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Title: Fully automated calibration for acoustic pyrometry

Abstract

A method of calibrating transceiver positions inside an acoustic pyrometry measuring vessel that contains a plurality of transceivers, includes determining (40) a speed of sound in the acoustic pyrometry measuring vessel from a temperature and gas composition of a gas inside the acoustic pyrometry measuring vessel, acquiring (41) time-of-flight (TOFs) Δti,j measurements from a plurality of pairs i,j of transceivers inside the acoustic pyrometry measuring vessel, estimating (42) a radius of the acoustic pyrometry measuring vessel from an average of the acquired TOF measurements, and using (43) an estimated radius of the acoustic pyrometry measuring vessel to estimate errors Δθj of displacement angles of the transceivers.

Inventors:
; ; ; ; ;
Publication Date:
Research Org.:
Siemens Energy, Inc., Orlando, FL (United States)
Sponsoring Org.:
USDOE
OSTI Identifier:
1568115
Patent Number(s):
10,240,988
Application Number:
14/894,010
Assignee:
Siemens Energy, Inc. (Orlando, FL)
DOE Contract Number:  
FC26-05NT42644
Resource Type:
Patent
Resource Relation:
Patent File Date: 05/29/2014
Country of Publication:
United States
Language:
English
Subject:
71 CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS; 97 MATHEMATICS AND COMPUTING

Citation Formats

Yan, Michelle Xiaohong, Claussen, Heiko, DeSilva, Upul P., Rosca, Justinian, Fang, Tong, and Ulerich, Nancy H. Fully automated calibration for acoustic pyrometry. United States: N. p., 2019. Web.
Yan, Michelle Xiaohong, Claussen, Heiko, DeSilva, Upul P., Rosca, Justinian, Fang, Tong, & Ulerich, Nancy H. Fully automated calibration for acoustic pyrometry. United States.
Yan, Michelle Xiaohong, Claussen, Heiko, DeSilva, Upul P., Rosca, Justinian, Fang, Tong, and Ulerich, Nancy H. Tue . "Fully automated calibration for acoustic pyrometry". United States. https://www.osti.gov/servlets/purl/1568115.
@article{osti_1568115,
title = {Fully automated calibration for acoustic pyrometry},
author = {Yan, Michelle Xiaohong and Claussen, Heiko and DeSilva, Upul P. and Rosca, Justinian and Fang, Tong and Ulerich, Nancy H.},
abstractNote = {A method of calibrating transceiver positions inside an acoustic pyrometry measuring vessel that contains a plurality of transceivers, includes determining (40) a speed of sound in the acoustic pyrometry measuring vessel from a temperature and gas composition of a gas inside the acoustic pyrometry measuring vessel, acquiring (41) time-of-flight (TOFs) Δti,j measurements from a plurality of pairs i,j of transceivers inside the acoustic pyrometry measuring vessel, estimating (42) a radius of the acoustic pyrometry measuring vessel from an average of the acquired TOF measurements, and using (43) an estimated radius of the acoustic pyrometry measuring vessel to estimate errors Δθj of displacement angles of the transceivers.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2019},
month = {3}
}

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Works referenced in this record:

Noise robust time of flight estimation for acoustic pyrometry
patent, July 2017


Method for determining waveguide temperature for acoustic transceiver used in a gas turbine engine
patent, April 2018


Gas turbine engine control using acoustic pyrometry
patent, October 2013


Non-intrusive measurement of hot gas temperature in a gas turbine engine
patent, September 2016


Acoustic pyrometer
patent, December 2004


Methods and apparatus for measuring temperature and heat flux in a material using ultrasound
patent, September 2012