Possible Strategies for a Broadened Fast Track Approach to Fusion Energy Dale Meade Princeton Plasma Physics laboratory Symposium on Fusion Engineering Knoxville, TN September 28, 2005
The Most Frequently Asked Questions Q - When will we get fusion energy? A - 35 years to a non commercial DEMO Q - Why is something so important taking so long? A - Tougher than we thought, not enough money, various excuses. End of Conversation
EU Fast Track Strategy In response to criticism from various European scientists that fusion would take 50 years, and the “87 questions from the Bundestag”, the EU initiated a study in 2001 led by Sir David King. Bottom Line - 35 years to a non commercial DEMO References: Fire Fusion Library Accelerated Development of Fusion Power, I Cook, N Taylor, D Ward, L Baker, T Hender, UKAEA FUS 521 EURATOM/UKAEA Fusion, Feb 2005, D. Maisonnier ISFNT 2005 Excerpts from Cris Lewellyn Smith’s IAEA 2004 Talk, and US visit in 2005
C. Lewellyn Smith IAEA 2004 EU Fast Track Strategy
2. JA / EU roadmap to Fusion DEMO Decomi ssioning Construction Development of breeding blanket Fusion material development (inc. IFMIF) Achieve Q=20, 400s Achieve Q~5 steady-state operation Proof of principle of breeding blanket Confirm physics database Confirm material database DEMO physics input for starting EDA construction power production Grid connection licencing 2005 FY ITER program Satelite Tokamaks And other devices Fusion technology development DEMO Basic performance phase Decision of construction JT-60 and JET 2030 Performance extension phase Test of breeding blanket Coordination of DEMO physics and tech. R&D CDA-like EDA/R&D Concept exploration - 3 -
US 35 Year Plan Requested by DOE to bolster case for US joining ITER negotiations. 35 years to first electricity production using MFE or IFE Report generally characterized as DOA in Washington
Official Plans are Really “Slow track” Its been 30 years to DEMO for 55 years. Twenty years since the start of ITER discussions, and construction has not yet started. As a result fusion gets one paragraph in serious books or article about future energy sources. We used to have more ambitious plans 1976 Plan 1980 MFE act Mid 80s Plans e.g., Technical Planning Activity
1976 US Plan for Fusion Logic V became the basis for the MFE Act of The US Fusion Program evolved from Logic IV to Logic I - we never get there. Fusion Power by Magnetic Fusion Program Plan July 1976 ERDA – 76/110/1 Base program only
The Magnetic Fusion Engineering Act of 1980 Operation of Fusion Engineering Device (burning plasma and tests of components for engineering purposes) by 1990 ( 9 years) Operation of Fusion DEMO by prototype energy (electricity production) system of sufficient size to provide safety, availability and ready extrapolation to commercial size, need not be economically competitive with then existing energy sources. (19 years) Budget (relative to October 7, start of FY 1981): % % double budget within 7 years without inflation. - How did we do relative to this plan?
Comparison of MFE Act with Actual Budget/Progress The FED (burning plasma and technology tests) should have been done by end of 2001 according to the actual money spent on MFE). DEMO FED
External Conditions are Changing Concerns about energy supplies have risen to awareness levels not seen since the mid 1970s. oil reserves growing demand global climate change Manhattan Project for Alternate Energy- T. Freidman NY Times Sep-05 Fusion is seldom mentioned as an important part of the solution except near the end of this century - by then other energy sources will have filled the gap. If a second energy crisis appears, we should be ready. Fusion was able to catch the wave with the 1970’s Energy Crisis because“ we” were ready.
How fast could we find out if fusion energy is a possibility? Change the goal from DEMO date to a Proof of Fusion date. Did we establish the scientific feasibility of fusion or is it yet to be done?? What are the two or three key issues that if settled would convince decision makers that fusion energy was credible? How fast could these be addressed? What could fusion do in a decade? Is a totally new paradigm needed? non-government involvement a new community approach We should know the answer these questions!!!!
The Fusion in a Decade Challenge What could be done in the next decade to increase the credibility of fusion? Make no little plans; they have no magic to stir men's blood and probably themselves will not be realized. D. Burnham, architect J. Sethian 2003
Some Possibilities Operation of Fusion Engineering Device (burning plasma and tests of components for engineering purposes) within a decade Advanced FIRE described yesterday is an example other tokamak based systems ICF already has NIF delivering a burning plasma within 5 years.
ITER and FIRE would provide a strong basis for Adv. DEMO FIREARIES-RS ITER FIREARIES-RS Fusion Gain10(H), 5(AT) 25 (AT) Fusion Power (MW) Power Density(MWm -3 ) Wall Loading n (MWm -2 ) Pulse Duration (s) ( CR, % equilibrated) , 86 - >99.9% , 86 - >99% 20,000,000 steady Mass of Fusion Core (tonnes)23,0001,40013,000
High Power Density P f /V~ 6 MWm -3 p ~10 atm n ≈ 4 MWm -2 High Gain Q ~ n E T ~ 6x10 21 m -3 skeV P /P heat = f ≈ 90% Low rotation Steady-State ~ 90% Bootstrap ARIES Studies have Defined the Critical Plasma and Technology Issues for Fusion Energy Plasma Exhaust P heat /R x ~ 100MW/m Helium Pumping Tritium Retention Plasma Control Fueling Current Drive RWM Stabilization Significant advances are needed in each area. Metrics are needed in each area to measure progress.
Fusion Needs Metrics to Measure Progress need to be understandable need several metrics for each major issue track progress against plan Some examples - Fusion Power or Fusion Energy/pulse vs year Lawson, B E pressure, (which one ? Plasma , fusion pulse length s, time constants Power densities - plasma, wall, blanket, etc
I want you to get on with fusion, Uncle Sam’s Thoughts on the Fast Track and make a major step forward within a decade.