Upload
darcy-harvey
View
216
Download
4
Embed Size (px)
Citation preview
120-03-2013 «BE-RF-PM»
Updates on thermal tests for
CLIC prototype module type 0
Ioannis Kossyvakis, Roberto Mondello, Fabrizio Rossi
220-03-2013 «BE-RF-PM»
2
2
Contents
1. Thermal test program
2. Position of temperature sensors
3. Data acquisition and LabVIEW software
4. Data analysis
320-03-2013 «BE-RF-PM»
3
3
Thermal test programSTEP #
INPUTOUTPUTTamb (°C) vair (m/s) Heat power (%) Ti,water (°C)
To,water (°C)SAS AS Load PETS RFN Load DBQ SAS (+10 °C) PETS (+15 °C)
0
1
20
0.1
0 0 0 01. WPS system (study influence of
vibrations induced by air speed on WPS measuring system)
2 0.23 0.34 0.45 0.56 0.67 0.78 0.8
11 20
0.3 0 0 0 0 1. Temperature sensors2. Alignment2 30
3 40
2
1
200.4
50 500
25
30
0 1. Temperature sensors2. Alignment
2 100 100 353
0.850 50
030
4 100 100 355
400.4
50 500
306 100 100 357
0.850 50
030
8 100 100 35
3
1
200.4 0
50 50 50
25 0
32.5
1. Temperature sensors2. Alignment
2 100 100 100 403
0.8 050 50 50 32.5
4 100 100 100 405
400.4 0
50 50 50 32.56 100 100 100 407
0.8 050 50 50 32.5
8 100 100 100 40
4
1
200.4
50
25
30 32.5
1. Temperature sensors2. Alignment
2 100 35 403
0.850 30 32.5
4 100 35 405
400.4
50 30 32.56 100 35 407
0.850 30 32.5
8 100 35 40
420-03-2013 «BE-RF-PM»
4
4
Temperature sensors : SAS #1 + CL
TS1
TS2 TS3 TS4 TS5 TS6
TS7
TS29.C
TS29.ATS29.B
TS29.D
Thermocouples type J• Material: Fe/CuNi• Accuracy = ± 1.5 °C
RTD sensor• PT 100 (4-wire resistance)• Accuracy = ± 0.1 °C
520-03-2013 «BE-RF-PM»
5
5
Temperature sensors : SAS #2 + CL
TS8
TS9
TS10
TS30.C
TS30.ATS30.B
TS30.D
Thermocouples type J• Material: Fe/CuNi• Accuracy = ± 1.5 °C
RTD sensor• PT 100 (4-wire resistance)• Accuracy = ± 0.1 °C
620-03-2013 «BE-RF-PM»
6
6
Temperature sensors : PETS + RF NETWORK + CL
TS23
TS17
TS18
TS19
TS20
TS21
TS22
TS24
TS25
TS26
TS36
TS35
TS34
TS33RTD sensor• PT 100 (4-wire resistance)• Accuracy = ± 0.1 °C
Thermocouples type J• Material: Fe/CuNi• Accuracy = ± 1.5 °C
720-03-2013 «BE-RF-PM»
7
7
Temperature sensors : DBQ
TS27
TS28
RTD sensor• PT 100 (4-wire resistance)• Accuracy = ± 0.1 °C
820-03-2013 «BE-RF-PM»
8
8
Temperature sensors : air temperature
1222
1339
650
770
275
245
200
TS39
TS41
TS38 TS40TS42
189
979
979
TS43 TS45TS44
TS38 TS40TS39
TS48 TS50TS49AIR TEMPERATURE AROUND TM0• 3 cross sections• 5 thermocouples type T for each cross section
Thermocouples type T• Material: Cu/CuNi• Accuracy = ± 0.5 °C
920-03-2013 «BE-RF-PM»
9
9
Temperature sensors (pictures in the lab)
Temperature sensors on the air
Temperature sensors on the accelerating structures
Temperature sensors on the DB Q and PETS
Temperature sensors on the waveguides
1020-03-2013 «BE-RF-PM»
10
10
Data acquisition and LabVIEW softwareData acquisition from the
accelerating structures Data acquisition from the waveguides
Data acquisition from the PETS
Data acquisition from the magnets
1120-03-2013 «BE-RF-PM»
11
11
Data acquisition and LabVIEW software
Data acquisition from the air
thermocouples
Real time plots
Steady state condition at
40 oC
1220-03-2013 «BE-RF-PM»
12
12
Data analysis (20 oC)
Super AS - 1 PETS - 1
DB Q - 1 Air thermocouples - 1
1320-03-2013 «BE-RF-PM»
13
13
Data analysis (from 20 oC to 30 oC)
Super AS - 1 PETS - 1
DB Q - 1 Air thermocouples - 1
1420-03-2013 «BE-RF-PM»
14
14
Data analysis (30 oC)
Super AS - 1 PETS - 1
DB Q - 1 Air thermocouples - 1
1520-03-2013 «BE-RF-PM»
15
15
Data analysis (from 30 oC to 40 oC)
Super AS - 1 PETS - 1
DB Q - 1 Air thermocouples - 1
1620-03-2013 «BE-RF-PM»
16
16
Data analysis (effect of air speed on air temperature: 0.8 m/s 0.3 m/s)
Air thermocouples - 3
Air thermocouples - 1 Air thermocouples - 2