasma (Henrik Wallman), or “bio-mimetic” catalysts (Bruce Watkins).

Sensors:
Electochemical [ref 9-3] measure contaminants in waste streams, monitor corrosion

Fiber Optic [ref 9-7]

Aerogels:
… “frozen smoke” lowest density solid — many remarkable properties and potential applications. very high surface area 300-1000 sq meters/gm, lowest thermal conductivity of any material. Supercritical extraction of solvents leave open-cell structures of Silicon, Carbon-based or metal oxide materials. Fabrication not cheap yet. [ref 6-5 Opptys]
Supercapacitors ( see above)
Metal Oxide catalysts [ref 6-17 Opptys]
Insulation (can be made from agar–seaweed!)
Natural Gas storage
new electrodes for fuel cells

Environment: (contact is Jesse Yow) [additional details available in “Environmental Technology Program Annual Report FY91 — UCRL-LR-105199-99]

In-Situ Remediation:

Sensors: — New class of fiber optic sensors down in a drill hole detect concentrations 1:10**6 (benzene => gasoline) and 1:10**9 (TCE). Dramatic reduction in cost to characterize/monitor an underground site in almost real time.

Underground Imaging: — Electromagnetic techniques using RF or DC current–can get 3-d images of pollutant plumes, or of the burn front of in situ coal gasification.

Spill Cleanup — Electric resistance heating and steam injection used to drive volatile compounds out of the earth, reducing time scale from 10’s -100’s of years to 10’s of months.
(Ground heating may be applicable to ground source heat pump work.)

Radiolytic Decomposition of toxic Materials (Steve Matthews)
Use of E beams, x-rays and ultraviolet ionizing radiation to break down organic materials into harmless or less toxic materials. Can be applied to vapor or liquid phase, in remediation applications or process streams.

Global Emissions / Atmospheric Release Modeling — LLNL was called upon for analysis of Chernobyl, the Kuwaiti Oil Fires, etc. Can handle accident/leak situations on any scale.

LLNL Organization

LLNL has a complex matrix organizational structure, consisting of “directorates”, or “programs” and “divisions”. The general pattern is for technical personnel to belong administratively in discipline-based divisions (physics, chemistry & material science, engineering, etc.). Most project work is organized in the programs, to which personnel are assigned and bill time, etc. There are many exceptions, however. Some projects are administered in the divisions, and a number of people “wear several hats”, reporting to different groups within LLNL at the same time. Organization charts are of little help. Key contact personnel can provide guidance about who to talk to on any given subject, though it does pay to get more than one perspective on program content and direction.

A recent reorganization is reflected in the attached organization charts.

LLNL Personnel Contacted/Identified: (general phone # 510-422-1100)

Alan Burnham 422-7304, Program Leader, Energy Technologies. is our main point of contact. He is in EMATT, in the Energy Division(see below).

Alan Bennett, 423-3330, Director, Industrial Partnerships and Commercialization.
New to LLNL inDec ’92, to handle “institutional marketing”, and to develop new business for the lab as defense/ weapons budgets shrink. [Promoted 11/94 to new position in charge of tech transfer overall.]

Technology Transfer Initiative Program (TTIP):
(This group of about 30 people has seen its role transition from initiator to production administrator. Where previously they were trying to promote tech transfer and make the connections between Lab staff and industry, they now find themselves with more than enough proposals, and responsible to oversee negotiations and contracting–more of a classic intellectual property/licensing “production” operation. They also coordinate trade show participation and visits to the lab by outsiders.)

(vacant) 423-1341, Director
Dave C. Conrad 422-7839 Acting Director. Came in Feb. 93 from weapons program to set up business procedures; took over when former director Gib Marguth left to go to Sandia Livermore.
Ann Freudendahl 422-7299

“TACTs” Technical Area Coordination Team —
This designation relates specifically to the $140 million DOE Technology Transfer Initiative, and is comprised of technical staff members secunded to review proposals and to meet with reps from other labs to do overall rankings.

Alan Burnham Energy 422-7304
Bill Robson Environment 423-7261 [Laser/Environment Program]
Jeff Wadsworth Chemistry & Materials Sci 423-2184 [Ass’t Asoc. Director]
Bart Gledhill Biotech
Mike Fluss Microelectronics

Their are also TACTs assigned for the new special DOE AMTEX program with the textile industry. (See discussion about Industry Partner Programs.)

Anthony K. (Tony) Chargin 422-5196, head of EMATT (Energy, Manufacturing and Transportation Technologies), a new program established late ’92 bridging the Energy and Engineering Directorates, now reporting directly to the Energy Division.

Alan Burnham, 422-7304, Program Leader, Energy Technologies. Point of contact for energy supply and storage. Also a member of TACT. Most of the work is in oil & gas production, espec oil shale and petroleum geology. Physical Chemist — 1/4 time doing technical work. He is also LLNL’s point of contact with Morgantown Energy Technology Center (METC), which handles DOE coal gasif. work.

Jeff Richardson, 423-5187, formerly in Chemistry & Materials Sci., is now Program Leader in EMATT for Materials Manufacturabilit
Dick Post, 422-9853, developer of Flywheel (electromechanical battery)
Henrik Wallman, 423-1522, Staff Scientist, Fossil Fuels. Has work going on in hydrocarbon catalysis and pulsed plasma — NOx reduction. Also proposing partial oxidation of methane coupled to power generation,

Tom Edmunds 422-5156 System Sciences, Engineering Research Div.
Alan Lamont 423-2575
Genlzd Equilibrium modeling (3rd generation) network/market model
Charles Westbrook 422-4108 , Physics Department, Combustion Modeling
Works very closely with Sandia/Livermore’s combustion group. He does chemical kinetics, toxics, Clean Air Act, etc. They do more numerical work, and have a major coal program.
(Sandia/Livermore Combustion Program: Don Hardesty 510-294-2321.)
Glenn Rambach 423-6208, Hydrogen/fuel cells: LLNL concentrating on vehicle storage–composite mat’ls for tanks; cryogenic carbon adsorption and glass microspheres. Also some new concepts in materials for fuel cell electrodes and electrolytes.

Chemistry & Materials Science
Jeff Wadsworth, Chemistry & Materials Sci 423-2184 [Assoc. Director] Joined LLNL in ’92 from Lockheed (metallurgy)

Jean H. dePruneda, 422-1339, [Division Leader, Chem. Sciences Div.] does internal and external networking for tech transfer–point of contact. Aerogels for catalysts, supercapacitors, insulation.

Lucy Hair, 423-7823, Point of contact for aerogel catalysts
Troy Barbee 423-7796, Point of contact for thin layer supercapacitors
Bruce Watkins Methane –> methanol conversion, biomimetic —
synthesize materials to mimic enzyme/proteins — with GRI

Steve Mayer 422-7702, Electrochemist working on Li-ion battery. (Reversible intercalation of Li in carbon anode. Rick Pekala is materials person 422-0152) He is on DOE Utility storage group. Sees utility applications for supercapacitors for Power conditioning, motor starting, etc.
These two people are also the developers of the aerogel supercapacitor.

Laser Program
Ralph Jacobs 424-4545, Director, New Technology Initiatives, Laser Program, (also microelectronics) Focused on laser isotope separation, advanced chemical processing
Bill Robson 423-7261 Environment TACT, industry partnering for Environ Protection Program,
Don Prosnitz 422-7504 contact for emission monitoring
Booth Myers 422-7537 Sr. Scientist, Isotope enrichment (gadolinium for LWR control rods), waste processing/incinerator replacement
Steve Matthews 423-3052, Environmental Protection Dept / E-Beam, LLNL’s own site remediation, and some research. (This group is not in the Laser Program).

Physics and Space Sciences Directorate
Steve Hadley 423-2424 (Assistant Assoc Director for Tech Transfer) Point of contact for Industry partnering. Joined LLNL 11/92 from Aerospace industry. Notes that Physics at LLNL is focused heavily in weapons/SDI related work and basic research. Can also look in other departments (lasers, chem & materials) for items that one might expect to see under physics.

Environmental Programs Directorate (created in a recent reorganization, combining several related functions from other areas. Acting Director is Jay Davis.)
Jesse Yow 422-3521 Deals with wide range of environmental technologies, especially in-situ monitoring and remediation.

Information Source Contacts / Technical Information Services:

Public relations. General # is 422-4599
Marybeth Acuff 423-4432 knowledgable contact.
Loren Devor, Technical Info. Dept. (liaison to Directors Office) 422-0855
She handles corporate publications/ mailing lists;
Energy & Technology Review (monthly magazine), and the 5 yr. Institutional Plan

Research Library (for internal lab use–but individuals seem willing to help over the phone)
Circulation Desk /general # 422-5277 — Betty Herrick is Ass’t Group Leader
– There’s an on line database avail to employees and contractors only of their card catalog/holdings, also to the entire U.C. system (Univ. Calif)
– New LLNL reports list published monthly is for internal use only.
Howard Lentzner 422-5838 — Research Librarian (chemist by training)
– They can help outsiders for pay–complicated administratively. Can help gratis on quick items. Better to get copies of lab reports thru NTIS or directly from the researcher.
– Everything is in DOE databases, on Dialog and other services.