Miguel Santos, ST/CV Detector Cooling JCOV January 22nd, 2004 1. TPC FEEC Cooling System 1.1 Cooling modularity inside the detector Cooling of Read Out plane : 2 + 2 circuits C ooling ofBus Bars (Service SupportW heel) Cooling ofR OC covers Cooling of SSW and Covers : 2 + 2 circuits O ut In ROC FEEC 150 180 ROC1 ROC2 ROC3 ROC10 ROC4 ROC5 ROC6 ROC7 ROC8 ROC9 R O C11 R O C 12 R O C 13 R O C 14 R O C 15 R O C 16 R O C 17 R O C 18 Cooling of FEEC: 18 + 18 circuits
3
Embed
1. TPC FEEC Cooling System 1.1 Cooling modularity inside the detector
Cooling of FEEC: 18 + 18 circuits. Cooling of SSW and Covers : 2 + 2 circuits. Cooling of Read Out plane : 2 + 2 circuits. 1. TPC FEEC Cooling System 1.1 Cooling modularity inside the detector. Flow rate: FEEC: 36 1m 3 /h + Covers + Bus bars: 36 0.12 m 3 /h - PowerPoint PPT Presentation
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Miguel Santos, ST/CV Detector CoolingJCOV January 22nd, 2004
1. TPC FEEC Cooling System
1.1 Cooling modularity inside the detector
Cooling of Read Out plane : 2 + 2 circuits
Cooling of Bus Bars
(Service Support Wheel)
Cooling of ROC covers
Cooling of SSW and Covers : 2 + 2 circuits
OutInROC
FEEC15
0
180
ROC1ROC2
ROC3
ROC10
ROC4
ROC5
ROC6
ROC7
ROC8
ROC9ROC11
ROC12
ROC13
ROC14
ROC15
ROC16
ROC17
ROC18
Cooling of FEEC: 18 + 18 circuits
Miguel Santos, ST/CV Detector CoolingJCOV January 22nd, 2004
1.2 Cooling Plant Operating Principle
Flow rate:FEEC: 36 1m3/h+ Covers + Bus bars: 360.12 m3/h+ Read out plane: 360.04 m3/h
Total flow: 42 m3/h
Total heat to be removed: FEEC: 36720W=25920WBus Bars: 3620W=720W