improvements in modelling of hts - eventos fct/unl...disk hts, 2 – inductor coil diameter of hts...
TRANSCRIPT
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Kurbatova Ekaterina
National Research University
“Moscow Power Engineering Institute”
O4-14
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Introduction
Model of HTS properties with transport currents and magnetization
Distribution of electromagnetic field sources in HTS
Comparison of calculation results with experiments
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Calculations of HTS bearings with small gaps show, that there are difference between experiments and calculations using critical-state models.
The critical state models do not describe the partial Meissner effect at FC modes.
It is proposed to expand existing models of HTS properties with the addition type of electromagnetic field source.
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m
iM=i
For ideal superconductor:
B=B0=µ0(M+H)=const
M=B0 /µ0 -H
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( ) ( ) ( ) maxρ( , , ) 0.5ρ 1 th 1 / 1 / ( ) 1 / ( , ) /C C C JT T T H T J T = + − − − − H J H J H
Mathematical model of the transport current is approximation of the critical state model. It connects the nonlinear resistivity of HTS material with current density, magnetic field strength and temperature.
0
0.2
0.4
0.6
0.8
1
1.2
0 100 200 300 400
ρ/ρ 0
(pu
)
Current density (106 А/м2)
T=85 К
T=80 К
T=75 К
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,max( , ) ( ) [1 ( / ( )) ] ,C C CJ T J T H T = −H H
( , ) 0,CJ T =H cHH
cHH
( )( ) ( )( )2 2
0 ,max 0( ) 1 / , ( ) 1 / ,c c c c c cH T H T T J T J T T= − = −
Nonlinear dependence of the critical current density on the magnetic fieldis one of the main characteristic of HTS material. To obtain accuratecalculation results this dependence should be determined.
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B=B0 =const, dM/dH=-1, if H1<H<H2,
else M=Mc
Linear sections are limited by thecritical magnetization line Mc. In thiscase the magnetic field is higher,than superconducting cylinder cancompensate.
At the linear part of the model magneticinduction is constant. Superconductingcylinder saves the trapped magnetic field.
For blue line in the picture:
Magnetization model
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C,max CM( , ) ( ) [1 ( / ( )) ] ,CM T H M T H T = − H
( , ) 0,CM T H =
CM ( )H TH
CM ( )H TH
( )( ) ( )( )2 2
CM CM0 C,max C0( ) 1 / , ( ) 1 / ,c cH T H T T M T M T T= − = −
1 – α=1.5, β = 0.2
2 – α=1.5, β = 1.0
3 – α=1.5, β = 2.0
4 – α=1.5, β = 5.0
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Elementary cylinders are identical
Elementary cylinders with
different Mс and Нс
Smooth transition
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α
m
φ
θ
m
β
γ
Elementary cylinders with different Мс, Нс, φ. Anisotropy
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1
2 5
4
Model parameters may be defined from the experimental measurementsor chosen from the comparison of calculation with data from somesimple experiments with HTS sample (measurements of magnetic fieldnear the surface of superconductor, force interaction betweenpermanent magnet and superconductor).
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( ) ( ) ( ) ( )
( ) ( )
1 2
3
0 0
1 1 1 1
10
1;
4 2 4
1 1;
4
j
j j
lN N ljj ст
k j k j j k kj jS S
N
e k j kj S
t t dS t dS tr r
t t dSr
= = = =
=
= − +
=
j
n rA J n M A
The calculation of J is performed using
equations of a nonstationary magnetic field
B=∇xA
J = E/ρ = -dA/dt - ∇φ
Calculation M is made similarly to
the stationary magnetic field
B = ∇xA, B = µ0(M+H)
M = f(H)
The model was realized in home-made software EasyMag3D, which is based on the
spatial integral equations method.
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1 2
1 – disk HTS, 2 – inductor coil
Diameter of HTS 30 mm
Thickness of HTS 10 mm
Inner diameter of coil 80 mm
Outer diameter of coil 60 mm
Length of coil 40 mm
0
5000
10000
15000
20000
25000
0 0.5 1 1.5 2 2.5 3
МДС
t, c
1
2A
B
MMF
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Point A
Point B
Model for current densityModel for magnetization
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Magnetization Transport current
Point A
Point B
Combined model
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Point A
Point B
Model for magnetization Model for current density
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Magnetization Transport current
Point A
Point B
Combined model
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0
20
40
60
80
100
0 10 20 30 40 50
Forc
e,
N
Displacement, mm
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1
2
Ø40
Ø20
Ø31
Ø60
30
10
N
S
ρ
z 0
3
5
4
1
2
4
2
3
1
5
-25
-20
-15
-10
-5
0
0 1 2 3 4
F, H
z, мм
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It is proposed to expand the model of the critical state by additional sources of a magnetic field-related currents. These sources are modeled by the distribution of magnetization.
The performed calculations and experiments showed that the developed models can modeling the partial Meissner effect at FC mode and have better results in the analysis of magnetic HTS bearing under cyclic loading.
It is necessary to perform more computational and experimental studies to justify the effectiveness of such models.
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