US Participation in the ITER Test Blanket Module Program For a few million dollar expenditure on test blanket modules, we will acquire vital.
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Transcript US Participation in the ITER Test Blanket Module Program For a few million dollar expenditure on test blanket modules, we will acquire vital.
US Participation in the
ITER Test Blanket Module Program
For a few million dollar expenditure on test blanket modules, we
will acquire vital data and develop critical technologies
- an excellent return on the billions of dollars invested in ITER.
US Chamber Technology Community Representatives:
M. Abdou (UCLA), C. Wong (GA), D. Sze (UCSD),
A. Ying (UCLA), M. Sawan (Univ. of Wisconsin),
N. Morley (UCLA), S. Willms (LANL), R. Nygren
(SNL), B. Merrill (INEEL), B. Nelson (ORNL)
Presented at US ITER Forum May 8, 2003
What is the ITER Test Blanket Module Program?
• The ITER Basic Device has shielding, but no breeding blanket
• Breeding Blankets will be tested in ITER, starting on Day One, by
inserting Test Blanket Modules (TBM) in specially designed ports
• Each TBM will have its own dedicated systems for tritium recovery
and processing, heat extraction, etc. Each TBM will also need new
diagnostics for the nuclear-electromagnetic environment
• Each ITER Party is allocated limited space for testing two TBM’s
• ITER’s construction plan includes specifications for TBM’s
because of impacts on space, vacuum vessel, remote maintenance,
ancillary equipment, safety, availability, etc.
Testing tritium breeding blankets has always been
and remains a principal objective of ITER.
Objectives of the Test Program
1) First integrated experimental demonstration of the
principles of tritium self-sufficiency
2) Breeding technology for producing the tritium necessary
for extended operation of ITER
3) Critical experimental data on the feasibility, constraints,
and potential of the DT cycle for fusion systems
(including conducting shells, passive coils, coatings/thick armors/FW for
improving plasma physics performance)
Tritium supply and self-sufficiency are as critical to
fusion energy as demonstrating a burning plasma.
They are “Go-No Go” Issues for Fusion:
– There is no practical external source of tritium for
fusion energy development beyond a few months of DT
plasma operation in an ITER-like device.
– There is NOT a single experiment yet in the fusion
environment to show that the DT fusion fuel cycle is
viable.
ITER has now set the schedule for development
and this development must start immediately.
Tritium Consumption and Production
Fusion Consumption
• Huge, Unprecedented
55.8 kg per 1000MW
fusion power per year
Production & Cost
• CANDU Reactors: 27 kg over 40 years, $30M/kg (current)
• Fission Reactors: few kg per year, $200M/kg!! (projected cost
after Canadian tritium is gone) It takes tens of fission reactors
to supply one fusion reactor.
Conclusions
• ITER’s extended phase requires tritium breeding.
• Large power DT facilities must breed their own tritium.
World Tritium Supply Would be Exhausted by 2025
if ITER Were to Run at 1000MW and 10% Availability
(OR at 500 MW and 20% availability)
Projected Ontario (OPG) Tritium
Inventory (kg)
30
25
CANDU Supply
20
w/o Fusion
15
1000 MW Fusion,
10% Avail, TBR 0.0
10
ITER-FEAT
(2004 start)
5
0
1995
2000
2005
2010
2015
2020
Year
2025
2030
2035
2040
2045
Why should the US have an ITER TBM?
• Test critical technologies for any further US development of
fusion (CTF, DEMO, DT alternates, power plants)
• Evaluate the viability of DT cycle (plasma-blanket
interactions, material combinations, configurations, high
temperature heat extraction, etc.)
• Access R&D information from much larger blanket programs
(EU and Japan) and other international partners
• To build US knowledge, experience, and competence in
fusion nuclear and tritium technologies needed to develop
practical and safe DT fusion devices
(Building competence takes decades)
ITER Operational Plan Calls for Testing Breeding
Blankets from Day 1 of Operation
(Initial tests without neutrons: effects of ferritic steel, LM MHD
and hydraulic tests, etc.)
H-Plasma Phase
Phase
D
First DT plasma phase
Accumulated
fluence =
0.09
MWa/m2
Blanket
Test
TBM Roll Back from ITER 1st Plasma
Shows R&D must be accelerated now for TBM Selection in
EU schedule for Helium-Cooled
Pebble Bed TBM (1 of 4 TBMs Planned)
02
03
04
05
06
07
08
09
2005
ITER First Plasma
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
H C P B P ro g ra m m e
P B M a te ria l F a b ric a tio n a n d
C h a r. (m e c h ., c h e m , e tc )
O u t-o f-p ile p e b b le b e d
e xp e rim e n ts
P e b b le b e d Irra d ia tio n
P ro g ra m m e
M o d e llin g o n P e b b le b e d s
in c lu d in g irra d ia tio n e ffe c ts
K e y is s u e s o f B la n k e t
S tru c tu re F a b r. T e c h .
H C P B P ro g ra m m e fo r IT E R
D e ve lo p . a n d te s tin g o f
in s tru m e n ta tio n fo r T B M
D e ve lo p . a n d te s tin g o f
c o m p o n e n ts o f E xt. L o o p s
T B M a n d E xt. L o o p M o c k -u p
D e s ig n
T B M a n d E xt. L o o p s M o c k -u p
F a b ric a tio n
O p e ra tio n o f T B M a n d E xt.
L o o p M o c k -u p s
a final decision on blanket test
modules selection by 2005 in order
to initiate design, fabrication and
out-of-pile testing
F in a l D e s ig n o f T B M
F a b ric a tio n a n d q u a lific a tio n o f
T B M a n d E xt. L o o p s
O p e ra tio n in th e B a s ic
P e rfo rm a n c e P h a s e o f IT E R
(Reference: S. Malang, L.V. Boccaccini, ANNEX 2, "EFDA Technology Workprogramme 2002 Field: Tritium
Breeding and Materials 2002 activities- Task Area: Breeding Blanket (HCPB), Sep. 2000)
What must the US do NOW in the TBM Program?
• Evaluate and select TWO blanket concepts for testing in ITER
by 2005. Form a team of experts (Chamber Tech., Tritium,
Safety, Materials, PFC, and Plasma Physics Programs).
• Perform concurrent R&D on a few critical issues needed for
prudent decisions (e.g. MHD insulators, tritium permeation
barriers, material interactions and thermomechanics).
• Interact with international partners and refocus some existing
international collaborations to emphasize ITER TBM.
• Join the ITER TBWG (Test Blanket Working Group) and
ensure ITER plans do not exclude US-favored TBM concepts.