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Update on IFE Target Fabrication and Injection
Activities
Presented by Dan Goodin atthe ARIES Project Meeting
January 10-11, 2002
UCSDSan Diego, California
Target fabrication critical issues1) Ability to fabricate target capsules & hohlraums2) Ability to fabricate them economically3) Ability to fabricate, assemble, fill and layer at required
rates
Power plant studies have concluded that $0.25 targets are needed - reduced from ~$2500 each for current targets
“Critical issues” for targets are being addressed
Target injection critical issues4) Withstand acceleration during injection5) Survive thermal environment6) Accuracy and repeatability, tracking
NRL RadiationPreheat Target
LLNL Close-Coupled HI Target
.... We are addressing issues for both laser and heavy-ion driven IFE targets
“Baseline” targets
A detailed experimental plan for target injection has been prepared - and is being carried out
Held FDR on 11/16/01 Completed structural design for Bldg. 22 injector site - bids due 1/16/02 (GA funded) Setup single-shot and single-axis tracking (plus timing) this CY
Electromagnetic accelerator Evaluating as a backup to the gas-gun linear induction motor with Al sabot as armature; completed model analysis with simple experimental
verification
Illustration of IFE Experimental Target Injection and Tracking System in GA’s Bldg. 22
Design of the target injection and tracking experimental demonstration equipment was completed
Injection System procurement is underway
Position Verification
Detectors
Target Position
Detectors
Sabot Deflector
TurboPumps
VacuumExpansion
Tanks
Gun Barrel
TargetCatcher
RevolverChamber
Phased procurement approach - beginning with component verification testing single-shot w/ tracking at one detector then full single-axis tracking with timing
US/Japan workshop on target fabrication and injection Held December 3-4, 2001 at GA
- About 20 participants from ILE/Osaka, Nagoya Univ., Ibaraki Univ. Gifu Univ., UCSD, LANL, Schafer, GA
Purpose = allow specialists in the areas of IFE target fabrication, injection, and tracking to exchange detailed technical information specific to their work
A CD with all information and all viewgraphs is being prepared for distribution (also will be on the ARIES website)
US/Japan target workshop summary & action itemsThis workshop has been very useful to allow specialists to exchange detailed technical information specific to their work. To make it even more useful, we should continue with collaborations valuable to the programs of both countries - future actions are:
1) Continued workshops on an annual basis November 2002 in San Diego, ~ 1 week workshop in US to include small-group brainstorming sessions
to focus on specific problems of each participant Action = Dr. Norimatsu to finalize date, attendees, and Japanese topics by 8/02, Dan Goodin to finalie
US topics by 8/02
2) Personnel exchanges
Year 1 - US person visit ILE target fab labs (3-4 week working assignment) Action = Dan Goodin to propose traveler, dates, and topic to Dr. Norimatsu by 3/02
Year 2 - Japan person to work with target injector at GA Action = Dr. Norimatsu to propose traveler by 3/03
3) Japan to send samples to US for characterization (e.g., transparent shells) Action = Abbas Nikroo to identify desired samples by 1/02
4) US provide characterization of samples (e.g., spheremapper, wallmapper) Action = Dr. Norimatsu to provide samples and requested analyses by 1/02
5) Collaborate on a “Moore’s Law for Targets” publication Action = Dan Goodin to identify schedule for publication by 1/02 and provide outline by 2/02
.... The Japanese are “natural partners” for the US target technology development program
Target technology development work is continuing in CY02 under OFES and HAPL….
Work with HIF target designers to simplify materials
Fabricate special low-density materials for HIF targets
Procure specific injection equipment for hohlraums
Optimize fluidized bed GDP coating conditions
Conduct experiments to produce IFE size shells by microencapsulation
Optimize high-Z coatings for radiation preheat target
Develop methods and characterize foam shells for diameter, sphericity, concentricity, wall thickness, avg foam density, areal density, overcoat surface finish & permeability
Design experiment to demonstrate cryogenic hydrogen layering
Conduct chemical engineering analysis of TFF with goal of cost-estimate
•Target fabrication activities
•Target injection activities Install single-shot, single-axis target injection system Model thermal and mechanical response of target during injection (with UCSD) Conduct experiment to measure the thermal response of DT when exposed to a rapid heat
flux (at LANL)