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A combined ultrasonic flow meter and binary vapour mixture analyzer for the ATLAS silicon tracker
An upgrade to the ATLAS silicon tracker cooling control system may require a change from C3F8 (octafluoro-propane) evaporative coolant to a blend containing 10-25% of C2F6 (hexafluoro-ethane). Such a change will reduce the evaporation temperature to assure thermal stability following radiation damag...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2012
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1088/1748-0221/8/02/P02006 http://cds.cern.ch/record/1485842 |
| _version_ | 1780926094255325184 |
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| author | Bates, R. Battistin, M. Berry, S. Berthoud, J. Bitadze, A. Bonneau, P. Botelho-Direito, J. Bousson, N. Boyd, G. Bozza, G. Da Riva, E. Degeorge, C. DiGirolamo, B. Doubek, M. Giugni, D. Godlewski, J. Hallewell, G. Katunin, S. Lombard, D. Mathieu, M. McMahon, S. Nagai, K. Perez-Rodriguez, E. Rossi, C. Rozanov, A. Vacek, V. Vitek, M. Zwalinski, L. |
| author_facet | Bates, R. Battistin, M. Berry, S. Berthoud, J. Bitadze, A. Bonneau, P. Botelho-Direito, J. Bousson, N. Boyd, G. Bozza, G. Da Riva, E. Degeorge, C. DiGirolamo, B. Doubek, M. Giugni, D. Godlewski, J. Hallewell, G. Katunin, S. Lombard, D. Mathieu, M. McMahon, S. Nagai, K. Perez-Rodriguez, E. Rossi, C. Rozanov, A. Vacek, V. Vitek, M. Zwalinski, L. |
| author_sort | Bates, R. |
| collection | CERN |
| description | An upgrade to the ATLAS silicon tracker cooling control system may require a change from C3F8 (octafluoro-propane) evaporative coolant to a blend containing 10-25% of C2F6 (hexafluoro-ethane). Such a change will reduce the evaporation temperature to assure thermal stability following radiation damage accumulated at full LHC luminosity. Central to this upgrade is a new ultrasonic instrument in which sound transit times are continuously measured in opposite directions in flowing gas at known temperature and pressure to deduce the C3F8/C2F6 flow rate and mixture composition. The instrument and its Supervisory, Control and Data Acquisition (SCADA) software are described in this paper. Several geometries for the instrument are in use or under evaluation. An instrument with a pinched axial geometry intended for analysis and measurement of moderate flow rates has demonstrated a mixture resolution of 3.10-3 for C3F8/C2F6 molar mixtures with 20%C2F6, and a flow resolution of 2% of full scale for mass flows up to 30gs-1. In mixtures of widely-differing molecular weight (mw), higher mixture precision is possible: a sensitivity of <5.10-5 to leaks of C3F8 into part of the ATLAS tracker nitrogen envelope (mw difference 160) has been seen. An instrument with an angled sound path geometry has been developed for use at high fluorocarbon mass flow rates of around 1.2 kgs-1 - corresponding to full flow in a new 60kW thermosiphon recirculator under construction for the ATLAS silicon tracker. Extensive computational fluid dynamics studies were performed to determine the preferred geometry (ultrasonic transducer spacing and placement, together with the sound crossing angle with respect to the vapour flow direction). A prototype with 45deg crossing angle has demonstrated a flow resolution of 1.9% of full scale for linear flow velocities up to 15 ms-1. The instrument has many potential applications. |
| id | cern-1485842 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2012 |
| record_format | invenio |
| spelling | cern-14858422023-03-14T16:33:13Zdoi:10.1088/1748-0221/8/02/P02006http://cds.cern.ch/record/1485842engBates, R.Battistin, M.Berry, S.Berthoud, J.Bitadze, A.Bonneau, P.Botelho-Direito, J.Bousson, N.Boyd, G.Bozza, G.Da Riva, E.Degeorge, C.DiGirolamo, B.Doubek, M.Giugni, D.Godlewski, J.Hallewell, G.Katunin, S.Lombard, D.Mathieu, M.McMahon, S.Nagai, K.Perez-Rodriguez, E.Rossi, C.Rozanov, A.Vacek, V.Vitek, M.Zwalinski, L.A combined ultrasonic flow meter and binary vapour mixture analyzer for the ATLAS silicon trackerDetectors and Experimental TechniquesAn upgrade to the ATLAS silicon tracker cooling control system may require a change from C3F8 (octafluoro-propane) evaporative coolant to a blend containing 10-25% of C2F6 (hexafluoro-ethane). Such a change will reduce the evaporation temperature to assure thermal stability following radiation damage accumulated at full LHC luminosity. Central to this upgrade is a new ultrasonic instrument in which sound transit times are continuously measured in opposite directions in flowing gas at known temperature and pressure to deduce the C3F8/C2F6 flow rate and mixture composition. The instrument and its Supervisory, Control and Data Acquisition (SCADA) software are described in this paper. Several geometries for the instrument are in use or under evaluation. An instrument with a pinched axial geometry intended for analysis and measurement of moderate flow rates has demonstrated a mixture resolution of 3.10-3 for C3F8/C2F6 molar mixtures with 20%C2F6, and a flow resolution of 2% of full scale for mass flows up to 30gs-1. In mixtures of widely-differing molecular weight (mw), higher mixture precision is possible: a sensitivity of <5.10-5 to leaks of C3F8 into part of the ATLAS tracker nitrogen envelope (mw difference 160) has been seen. An instrument with an angled sound path geometry has been developed for use at high fluorocarbon mass flow rates of around 1.2 kgs-1 - corresponding to full flow in a new 60kW thermosiphon recirculator under construction for the ATLAS silicon tracker. Extensive computational fluid dynamics studies were performed to determine the preferred geometry (ultrasonic transducer spacing and placement, together with the sound crossing angle with respect to the vapour flow direction). A prototype with 45deg crossing angle has demonstrated a flow resolution of 1.9% of full scale for linear flow velocities up to 15 ms-1. The instrument has many potential applications.We describe a combined ultrasonic instrument for gas flow metering and continuous real-time binary gas composition measurements. The combined flow measurement and mixture analysis algorithm employs sound velocity measurements in two directions in combination with measurements of the pressure and temperature of the process gas mixture.The instrument has been developed in two geometries following extensive computational fluid dynamics studies of various mechanical layouts. A version with an axial sound path has been used with binary gas flows up to 230 l.min(−)(1), while a version with a sound path angled at 45° to the gas flow direction has been developed for use in gas flows up to 20000 l.min(−)(1).The instrument with the axial geometry has demonstrated a flow resolution of ≤ 1 % of full scale for flows up to 230 l.min(−)(1) and a mixture resolution of 3.10(−)(3) for C(3)F(8)/C(2)F(6) molar mixtures with ~ 20 %C(2)F(6). Higher mixture precision is possible in mixtures of gases with widely-differing molecular weight (mw): a sensitivity of < 5.10(−)(5) to traces of C(3)F(8) in nitrogen (mw difference 160) has been seen in a long duration ( > 1yr) continuous study.A prototype instrument with 45° crossing angle has demonstrated a flow resolution of 1.9 % of full scale for linear flow velocities up to 15 ms(−)(1).Although this development was motivated by a requirement of the ATLAS silicon tracker evaporative fluorocarbon cooling system, the developed instrument can be used in many applications where continuous knowledge of binary gas composition is required. Applications include the analysis of hydrocarbons, vapour mixtures for semi-conductor manufacture and anaesthetic gas mixtures.An upgrade to the ATLAS silicon tracker cooling control system may require a change from C3F8 (octafluoro-propane) evaporative coolant to a blend containing 10-25% of C2F6 (hexafluoro-ethane). Such a change will reduce the evaporation temperature to assure thermal stability following radiation damage accumulated at full LHC luminosity. Central to this upgrade is a new ultrasonic instrument in which sound transit times are continuously measured in opposite directions in flowing gas at known temperature and pressure to deduce the C3F8/C2F6 flow rate and mixture composition. The instrument and its Supervisory, Control and Data Acquisition (SCADA) software are described in this paper. Several geometries for the instrument are in use or under evaluation. An instrument with a pinched axial geometry intended for analysis and measurement of moderate flow rates has demonstrated a mixture resolution of 3.10-3 for C3F8/C2F6 molar mixtures with 20%C2F6, and a flow resolution of 2% of full scale for mass flows up to 30gs-1. In mixtures of widely-differing molecular weight (mw), higher mixture precision is possible: a sensitivity of <5.10-5 to leaks of C3F8 into part of the ATLAS tracker nitrogen envelope (mw difference 160) has been seen. An instrument with an angled sound path geometry has been developed for use at high fluorocarbon mass flow rates of around 1.2 kgs-1 - corresponding to full flow in a new 60kW thermosiphon recirculator under construction for the ATLAS silicon tracker. Extensive computational fluid dynamics studies were performed to determine the preferred geometry (ultrasonic transducer spacing and placement, together with the sound crossing angle with respect to the vapour flow direction). A prototype with 45deg crossing angle has demonstrated a flow resolution of 1.9% of full scale for linear flow velocities up to 15 ms-1. The instrument has many potential applications.arXiv:1210.4835oai:cds.cern.ch:14858422012-10-18 |
| spellingShingle | Detectors and Experimental Techniques Bates, R. Battistin, M. Berry, S. Berthoud, J. Bitadze, A. Bonneau, P. Botelho-Direito, J. Bousson, N. Boyd, G. Bozza, G. Da Riva, E. Degeorge, C. DiGirolamo, B. Doubek, M. Giugni, D. Godlewski, J. Hallewell, G. Katunin, S. Lombard, D. Mathieu, M. McMahon, S. Nagai, K. Perez-Rodriguez, E. Rossi, C. Rozanov, A. Vacek, V. Vitek, M. Zwalinski, L. A combined ultrasonic flow meter and binary vapour mixture analyzer for the ATLAS silicon tracker |
| title | A combined ultrasonic flow meter and binary vapour mixture analyzer for the ATLAS silicon tracker |
| title_full | A combined ultrasonic flow meter and binary vapour mixture analyzer for the ATLAS silicon tracker |
| title_fullStr | A combined ultrasonic flow meter and binary vapour mixture analyzer for the ATLAS silicon tracker |
| title_full_unstemmed | A combined ultrasonic flow meter and binary vapour mixture analyzer for the ATLAS silicon tracker |
| title_short | A combined ultrasonic flow meter and binary vapour mixture analyzer for the ATLAS silicon tracker |
| title_sort | combined ultrasonic flow meter and binary vapour mixture analyzer for the atlas silicon tracker |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1088/1748-0221/8/02/P02006 http://cds.cern.ch/record/1485842 |
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