Presentation is loading. Please wait.

Presentation is loading. Please wait.

ATLAS TRT CO 2 cooling system project status Beaufort 12: “Hurricane” (>119 km/h) Saffir-Simpson 5: “catastrophic damage” (>250 km/h) (CO 2 distribution.

Published bySilvester Fisher Modified over 8 years ago

Similar presentations

Presentation on theme: "ATLAS TRT CO 2 cooling system project status Beaufort 12: “Hurricane” (>119 km/h) Saffir-Simpson 5: “catastrophic damage” (>250 km/h) (CO 2 distribution."— Presentation transcript:

1 ATLAS TRT CO 2 cooling system project status Beaufort 12: “Hurricane” (>119 km/h) Saffir-Simpson 5: “catastrophic damage” (>250 km/h) (CO 2 distribution system: up to 300 km/h & Re = 4. 10 5 ) Joël Grognuz, 18.02.04

2 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Wheels manifolds optimization Wheels manifolds optimization  24% maximum flow variation   See: ATL-INDET-2004-004 Pressure drop calculations Pressure drop calculations  1 bar in total; 0.5 to 1.5 bar(abs) at inlet and outlet of the pump. inlet and outlet of the pump. System requirements: frozen System requirements: frozen see https://edms.cern.ch/file/445825/1/ see https://edms.cern.ch/file/445825/1/ Components procurement Components procurement  Offers for Key components: pump, valves (No EV => no shielding needed)  Most hardware components identified, budget done  Prototype passive safety valves built Final 2 nd prototype layout Final 2 nd prototype layout  Functionalities, regulation and safety strategy defined  Like layout of the final system with two mock-ups (C-wheels) instead of 6 groups of wheels, might simplify 2 nd mock-up depending on manpower. Summary of last achievements, status

3 18.02.04 TRT CO 2 cooling system status, Joël Grognuz USA 15 ULX 16, pipes already installed gas room pump C-side A-side Racks UX Final system:

4 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Prototype layout 4 states: -purge -turn on -run -emergency turn off

5 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Limit for detector C: Passive safety over- pressure valve opens C: Trigger for active safety C: active valves in p stabilized by passive valves Worst case if blockage on the lines: Safety: (end-caps stand up to ± 5.5 mbar relative to ID volume) Passive safety valves:Fast active safety valves: opens at ± 4 mbar, fully opened at ± 5 mbar reaction times: opens at ± 4 mbar, fully opened at ± 5 mbar reaction times: whole system: < 500 ms whole system: < 500 ms valve: 100 ms valve: 100 ms For C-wheels with active safety: 10 liters sent to ID volume If constant flow of ±75 m 3 h -1 in ID (additional active safety failure): +3.4/ -2.2 mbar difference in ID (4 mbar allowed) (ID safety meeting next week) fast release pneumatic control safe position 180 mm Fits in membrane envelope

6 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Failure modeling with simulink Volumes: C: 0.7 m 3 B: 1.5 m 3 A: 0.8 m 3 ID: 2 m 3 Volume element: uses Kv formula for valves and ideal gas assumption Laplace transform allows to solve differential equations to give time evolution

7 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Failure 1: 300 m 3 h -1 line blocked Syst. off

8 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Failure 2: 75 m 3 h -1 line blocked Still safe in case of active safety failure (assuming that regulations on other wheels stand the pressure changes in the ID)

9 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Failure 3: 2 x 75 m 3 h -1 line blocked Almost as dangerous as 300 m 3 h -1 case because half of the flux but also half of the volume until other passive safety valves open!

10 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Cleanliness Pump: (contains 1L of oil) Pump: (contains 1L of oil)  Strong candidate found with double joints and gas barrier between gear box and system. (supplies 270 nm 3 h -1 with calculated pressure drops)  Can use Si-free oil with low vapour pressure in the gear box (<10 -6 Torr at working Temperature). Other components: Other components: lubricants allowed, no numbers exist!

11 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Tightness The requirement for N 2 content < 1% means that the low pressure side of the system has to be tight; any air leak rate will have to be compensated by a CO 2 purge 100 times larger! (problem of cost) The requirement for N 2 content < 1% means that the low pressure side of the system has to be tight; any air leak rate will have to be compensated by a CO 2 purge 100 times larger! (problem of cost)

12 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Group of wheels mock-up 0.9 m 3, can be reduced by adding volumes inside. 0.9 m 3, can be reduced by adding volumes inside. C-wheels: 0.7 m 3 A-wheels: 0.8 m 3 B-wheels: 1.5 m 3 2 separations 2 separations 0.7 mbar pressure drop 0.7 mbar pressure drop 1 m 6 m 0.15 m Inlet manifold holes (80 holes) Outlet manifold holes (96 holes) Passive safety valves

13 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Schedule  Accept budget (possible delay)(February)  Clarify manpower availability for prototype building  Start procurement (March)  Build “Prototype” (main circuit, at least one full rack, detector mockup, control unit) (June)  If time, simulate the prototype and the full system  Test prototype (July)  Risk analysis (led in parallel)  PRR (September)

14 18.02.04 TRT CO 2 cooling system status, Joël Grognuz Budget Summary with possible options: (piping and operation costs for final system not included)

Download ppt "ATLAS TRT CO 2 cooling system project status Beaufort 12: “Hurricane” (>119 km/h) Saffir-Simpson 5: “catastrophic damage” (>250 km/h) (CO 2 distribution."

Similar presentations

START-UP AND OPERATION OF MECHANICALLY SEALED EQUIPMENT 1:13.

START-UP AND OPERATION OF MECHANICALLY SEALED EQUIPMENT 1:13.
1 Ann Van Lysebetten CO 2 cooling experience in the LHCb Vertex Locator Vertex 2007 Lake Placid 24/09/2007.

1 Ann Van Lysebetten CO 2 cooling experience in the LHCb Vertex Locator Vertex 2007 Lake Placid 24/09/2007.
24 June 2010 Immanuel Gfall (HEPHY Vienna) CO 2 Cooling for PXD/SVD IDM Meeting.

24 June 2010 Immanuel Gfall (HEPHY Vienna) CO 2 Cooling for PXD/SVD IDM Meeting.
Experiment 8 : Minor Losses

Experiment 8 : Minor Losses
The RPC Closed loop Gas System. Schedule for completion - update Status Supplier: ok Mixer: ok Humidifier: ok Purifiers: installed, but not completely.

The RPC Closed loop Gas System. Schedule for completion - update Status Supplier: ok Mixer: ok Humidifier: ok Purifiers: installed, but not completely.
Hydraulics.

Hydraulics.
18th March 2004 1Richard Hawkings Humidity control in the ATLAS ID Richard Hawkings (CERN) JCOV meeting 18/3/04  Overview of humidity and associated gas.

18th March Richard Hawkings Humidity control in the ATLAS ID Richard Hawkings (CERN) JCOV meeting 18/3/04  Overview of humidity and associated gas.
Daya Bay Muon Subsystem Review, 7/28-29/2007, IHEP, Beijing Daya Bay RPC Gas System: Design Report & Budget Estimate Changguo Lu, Kirk McDonald Princeton.

Daya Bay Muon Subsystem Review, 7/28-29/2007, IHEP, Beijing Daya Bay RPC Gas System: Design Report & Budget Estimate Changguo Lu, Kirk McDonald Princeton.
CO2 cooling pressure drop measurements R. Bates, R. French, G. Viehhauser, S. McMahon.

CO2 cooling pressure drop measurements R. Bates, R. French, G. Viehhauser, S. McMahon.
A. Wasem / TA1-GSTRT Meeting 20/02/20021 Results from Prototype CO 2 Cooling Gas System.

A. Wasem / TA1-GSTRT Meeting 20/02/20021 Results from Prototype CO 2 Cooling Gas System.
1 CO 2 cooling of an endplate with Timepix readout Bart Verlaat, Nikhef LCTPC collaboration meeting DESY, 22 September 2009 1.

1 CO 2 cooling of an endplate with Timepix readout Bart Verlaat, Nikhef LCTPC collaboration meeting DESY, 22 September
23 Jan 2007 LASA Cryogenics Global Group 1 ILC Cryomodule piping L. Tavian for the cryogenics global group.

23 Jan 2007 LASA Cryogenics Global Group 1 ILC Cryomodule piping L. Tavian for the cryogenics global group.
Settings & Adjustments. Settings & Adjustments.

Settings & Adjustments. Settings & Adjustments.
Chiho Wang ATLAS TRT Duke University CERN, Feb. 2005 1 TRT Barrel assembly status & schedule Feb. 9, 2005.

Chiho Wang ATLAS TRT Duke University CERN, Feb TRT Barrel assembly status & schedule Feb. 9, 2005.
CMS CO2 Test Stand Specifications and Installation Status Erik Voirin Fermilab PPD - Process Engineering Group CMS CO2 Cooling Test Stand1.

CMS CO2 Test Stand Specifications and Installation Status Erik Voirin Fermilab PPD - Process Engineering Group CMS CO2 Cooling Test Stand1.
ESS Cryogenic Distribution System for the Elliptical Linac MBL/HBL - CDS requirements Preliminary Design Review Meeting, 20 May 2015, ESS, Lund, Sweden.

ESS Cryogenic Distribution System for the Elliptical Linac MBL/HBL - CDS requirements Preliminary Design Review Meeting, 20 May 2015, ESS, Lund, Sweden.
September 19/20, 2007 SIS 100 Magnet cooling and cryogenic distribution.

September 19/20, 2007 SIS 100 Magnet cooling and cryogenic distribution.
LHCb CO 2 cooling meeting Burkhard Schmidt – February 18, 2015 1.

LHCb CO 2 cooling meeting Burkhard Schmidt – February 18,
Evaporative Heater Design, qualification and planning M.Olcese PRR SCT off-detector cooling PRR SCT off-detector cooling 13-14 March 2005 13-14 March 2005.

Evaporative Heater Design, qualification and planning M.Olcese PRR SCT off-detector cooling PRR SCT off-detector cooling March March 2005.
Hydrogen system R&D. R&D programme – general points Hydrogen absorber system incorporates 2 novel aspects Hydrogen storage using a hydride bed Hydrogen.

Hydrogen system R&D. R&D programme – general points Hydrogen absorber system incorporates 2 novel aspects Hydrogen storage using a hydride bed Hydrogen.

Similar presentations

Ads by Google