D. Gasser ST/CV 1 Fluid distribution from UW85 Fully available now.

Slides:



Advertisements
Similar presentations
Air and Water Chiller Basic Class
Advertisements

Heating, Ventilating, and Air-Conditioning
1 Ann Van Lysebetten CO 2 cooling experience in the LHCb Vertex Locator Vertex 2007 Lake Placid 24/09/2007.
Environmental Conditions in the LHC Experimental Caverns JCOV Thursday 18 th March.
HVAC Systems Overview HVAC Overview - # 1 Tom Lawrence
CURRENT STATUS OF CV INSTALLATIONS, WORKS DURING LS1 AND PROBLEMS ENCOUNTERED DURING START-UP NORTH AREA Bill Bannister / Jani Lehtinen EATM – 7 th October.
ISAT Module III: Building Energy Efficiency
 Install new air cooled high efficiency screw chiller (variable speed)  Install new fan coils with ECM motors and low temperature heating coils and proper.
Lecture Objectives: Model HVAC Systems –HW3 Asignemnet Learn about eQUEST software –How to conduct parametric analysis of building envelope.
Lecture Objectives: Final discussion about HW3 Introduce more final project topics Continue with HVAC Systems.
Equation solvers Matlab Free versions / open source codes: –Scilab MathCad: Mathematica:
Paolo Guglielmini TS / CV / DC08th April 2005 BIDDERS’ CONFERENCE Invitation to Tender 3307 Supply and Installation of water cooling equipment for the.
Overview of Liquid Cooling Systems Peter Rumsey, Rumsey Engineers.
1 CO 2 cooling of an endplate with Timepix readout Bart Verlaat, Nikhef LCTPC collaboration meeting DESY, 22 September
CV activities on LHC complex during the long shutdown Serge Deleval Thanks to M. Nonis, Y. Body, G. Peon, S. Moccia, M. Obrecht Chamonix 2011.
21/01/02 - ECAL Cooling - Arnaud Hormiere ST/CV 1 Development of ECAL COOLING PLANT Application to a Super Module.
Lecture Objectives: Specify Exam Time Finish with HVAC systems –HW3 Introduce Projects 1 & 2 –eQUEST –other options.
Lecture Objectives: Summarize sorption chillers Learn about Chiller modeling Cooling towers and modeling.
N O R T H A M E R I C A C O M M E R C I A L TDP
Lecture Objectives: Learn about Chiller modeling
ALICE Collaboration Meeting Heidelberg Services Update  Progress on services Detector cabling Gas systems Cooling systems  Rack footprint  Primary electrical.
European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire SSD/SDD Proposal Upgrade 30/08/2012
1 BREC Air-cooled water chillers BREF Air-cooled water chillers with free-cooling system 1602A A A A A 3202A A A -
DSS  Informal review Tuesday 24 th October 10:00 Room , organized by Laurent Roy.  Subsystems will not be allowed to run overnight or at weekends.
Paolo Guglielmini - TS / CV LHCb Install Meeting - 20/04/2005 LHCb Install Meeting 20/04/05 TS / CV / Detector Cooling Installations.
Paolo Guglielmini - TS / CV LHCb Install Meeting - 12/10/2005 LHCb - Install Meeting 12/10/05 TS/CV/DC Installations STATUS Ongoing works 1.chilled / mixed.
COOLING & VENTILATION FOR THE DRIVE BEAM TUNNEL M Nonis – EN/CV – 16/9/2009 CLIC TWO BEAM MODULES REVIEW
1 LBT Q Engineering Review PLMG: Plumbing, includes IC system, chiller systems, instrument lab cooling, and LUCIFER cryo-compressor cooling.
1 BROOKHAVEN SCIENCE ASSOCIATES NSLS – II CFAC Review Conventional Facilities Briefing Chilled Water and Temperature Stability Chris Channing Sr. Project.
PRESENTATION OF CFD ACTIVITIES IN CV GROUP Daniel Gasser.
Cooling System Solutions
GROUNDING, SHIELDING & COOLING ISSUES ON LHCb ELECTRONICS AT THE LHC PIT 8 V.Bobillier, J.Christiansen, G.Corti, D.Lacarrère, R.Lindner, L.Roy, E.Thomas,
1 13 Octobre 2011 Laurent Roy ATCA Crate / Infrastructure in place -Rack in D3: dimension -Electrical power availability -Tell1 racks running in D3 (air.
V. Bobillier1 Cable installation status.
Lecture Objectives: Differences in Conduction Calculation in Various Energy Simulation Programs Modeling of HVAC Systems.
A.Henriques (JCOV meeting 31/5/2001) ATLAS Calorimeter cooling project Goal: u Definition of a common frame work for the cooling of the ATLAS calorimeter.
Reviewers report of the LHCb C0 2 cooling EDR EDR date: 3 rd of December January
LHCb Install Meeting - 12 / 05 / 2004 Paolo Guglielmini - TS / CV LHCb Cooling of the sub – detectors INNER TRACKER TRACKER TRIGGER RICH 1 RICH 2 Status.
EN-CV Progress EHN1 Extension Project Jérôme Rodary EN-CV-PJ 2016/01/21.
LHCb-UT and Velo Upgrade Road to a system EDR in Q June 2015 Bart Verlaat 1.
Power, Cooling, Cables, Simulations of Heat Dissipation Short overview of ongoing work on these points Technical Coordination (Rolf Lindner et al.) Cooling.
LHCb Muon Station Cooling Studies (done by Ricardo Antunes Rodrigues (ST/CV)) This simulations were made for the Muon Station 1, with the follow assumptions:
August 2007Andrea Gaddi, CERN Physics Dept. Detectors Infrastructures & Services Baseline to design detectors infrastructures. Tentative arrangement of.
Technical Review EHN1 Extension Cooling Systems and Pipework Jérôme Rodary / EN-CV.
CV Activities for PSB-LIU POPS-B (new MPS for the PSB-LIU) B 245 PSB Demi water cooling plant Stefano Moccia, EN-CV Meeting 07/03/16.
1 04 April 2007 L. Roy Detector Safety System for infrastructure - General fire detection (barracks, cavern) - Sniffer system (smoke detection above the.
Paolo Guglielmini - TS / CV LHCb Install Meeting - 24/05/2006 LHCb - Install Meeting 24/05/06 TS/CV/DC activities for LHCb: - IT, TT, OT & SPD/PS, RICH.
EN-CV Progress EHN1 Extension Project Jérôme Rodary EN-CV-PJ 2016/01/14.
EN-CV Progress EHN1 Extension Project Jérôme Rodary EN-CV-PJ 2016/02/04.
Update on the PSB Cooling and Ventilation Systems
Lecture Objectives: Discuss HW3 parts d) & e) Learn about HVAC systems
Demineralised water cooling system
IBBelle: Status & Plans
Design of the thermosiphon Test Facilities 2nd Thermosiphon Workshop
ARAC/H/F Air-cooled water chillers, free-cooling chillers and heat pumps Range: kW.
Lecture Objectives: Discuss Final Project
HVAC Basics Arkan Arzesh HVAC – Heating, Ventilation, Air-conditioning.
PSB/PS/TT2/Linac2-3 YETS 2017–2018 & LS2 preparation meeting
Cooling systems for HL-LHC (WP17.3)
COOLING & VENTILATION INFRASTRUCTURE
Lecture Objectives: Answer questions related to HW 4
ATLAS Thermosiphon Electrical Distribution and Run Modes
Insertable B Layer Cooling System
EN-CV: P8 systems and Detector Cooling
Lecture Objectives: Discuss HW3 parts d) & e) Learn about HVAC systems
Lecture Objectives: Answer questions related to HW 4
Energy Efficiency in District Coiling System
Lecture Objectives: Discuss HW4 parts
Aziz AMAMOU EACM – 21th May 2019
Presentation transcript:

D. Gasser ST/CV 1 Fluid distribution from UW85 Fully available now.

D. Gasser ST/CV 2 Available performances in UX85 Flow rateCooling power ΔTΔTΔPΔP Mixed water215 m 3 /h1.5 MW13/19 o C2 bars Chilled water50 m 3 /h350 kW (up to 500 kW if needed) 6/12 o C2 bars Demineralised water 150 m 3 /h5 MW27/56 o C10 bars

D. Gasser ST/CV 3 Cooling fluid distribution in UX85

D. Gasser ST/CV 4 Counting rooms (I) Heat loads on the water network RoomHeat dissipated by the electronics (released to mixed water) Heat released in the ambient (estimation) Cooling capacity of the ventilation unit (released to chilled water) D1580 kW35 kW2*30 kW D2490 kW30 kW2*30 kW D3/A120 kW10 kW15 kW D3/B120 kW10 kW30 kW Total1310 kW165 kW

D. Gasser ST/CV 5 Air flow measurement Update the control system (new regulation components and PLC) Change the electrical heating coil Modify the air-duct and/or motor/fan set if necessary An work quotation is being done Counting rooms (II) Work to be done on the ventilation units

D. Gasser ST/CV 6 Integration of the piping in the UX85 cavern Modify mixed water piping on D3/B room Add chilled water piping on D3/B room Connection of each room to mixed and chilled water network with necessary instrumentation (flow-meters, temperature probes) Counting rooms (III) Work to be done on the water network

D. Gasser ST/CV 7 LHC’b sub-detectors and electronics Heat loads on the water network ItemHeat dissipated to chilled water Heat dissipated to mixed water IT and TT25 kW (conservative estimation on the chillers condenser side) IT and TT services boxes8.5 kW RICH 1 and 212 kW (8kW*1.5 safety coefficient) OT 22.5 kW OT power supply boxes 4 kW VELO12 kW VELO vacuum pumps1 l/min/pump Calorimeter23.2 kW??? Muons24 kW??? Total49 kW82.2 kW + ?

D. Gasser ST/CV 8 Whole LHC’b area Heat loads on the water network ItemHeat dissipated to chilled water Heat dissipated to mixed water LHC’b subdetector and electronics 49 kW85 kW Counting rooms165 kW1310 kW Total214 kW (vs 350 kW available) 1395 kW (vs 1500 kW available)

D. Gasser ST/CV 9 Workpackages OT cooling station with transfer lines (end by 06/2005) IT + TT cooling station with transfer lines (end by 11/2005) RICH1 and 2 cooling station with transfer lines (end by 11/2005) VELO cooling station with transfer lines (end by ??) Connection of muons, calorimeters, IT and TT services boxes, OT power supply box, VELO vacuum pumps (end by ??) Connection of counting houses (end by ??)

D. Gasser ST/CV 10 Important topic yet to be clarified Integration of VELO local control system to the supervision (to be discussed with NIKHEF) Muons and calorimeters: –Heat dissipation to be confirmed –Number and location of connection points to the mixed water-network Services boxes for IT and TT, power supply box for OT, vacuum pumps for VELO: –Number and location of connection points to the mixed water-network