Exploring Magnetically Confined Burning Plasmas in the Laboratory AAAS Annual Meeting Ned Sauthoff...
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![Page 1: Exploring Magnetically Confined Burning Plasmas in the Laboratory AAAS Annual Meeting Ned Sauthoff February 18, 2005 “Yearn to burn” “Burn to learn” Marshall.](https://reader030.fdocuments.net/reader030/viewer/2022032607/56649ed05503460f94bdea8f/html5/thumbnails/1.jpg)
Exploring Magnetically Confined Burning Plasmas in the Laboratory
AAAS Annual Meeting
Ned Sauthoff
February 18, 2005
“Yearn to burn”“Burn to learn”
Marshall N. Rosenbluth
![Page 2: Exploring Magnetically Confined Burning Plasmas in the Laboratory AAAS Annual Meeting Ned Sauthoff February 18, 2005 “Yearn to burn” “Burn to learn” Marshall.](https://reader030.fdocuments.net/reader030/viewer/2022032607/56649ed05503460f94bdea8f/html5/thumbnails/2.jpg)
Roadmap…
Promise: Scientific Benefits and Energy Potential
Prognosis: Scientific and Technological Readiness
Process: Approaches to the Study of Burning Plasmas
Prospects: Technical and Organizational Outlooks
Promise: Scientific Benefits and Energy Potential
![Page 3: Exploring Magnetically Confined Burning Plasmas in the Laboratory AAAS Annual Meeting Ned Sauthoff February 18, 2005 “Yearn to burn” “Burn to learn” Marshall.](https://reader030.fdocuments.net/reader030/viewer/2022032607/56649ed05503460f94bdea8f/html5/thumbnails/3.jpg)
Plasmaself-heating
D+ + T+ 4He++ (3.5 MeV) + n0 (14.1 MeV)
Key Science Topics of Burning Plasmas:
– Self-heating and self-organization
– Energetic Particles
– Size-scaling
3.5 MeV 14.1 MeV
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Roadmap…
Promise: Scientific Benefits and Energy Potential
Prognosis: Scientific and Technological Readiness
Process: Approaches to the Study of Burning Plasmas
Prospects: Technical and Organizational Outlooks
![Page 5: Exploring Magnetically Confined Burning Plasmas in the Laboratory AAAS Annual Meeting Ned Sauthoff February 18, 2005 “Yearn to burn” “Burn to learn” Marshall.](https://reader030.fdocuments.net/reader030/viewer/2022032607/56649ed05503460f94bdea8f/html5/thumbnails/5.jpg)
Snowmass Summer Study7/2002
Earlierwork
FESACBurning Plasma Panel9/2001
The path to the US decision on Burning Plasmas and participation in ITER negotiations
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Snowmass identified issues and assessed burning plasma experiments
Physics-focus now;Integration later
FIRE IGNITOR
Early sci/tech integration
ITER
BP contributions to ICCs
Physics
Experimental Approach and Objectives
Technology
Argue for scientific and technological benefits of approaches
Identify key scientific, technological, and path issuesDetermine assessment criteriaPerform uniform assessments of approaches
Assess benefits of a tokamak
BPX to ICC path
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The overwhelming consensus:
• burning plasmas are opportunities ripe for exploration and discovery
• tokamaks are ready to proceed to the burning plasma stage
• the commonality of physics and technology would allow other toroidal configurations to benefit from a burning tokamak plasma
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The Tokamak is Ready for a Burning Plasma Test
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Roadmap…
Promise: Scientific Benefits and Energy Potential
Prognosis: Scientific and Technological Readiness
Process: Approaches to the Study of Burning Plasmas
Prospects: Technical and Organizational Outlooks
![Page 10: Exploring Magnetically Confined Burning Plasmas in the Laboratory AAAS Annual Meeting Ned Sauthoff February 18, 2005 “Yearn to burn” “Burn to learn” Marshall.](https://reader030.fdocuments.net/reader030/viewer/2022032607/56649ed05503460f94bdea8f/html5/thumbnails/10.jpg)
Assessment of contributions of the options
• IGNITOR, FIRE, and ITER would enable studies of the physics of burning plasma, advance fusion technology, and contribute to the development of fusion energy.
• The contributions of the three approaches would differ considerably.
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The path to the US decision on Burning Plasmas and participation in ITER negotiations
Snowmass Summer Study7/2002
FESAC2/2002-9/2002
NRC12/2002 - 2003
Earlierwork
FESACBurning Plasma Panel9/2001
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NRC: “Burning Plasma: Bringing a Star to Earth”
• “The United States should participate in ITER. If an international agreement to build ITER is reached, fulfilling the U.S. commitment should be the top priority in a balanced fusion science program.”
• “The United States should pursue an appropriate level of involvement in ITER, which at a minimum would guarantee access to all data from ITER, the right to propose and carry out experiments, and a role in producing the high-technology components of the facility consistent with the size of the U.S. contribution to the program.”
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Snowmass Summer Study7/2002
FESAC2/2002-9/2002
NRC12/2002 - 2003
DOEOMBOSTP
Earlierwork
FESACBurning Plasma Panel9/2001
DOE/SC Cost Assessment11/2002
White House1/2003
Congress
The path to the US decision on Burning Plasmas and participation in ITER negotiations
![Page 14: Exploring Magnetically Confined Burning Plasmas in the Laboratory AAAS Annual Meeting Ned Sauthoff February 18, 2005 “Yearn to burn” “Burn to learn” Marshall.](https://reader030.fdocuments.net/reader030/viewer/2022032607/56649ed05503460f94bdea8f/html5/thumbnails/14.jpg)
US decision on joining ITER Negotiations (1/30/03 )
“Now is the time to expand our scope and embrace international efforts to realize the promise of fusion energy.
Now it is time to take the next step on the way to having fusion deliver electricity to the grid.
The President has decided to take that step.
Therefore, I am pleased to announce today, that President Bush has decided that the United States will join the international negotiations on ITER.”
(Energy Secretary Abraham at PPPL)
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International Thermonuclear Experimental Reactor (ITER)
Mission:
To Demonstrate the Scientific and TechnologicalFeasibility of Fusion Energy
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ITER integrates science and long-pulse technology for the study of sustained burning
plasmasCentral Solenoid
Toroidal Field Coil
Poloidal Field Coil
Blanket Module
Port Plug
Cryostat
Divertor
Vacuum Vessel
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Central Solenoid Model Coil
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
Radius 3.5 mHeight 2.8m
Bmax=13 TW = 640 MJ0.6 T/sec
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H. Tsuji et al. /Fusion Engineering and Design 55 (2001)
Insert / Outer Module Inner Module
Insert Coil
13.6 tons 6.6 tons 4.2 tons 0.8 tonsJA EU US RF
Winding
Cabling
Strand
Jacketing
Reacting
Testing
International Fabrication of the Central Solenoid Model Coil
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Toroidal Field Model Coil
Height 4 mWidth 3 mBmax=7.8 TImax = 80kA
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
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Vacuum Vessel and Shield/Blanket Modules
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Blanket Module
HIP Joining TechSize : 1.6 m x 0.93 m x 0.35 m
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
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Remote Maintenance of Blanket
4 t Blanket SectorAttachment Tolerance ± 0.25 mm
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
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Divertor Cassette
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
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Remote Maintenance of Divertor Cassette
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
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Vacuum Vessel Sector
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
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Heat Flux >15 MW/m2, CFC/W
R&D Activities completed by July 2001.
REMOTE MAINTENANCE OF DIVERTOR CASSETTE
Attachment Tolerance ± 2 mm
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
DIVERTOR CASSETTE
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
4 t Blanket SectorAttachment Tolerance ± 0.25 mm
REMOTE MAINTENANCE OF BLANKET ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
HIP Joining TechSize : 1.6 m x 0.93 m x 0.35 m
BLANKET MODULE ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
Double-Wall, Tolerance ±5 mm
VACUUM VESSEL SECTOR
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
Height 4 mWidth 3 mBmax=7.8 TImax = 80kA
ÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
TOROIDAL FIELD MODEL COIL
CENTRAL SOLENOID MODEL COILÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅöÅö
Radius 3.5 mHeight 2.8m
Bmax=13 TW = 640 MJ0.6 T/sec
ITER Technology was developed during the EDA
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Instrumentation is key to science on ITER
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Roadmap…
Promise: Scientific Benefits and Energy Potential
Prognosis: Scientific and Technological Readiness
Process: Approaches to the Study of Burning Plasmas
Prospects: Technical and Organizational Outlooks
![Page 29: Exploring Magnetically Confined Burning Plasmas in the Laboratory AAAS Annual Meeting Ned Sauthoff February 18, 2005 “Yearn to burn” “Burn to learn” Marshall.](https://reader030.fdocuments.net/reader030/viewer/2022032607/56649ed05503460f94bdea8f/html5/thumbnails/29.jpg)
Allocation of responsibilities for in-kind contributions was achieved
44% of ICRH antenna + all transmission lines,RF-sources, and power supplies
Start-up gyrotrons, all transmission lines and power supplies
15% of port-based diagnostic packages
4 of 7 Central Solenoid Modules
Steady-state power supplies
Cooling for divertor, vacuum vessel, …
Baffle (Module 18)
pellet injector Tokamak exhaust processing system
Roughing pumps, standard components
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Site Selection Sequence/Schedule
Canada(Clarington)
Japan(Rokkasho)
France(Cadarache)
Spain(Vandellòs)
EU site(Cadarache)
Nov 26, 2003
withdrew
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Scientific and technological work continues
• Despite the lack of site-decision, technical work continues – completing R&D and design on in-kind contributions– Manufacturing studies and vendor qualification
• The International Tokamak Physics Activity is identifying and addressing key scientific questions that relate to the performance of burning plasmas– Supporting the design activity– Leading to more effective research on ITER by
• Improving understanding• Discovering new integrated scenarios to exploit understanding• Building integrated tools and simulations• Developing a strong work-force• Integrating international topical teams as precursors for ITER’s
research operations
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Following the site-decision, innovative arrangements will be needed
• Procurement systems, including in-kind contributions and change management
• Resource management, with most funds remaining in the parties
• Staffing by secondees, direct employees of the international organization, and contracts
• Engaging the world’s industrial base for roles in management, fabrication, assembly/installation, and operations
• Engaging the worldwide fusion research community to see ITER as an opportunity
• Effective distributed project management the integrates the activities of the parties
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Conceptual Management Structure
Supporting Services
Support for Project Management, Computer Network Technical works, etc.
ILE
Central Team
Field TeamField Team Field Team
Council
Science andTechnology
Advisory Committee
ManagementAdvisory
Committee
Director-General(DG)
Auditors
ILE Staff (professionals + support staff)
DomesticAgency
DomesticAgency
DomesticAgency
Contracts
for construction phase
Host country
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The Bottom Line….
• Scientific and technological assessments have affirmed – the significance of burning plasma
science
– the readiness of the tokamak as a vehicle for the study of toroidal magnetically-confined self-heated plasmas.
• The world fusion community is striving to start the construction to enable burning plasma research.
• The continuing development of organizational arrangements is challenging and may be useful to other areas of science.