Cargando…
The Thermosiphon Cooling System of the ATLAS Experiment at the CERN Large Hadron Collider
The silicon tracker of the ATLAS experiment at CERN Large Hadron Collider will operate around –15°C to minimize the effects of radiation damage. The present cooling system is based on a conventional evaporative circuit, removing around 60 kW of heat dissipated by the silicon sensors and their local...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Lenguaje: | eng |
| Publicado: |
2015
|
| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1515/ijcre-2015-0022 http://cds.cern.ch/record/2062241 |
| _version_ | 1780948520631533568 |
|---|---|
| author | Battistin, M Berry, S Bitadze, A Bonneau, P Botelho-Direito, J Boyd, G Corbaz, F Crespo-Lopez, O Da Riva, E Degeorge, C Deterre, C DiGirolamo, B Doubek, M Favre, G Godlewski, J Hallewell, G Katunin, S Lefils, D Lombard, D McMahon, S Nagai, K Robinson, D Rossi, C Rozanov, A Vacek, V Zwalinski, L |
| author_facet | Battistin, M Berry, S Bitadze, A Bonneau, P Botelho-Direito, J Boyd, G Corbaz, F Crespo-Lopez, O Da Riva, E Degeorge, C Deterre, C DiGirolamo, B Doubek, M Favre, G Godlewski, J Hallewell, G Katunin, S Lefils, D Lombard, D McMahon, S Nagai, K Robinson, D Rossi, C Rozanov, A Vacek, V Zwalinski, L |
| author_sort | Battistin, M |
| collection | CERN |
| description | The silicon tracker of the ATLAS experiment at CERN Large Hadron Collider will operate around –15°C to minimize the effects of radiation damage. The present cooling system is based on a conventional evaporative circuit, removing around 60 kW of heat dissipated by the silicon sensors and their local electronics. The compressors in the present circuit have proved less reliable than originally hoped, and will be replaced with a thermosiphon. The working principle of the thermosiphon uses gravity to circulate the coolant without any mechanical components (compressors or pumps) in the primary coolant circuit. The fluorocarbon coolant will be condensed at a temperature and pressure lower than those in the on-detector evaporators, but at a higher altitude, taking advantage of the 92 m height difference between the underground experiment and the services located on the surface. An extensive campaign of tests, detailed in this paper, was performed using two small-scale thermosiphon systems. These tests confirmed the design specifications of the full-scale plant and demonstrated operation over the temperature range required for ATLAS. During the testing phase the system has demonstrated unattended long-term stable running over a period of several weeks. The commissioning of the full scale thermosiphon is ongoing, with full operation planned for late 2015. |
| id | cern-2062241 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2015 |
| record_format | invenio |
| spelling | cern-20622412022-08-10T13:04:19Zdoi:10.1515/ijcre-2015-0022http://cds.cern.ch/record/2062241engBattistin, MBerry, SBitadze, ABonneau, PBotelho-Direito, JBoyd, GCorbaz, FCrespo-Lopez, ODa Riva, EDegeorge, CDeterre, CDiGirolamo, BDoubek, MFavre, GGodlewski, JHallewell, GKatunin, SLefils, DLombard, DMcMahon, SNagai, KRobinson, DRossi, CRozanov, AVacek, VZwalinski, LThe Thermosiphon Cooling System of the ATLAS Experiment at the CERN Large Hadron ColliderDetectors and Experimental TechniquesThe silicon tracker of the ATLAS experiment at CERN Large Hadron Collider will operate around –15°C to minimize the effects of radiation damage. The present cooling system is based on a conventional evaporative circuit, removing around 60 kW of heat dissipated by the silicon sensors and their local electronics. The compressors in the present circuit have proved less reliable than originally hoped, and will be replaced with a thermosiphon. The working principle of the thermosiphon uses gravity to circulate the coolant without any mechanical components (compressors or pumps) in the primary coolant circuit. The fluorocarbon coolant will be condensed at a temperature and pressure lower than those in the on-detector evaporators, but at a higher altitude, taking advantage of the 92 m height difference between the underground experiment and the services located on the surface. An extensive campaign of tests, detailed in this paper, was performed using two small-scale thermosiphon systems. These tests confirmed the design specifications of the full-scale plant and demonstrated operation over the temperature range required for ATLAS. During the testing phase the system has demonstrated unattended long-term stable running over a period of several weeks. The commissioning of the full scale thermosiphon is ongoing, with full operation planned for late 2015.oai:cds.cern.ch:20622412015 |
| spellingShingle | Detectors and Experimental Techniques Battistin, M Berry, S Bitadze, A Bonneau, P Botelho-Direito, J Boyd, G Corbaz, F Crespo-Lopez, O Da Riva, E Degeorge, C Deterre, C DiGirolamo, B Doubek, M Favre, G Godlewski, J Hallewell, G Katunin, S Lefils, D Lombard, D McMahon, S Nagai, K Robinson, D Rossi, C Rozanov, A Vacek, V Zwalinski, L The Thermosiphon Cooling System of the ATLAS Experiment at the CERN Large Hadron Collider |
| title | The Thermosiphon Cooling System of the ATLAS Experiment at the CERN Large Hadron Collider |
| title_full | The Thermosiphon Cooling System of the ATLAS Experiment at the CERN Large Hadron Collider |
| title_fullStr | The Thermosiphon Cooling System of the ATLAS Experiment at the CERN Large Hadron Collider |
| title_full_unstemmed | The Thermosiphon Cooling System of the ATLAS Experiment at the CERN Large Hadron Collider |
| title_short | The Thermosiphon Cooling System of the ATLAS Experiment at the CERN Large Hadron Collider |
| title_sort | thermosiphon cooling system of the atlas experiment at the cern large hadron collider |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1515/ijcre-2015-0022 http://cds.cern.ch/record/2062241 |
| work_keys_str_mv | AT battistinm thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT berrys thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT bitadzea thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT bonneaup thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT botelhodireitoj thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT boydg thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT corbazf thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT crespolopezo thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT darivae thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT degeorgec thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT deterrec thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT digirolamob thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT doubekm thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT favreg thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT godlewskij thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT hallewellg thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT katunins thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT lefilsd thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT lombardd thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT mcmahons thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT nagaik thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT robinsond thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT rossic thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT rozanova thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT vacekv thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT zwalinskil thethermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT battistinm thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT berrys thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT bitadzea thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT bonneaup thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT botelhodireitoj thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT boydg thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT corbazf thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT crespolopezo thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT darivae thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT degeorgec thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT deterrec thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT digirolamob thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT doubekm thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT favreg thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT godlewskij thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT hallewellg thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT katunins thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT lefilsd thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT lombardd thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT mcmahons thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT nagaik thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT robinsond thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT rossic thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT rozanova thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT vacekv thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider AT zwalinskil thermosiphoncoolingsystemoftheatlasexperimentatthecernlargehadroncollider |