Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications

Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications

Custom ultrasonic instruments have been developed for continuous monitoring and real-time measurement of composition and flow in binary gas mixtures. These characteristics are derived from measurements of sound transit time along two opposite directions - parallel or tilted to the gas flow direction...

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Main Authors: M. Battistin, S. Berry, P. Bonneau, O. Crespo-Lopez, C. Deterre, M. Doubek, G. Favre, G. Hallewell, S. Katunin, D. Lombard, A. O’Rourke, A. Madsen, S. McMahon, K. Nagai, C. Rossi, B. Pearson, D. Robinson, A. Rozanov, E. Stanecka, M. Strauss, V. Vacek, R. Vaglio, J. Young
Format: Article
Language:English
Published: IFSA Publishing, S.L. 2016-12-01
Series:Sensors & Transducers
Subjects:
Ultrasonic binary gas analysis
ATLAS Detector Control System
Sonar
thermosiphon
Evaporative cooling system.
Online Access:http://www.sensorsportal.com/HTML/DIGEST/december_2016/Vol_207/P_2878.pdf
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spelling doaj-ea3d859003bb4251aeabda63b6e9f4c82020-11-25T00:39:36ZengIFSA Publishing, S.L.Sensors & Transducers2306-85151726-54792016-12-0120712414 Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications M. Battistin0S. Berry1 P. Bonneau2 O. Crespo-Lopez3C. Deterre4M. Doubek5G. Favre6G. Hallewell7S. Katunin8D. Lombard9A. O’Rourke10A. Madsen11S. McMahon12 K. Nagai13 C. Rossi14B. Pearson15D. Robinson16 A. Rozanov17E. Stanecka18M. Strauss19V. Vacek20R. Vaglio21 J. Young22 CERN, 1211 Geneva 23, Switzerland CERN, 1211 Geneva 23, Switzerland CERN, 1211 Geneva 23, Switzerland CERN, 1211 Geneva 23, SwitzerlandDESY, Notkestraße 85, Hamburg 22607, GermanyCzech Technical University, Technická 4, 166 07 Prague 6, Czech Republic CERN, 1211 Geneva 23, SwitzerlandCentre de Physique des Particules de Marseille, 163 Avenue de Luminy, 13288 Marseille, France B.P. Konstantinov Petersburg Nuclear Physics Institute (PNPI), 188300 St. Petersburg, Russia CERN, 1211 Geneva 23, Switzerland DESY, Notkestraße 85, Hamburg 22607, Germany DESY, Notkestraße 85, Hamburg 22607, GermanyRutherford Appleton Lab, Science & Technology Facilities Council, Chilton, OX11OQX, UK Department of Physics, Oxford University, Keble Road, Oxford OX1 3RH, UK INFN Genova, via Dodecaneso 33, 16146 Genova, Italy Department of Physics and Astronomy, University of Oklahoma, Norman, OK 73019, USA Department of Physics, Cambridge University, J. J.Thomson Avenue, Cambridge, CB3 0HE, UK Centre de Physique des Particules de Marseille, 163 Avenue de Luminy, 13288 Marseille, France Institute of Nuclear Physics PAS, ul. Radzikowskiego 152, 31-342 Krak?w, PolandDepartment of Physics and Astronomy, University of Oklahoma, Norman, OK 73019, USA Czech Technical University, Technická 4, 166 07 Prague 6, Czech Republic CERN, 1211 Geneva 23, SwitzerlandDepartment of Physics and Astronomy, University of Oklahoma, Norman, OK 73019, USA Custom ultrasonic instruments have been developed for continuous monitoring and real-time measurement of composition and flow in binary gas mixtures. These characteristics are derived from measurements of sound transit time along two opposite directions - parallel or tilted to the gas flow direction. The flow rate is then calculated from the transit time difference while the average is used to compute sound velocity by comparison with a sound velocity/composition database. Five devices are integrated in the Detector Control System of the ATLAS experiment at the CERN Large Hadron Collider. Three instruments monitor C3F8 and CO2 coolant leaks into the nitrogen-purged envelopes of the inner silicon tracker; respectively with precisions better than ±2´10-5 and ±10-4. Two further instruments are used to monitor the new thermosiphon C3F8 evaporative coolant recirculator. One of these measures C3F8 vapour return flow to the condenser while the other tracks air ingress into the condenser with a precision better than 10-3. The precision of these instruments highlights their potential in other applications requiring continuous binary gas composition monitoring. http://www.sensorsportal.com/HTML/DIGEST/december_2016/Vol_207/P_2878.pdfUltrasonic binary gas analysisATLAS Detector Control SystemSonarthermosiphonEvaporative cooling system.
collection DOAJ
language English
format Article
sources DOAJ
author M. Battistin
S. Berry
P. Bonneau
O. Crespo-Lopez
C. Deterre
M. Doubek
G. Favre
G. Hallewell
S. Katunin
D. Lombard
A. O’Rourke
A. Madsen
S. McMahon
K. Nagai
C. Rossi
B. Pearson
D. Robinson
A. Rozanov
E. Stanecka
M. Strauss
V. Vacek
R. Vaglio
J. Young
spellingShingle M. Battistin
S. Berry
P. Bonneau
O. Crespo-Lopez
C. Deterre
M. Doubek
G. Favre
G. Hallewell
S. Katunin
D. Lombard
A. O’Rourke
A. Madsen
S. McMahon
K. Nagai
C. Rossi
B. Pearson
D. Robinson
A. Rozanov
E. Stanecka
M. Strauss
V. Vacek
R. Vaglio
J. Young
Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications
Sensors & Transducers
Ultrasonic binary gas analysis
ATLAS Detector Control System
Sonar
thermosiphon
Evaporative cooling system.
author_facet M. Battistin
S. Berry
P. Bonneau
O. Crespo-Lopez
C. Deterre
M. Doubek
G. Favre
G. Hallewell
S. Katunin
D. Lombard
A. O’Rourke
A. Madsen
S. McMahon
K. Nagai
C. Rossi
B. Pearson
D. Robinson
A. Rozanov
E. Stanecka
M. Strauss
V. Vacek
R. Vaglio
J. Young
author_sort M. Battistin
title Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications
title_short Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications
title_full Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications
title_fullStr Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications
title_full_unstemmed Novel Ultrasonic Instrumentation Developments for Real-time Monitoring of Binary Gas Mixtures and Flow: Description and Applications
title_sort novel ultrasonic instrumentation developments for real-time monitoring of binary gas mixtures and flow: description and applications
publisher IFSA Publishing, S.L.
series Sensors & Transducers
issn 2306-8515
1726-5479
publishDate 2016-12-01
description Custom ultrasonic instruments have been developed for continuous monitoring and real-time measurement of composition and flow in binary gas mixtures. These characteristics are derived from measurements of sound transit time along two opposite directions - parallel or tilted to the gas flow direction. The flow rate is then calculated from the transit time difference while the average is used to compute sound velocity by comparison with a sound velocity/composition database. Five devices are integrated in the Detector Control System of the ATLAS experiment at the CERN Large Hadron Collider. Three instruments monitor C3F8 and CO2 coolant leaks into the nitrogen-purged envelopes of the inner silicon tracker; respectively with precisions better than ±2´10-5 and ±10-4. Two further instruments are used to monitor the new thermosiphon C3F8 evaporative coolant recirculator. One of these measures C3F8 vapour return flow to the condenser while the other tracks air ingress into the condenser with a precision better than 10-3. The precision of these instruments highlights their potential in other applications requiring continuous binary gas composition monitoring.
topic Ultrasonic binary gas analysis
ATLAS Detector Control System
Sonar
thermosiphon
Evaporative cooling system.
url http://www.sensorsportal.com/HTML/DIGEST/december_2016/Vol_207/P_2878.pdf
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