Сrcd nsc kipt difis 2.0 – 3d finite element neutron kinetic code a.i. zhukov and a.m. abdullayev...
DESCRIPTION
СRCD NSC KIPT Background Westinghouse PHOENIX-H code (XS) Westinghouse Advanced Nodal Code (ANC-H) Westinghouse 1D-3D neutron kinetic code TWINKLE (for PWR square FA lattice) DiFis 1.0 – 3D FE steady-state code FE methodologyTRANSCRIPT
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СRCD NSC KIPT
DiFis 2.0 – 3D Finite Element Neutron Kinetic Code
A.I. Zhukov and A.M. Abdullayev
NSC Kharkov Institute of Physics and Technology
September 24 - 28, 2007 Yalta, Ukraine
17th AER Symposium on VVER Reactor Physics and Reactor Safety
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СRCD NSC KIPT
Objective
Existing 1D kinetic codes too conservativeSNRCU intend to require 3D analysis for accidents with reactivity insertion (Control Rod Eject Accident and others)
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СRCD NSC KIPT
Background
Westinghouse PHOENIX-H code (XS)Westinghouse Advanced Nodal Code (ANC-H)Westinghouse 1D-3D neutron kinetic code TWINKLE (for PWR square FA lattice)DiFis 1.0 – 3D FE steady-state codeFE methodology
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СRCD NSC KIPT
Nuclear Model2 group approximation
111111
1 QDtv ra
6
12221111 1
iiiff CIQ
iiffii C
dtdC 222111
222222
2 QDtv a
12 rQ
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СRCD NSC KIPT
Thermal Hydraulic Model
for fuel, gap, cladding
for coolant
Average Fuel Rod (one per assembly)
qdivth
j
jdivqtp
zhG
th
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СRCD NSC KIPT
Feedback Models
•PHOENIX-H provides all XS with feedback
•Moderator density correction includes:a.Diffusion coefficient correction
b.Moderator absorption correction
c.Boron concentration correction
d.Spectrum correction•Fuel temperature correction
•Xe, Sm, Pm correction
•Control Rod correction
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СRCD NSC KIPT
Finite Element Technique - 1
Set of simplex-functions
Set of linear functions
Expansion of fluxes into series over linear functions
yxj ,
zj
j
jj zyxFtzyx ,,,,
zyxzyxF jjj ,,,
1
5
6
4
2
3
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СRCD NSC KIPT
Finite Element Technique - 2
or
Weighted Residual Equations
dVFQ
dVFDtv
j
jra
1
11111
1
kjkkjkkjk QSLT 111 ˆˆˆ
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СRCD NSC KIPT
Finite Element Technique - 3
1
6
2
3
4 5
1
6
2
3
4 5
7
8
910
1112
1314
15
16
17
18 19
20 21
22 23
24
1
6
43
2
3
4 5
7
8
910
1112
1314
15
16
17
18 19
20 21
22 23
24
26
27
28
25
2930
3132
3334
3536
3738
39
40
42
41
44 45 52 53
54
46 47
48 49
50 51
1
5
6
4
2
3
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СRCD NSC KIPT
Finite Element Technique - 4
Fuel Rod
NormallyFuel – 7 zonesGap – 2 zonesClad – 5 zonesAxial – 24 zones
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СRCD NSC KIPT
Code capabilities
•Core Power vs. time
•Spatial and time power distribution
•Spatial and time temperature distribution in
fuel, cladding and coolant
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СRCD NSC KIPT
Example of Steady-State Calculations
EOCRelative FA PowerANCDiFis-ANC
Max Err = 4.0%Rms Err = 1.6%
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СRCD NSC KIPT
Example of Transient Calculations - 1
Control Rod Eject Accident
Timeline
0 s 0.1 s 0.4 s 3.0 s
start finish all banks start to drop finish
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СRCD NSC KIPT
Example of Transient Calculations - 2Rod Cluster Worth 0.18%
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
0 0.5 1 1.5 2 2.5 3 3.5
time, s
Cor
e P
ower
Doppler onlyAll Banks drop
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СRCD NSC KIPT
Example of Transient Calculations - 3
Doppler only
FA under ejected RCCA
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СRCD NSC KIPT
Example of Transient Calculations - 4
All Banks drop
FA under ejected RCCA
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СRCD NSC KIPT
Example of Transient Calculations - 5
Doppler only
FA under ejected RCCA
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СRCD NSC KIPT
Example of Transient Calculations - 6
All Banks drop
FA under ejected RCCA
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СRCD NSC KIPT
Summary
1. DiFis 2.0 compatible with well-known codes such as PHOENIX-H and ANC-H
2. DiFis 2.0 provides accuracy ~4% (in compare with ANC) for steady-state calculations
3. DiFis 2.0 justification and benchmarking to be continued