Download presentation
Presentation is loading. Please wait.
Published byAmos Allison Modified over 9 years ago
1
HIGH RADIATION TO MATERIALS: EXPERIMENTAL AREA DESIGN Ans Pardons HiRadMat review, 26 th of May 2011 Outline Location of experimental area & services Test zone Test tables Plug-in connectors Integration cabling Cooling test tables Handling Overhead crane Handling of test tables TED-type beam dump EDMS 1146738
2
Location of the experimental area HiRadMat Review, 26 th of May 2011 2 Beam line elements TA7 TNC To TCC6 TNC TJ7 Sarcophagus with WANF collimator blocks (2011) HiRadMat cool down zone for test tables Primary beam line Test tables Cooled collimator Cooled beam dump Shielding 10 m Overhead crane (seen at downstream limit) All items in red will be treated in detail further-on Beam direction
3
Monitoring Location of test zone HiRadMat Review, 26 th of May 2011 3 Test stands, services & monitoring in test zone On passage-side wall opposite to test stand: - Gas connector for neutral gas (He or N 2 ) All along TNC: - Lighting - Compressed air - Overhead crane In TA7- TJ7, at ~25m from test stands - Overhead crane remote control - Power (220V) - Patch panel in signal rack Radiation Monitoring Beam Loss Monitors Beam Focal Points Test tables Services available in irradiation area Directly on test table: - Cooling circuit (30kW, 3m 3 /h, 9bar) - Power (4 kV/2.5kA) - Signal cables (50V/2A e.g. for camera, motorization, vibration measurement )
4
Test tables HiRadMat Review, 26 th of May 2011 4 Mobile table: geometry and services Test table geometry Mostly aluminium Weight 450kg Base plate 50mm thick Available for test object: Volume: 2 m x 0.7 m x (H) 1.5m (or cylinder of R=0.35m around beam) Weight: 2000kg Plug-in connectors Remote handling with overhead crane Test object mounted in surface lab 1 3 2 1 1 2 1 3 2 Mobile table Connectors Test object (e.g. LHC collimator) mounted on table as in lab
5
Table assembly HiRadMat Review, 26 th of May 2011 5 In surface lab: dummy base table to mount and align test object and to test all connectors (copy of tunnel table) In tunnel: same base table as surface lab – stays in tunnel and its position is checked yearly (and copied on surface) Remote plug-in connector types Cooling circuit (LHC collimator-type, “Staubli”) Signal “type 1” (LHC collimator-type, “Hypertac”) Power (SPS magnet-type) Signal “type 2” (spare, SPS magnet- type) Auto-aligned in tunnel 4 4 Base table with connectors
6
Table assembly in tunnel HiRadMat Review, 26 th of May 2011 6 Integration in tunnel Reminder: Test objects must be contained, cable feed-throughs and portholes must be tight (user’s design, with CERN approval) Installation of table is 100% remote (overhead crane & camera system) Tables compatible with different sizes and types of test objects Cables arrive on the passage side and pass over to the test tables
7
Test tables HiRadMat Review, 26 th of May 2011 7 Mechanical guides Base table: mechanical guides for remote installation 3 V- shaped supports per mobile table (Extra V-shaped supports allow for different table sizes) Lab-tested (<0.1mm), tunnel exercises planned 1 2 3 1 2 3
8
Test table connectors HiRadMat Review, 26 th of May 2011 8 Type 2 signal connector only on base table (seen as future upgrade for mobile tables) Power connector only on central table Cooling water Signal “type 1” Signal “type 2” (spare) Power 4kV
9
Test table connectors 9 Signal “type 1” connector box on mobile table Signal connector box a. Burndy 28 pin round connector (F) b. Burndy 50 pin rect. connector (F) c. Coax BNC (F) Replacement or repair On mobile table (M) in surface lab On base table (F): dismount connector locally as bloc and disconnect at 1.5m Remote connection is lab-tested, exercises in tunnel planned c ba connected approach Overview 3D-View of mechanical guides, water connector and signal connector
10
Integration cabling HiRadMat Review, 26 th of May 2011 10 3 parallel cooling circuits All cables from 3 test tables Spare cables Quick connector (LHC collimator-type) at 1.5m from table for easier dismounting or cable exchange Cable guides: Structure for passage of cables / personnel / vehicles TJ7 TNC Coax CK50 (plug-in under development)
11
Integration cabling HiRadMat Review, 26 th of May 2011 11 Cable guides Cable guides: Aluminium comb guides cables of all tables Aluminium ramps and steel cover allow for safe passage Cover and ramps in one piece, remote handling with magnetic lifting beam Comb has hooks for remote dismantling
12
Integration cabling HiRadMat Review, 26 th of May 2011 12 Racks near TJ7 Cables from BA7 Cables from TNC TJ7 patch panel TJ7 TNC Cooling circuit rack (flow meters, valves) where 3 parallel circuits join Rack in TJ7 At TJ7 patch panel: Possibility for users to test connections and signals locally before start of beam (later no tunnel access anymore and only observation from control room) All cables from 3 test tables cooling circuits front To control room in BA7
13
Integration cabling HiRadMat Review, 26 th of May 2011 13 Control room location in BA7 known, detailed study ongoing Control Room Entrance to HiRadMat Cables from TJ7 patch panel Radioprotection Unit Room Users Control Room BA7 Surface building
14
Cooling test tables IEFC Workshop Mar. 22, 2011 14 (more details in presentation of Paul Pepinster/Magali Mendez) Ans Pardons Detection pressure drop safety valves close B. Lacarelle, Y. Lupkins TJ7 TNC TA7, 9 bar
15
Handling equipment HiRadMat Review, 26 th of May 2011 15 7.5T suspended overhead crane with remote controller Equipped with remote shielding block hook Installed in 1994, completely renovated in 2010. Extensive experience from WANF dismantling Risk analysis done, followed by safety measures Found to be very reliable Overhead crane TJ7 TNC
16
Handling equipment HiRadMat Review, 26 th of May 2011 16 Set of 5 PZT optic fibre network cameras on crane frame (also on lifting beam) Cameras installed right before intervention Viewing station with 4 screens in TJ7 Remote viewing system TNC TJ7 To material lift and BA7
17
Handling of test tables HiRadMat Review, 26 th of May 2011 17 1. From lab to test zone (non-radioactive object) Surface lab: overhead crane to trailer Trailer: from BA7 material lift TJ7 TJ7: transfer to overhead crane Remote with crane: TJ7 test zone in TNC Lab to test zone Custom-made trailer
18
Handling of test tables HiRadMat Review, 26 th of May 2011 18 Cool-down zone Cool-down zone for test tables with test objects Downstream in TNC, within reach of crane 5 places (supports) foreseen for 2011, 3 more for 2012 Downstream end of TNC Test table supports 100% Aluminium Mechanical guides for remote installation (also remote dismantling) Handling exercises in tunnel planned
19
Handling of test tables HiRadMat Review, 26 th of May 2011 19 Test zone to cool-down zone 2. From test zone to cool-down zone (radioactive object) Remote with crane: TJ7 cool-down zone in TNC Remote with crane: place on cool-down zone supports
20
Handling of test tables HiRadMat Review, 26 th of May 2011 20 Cool-down zone to surface 3. From cool-down zone to surface (radioactive object) Remote, with crane: cool-down zone in TNC TJ7 Remote, with crane: place on trailer Manually, protected by distance (and shielding if needed): TJ7 material lift surface Manually and in truck with container (and shielding if needed): surface CERN radioactive lab for disassembly When needed, followed by waste disposal (CERN) If dose rate negligible empty mobile table can be re-used
21
TED-type beam dump HiRadMat Review, 26 th of May 2011 21 Geometry, Location and Handling Beam dump geometry and integration Cooled and under nitrogen atmosphere (beam interlock) Custom-made lifting beam Pre-guiding upstream support Guiding traces on shielding Cameras on overhead crane Procedures tested and optimized Beam dump exchange: 100% remote
22
HiRadMat Review, 26 th of May 2011 22 Thank you for your attention – Any questions? High Radiation to Materials: EXPERIMENTAL Area DESIGN
23
Technical documentation HiRadMat Review, 26 th of May 2011 23
24
Alignment plug-in HiRadMat Review, 26 th of May 2011 24
25
Water connector – part 1 HiRadMat Review, 26 th of May 2011 25 Seal = EPR (ethylene propylene rubber)
26
Water connector – part 2 HiRadMat Review, 26 th of May 2011 26
27
Power connector HiRadMat Review, 26 th of May 2011 27 Material: Copper, aluminium (Antico 100), ceramic Mass: 3.3 kg for the fix part and 9.1 kg for the mobile part. Quantity: 2 (on table 2 only) Maximum current: 2.5kA, maximum voltage 4kV Maximum voltage: 4kV Available only on stand B. System: plug-in (standard SPS magnet supply).
28
Signal connector 50V (type 1) HiRadMat Review, 26 th of May 2011 28 Material: Box: aluminuim EN AW-6082 Hypertac connectors : zamac and steel Screws: steel Cables : copper with kapton insulation (RadHard cabling) Maximum current: 3A Maximum voltage: 50V
29
Signal connector 50V (type 2) HiRadMat Review, 26 th of May 2011 29 Material: Stainless steel: box, screws Insulating material (stumatite, kapton, glass fiber) Mass: 3.5 kg for the fixed part and 3.5 kg for the mobile part Maximum current: 2A Maximum voltage: 50V
30
Overhead crane HiRadMat Review, 26 th of May 2011 30
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.