Laser absorption spectroscopy for combustion diagnosis in reactive flows: A review

Laser absorption spectroscopy (LAS) has been rapidly developed and widely applied to combustion diagnosis in recent decades. As a cost-effective tool for measuring multiple combustion parameters, LAS provides unique properties in terms of accuracy and sensitivity for understanding the reactions and...

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Published in	Applied spectroscopy reviews Vol. 54; no. 1; pp. 1 - 44
Main Authors	Liu, Chang, Xu, Lijun
Format	Journal Article
Language	English
Published	Philadelphia Taylor & Francis 02.01.2019 Taylor & Francis Ltd
Subjects	Absorption spectroscopy Accuracy Combustion chambers combustion diagnosis Diagnosis instrumentation Intrusion Laser absorption spectroscopy line-of-sight Parameter sensitivity Reaction kinetics Spectrum analysis tomography
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Abstract	Laser absorption spectroscopy (LAS) has been rapidly developed and widely applied to combustion diagnosis in recent decades. As a cost-effective tool for measuring multiple combustion parameters, LAS provides unique properties in terms of accuracy and sensitivity for understanding the reactions and kinetics in reactive flows. Line-of-sight and tomographic LAS techniques have stimulated numerous applications and been proved to be robust for in situ combustion diagnosis in uniform and non-uniform combustion fields, respectively. This review highlights the breakthroughs in the evolution of LAS techniques from the viewpoints of key principles, sensors and instrumentations developed for combustion diagnosis, with particular emphasis on a series of spatially-resolved LAS techniques with their recent applications on obtaining high-fidelity measurement results with minimal intrusion to the practical combustors. Along the way, we note some challenges and requirements for further development of the LAS-based combustion diagnosis.
AbstractList	Laser absorption spectroscopy (LAS) has been rapidly developed and widely applied to combustion diagnosis in recent decades. As a cost-effective tool for measuring multiple combustion parameters, LAS provides unique properties in terms of accuracy and sensitivity for understanding the reactions and kinetics in reactive flows. Line-of-sight and tomographic LAS techniques have stimulated numerous applications and been proved to be robust for in situ combustion diagnosis in uniform and non-uniform combustion fields, respectively. This review highlights the breakthroughs in the evolution of LAS techniques from the viewpoints of key principles, sensors and instrumentations developed for combustion diagnosis, with particular emphasis on a series of spatially-resolved LAS techniques with their recent applications on obtaining high-fidelity measurement results with minimal intrusion to the practical combustors. Along the way, we note some challenges and requirements for further development of the LAS-based combustion diagnosis.
Author	Xu, Lijun Liu, Chang
Author_xml	– sequence: 1 givenname: Chang orcidid: 0000-0001-7257-8563 surname: Liu fullname: Liu, Chang organization: School of Engineering, The University of Edinburgh – sequence: 2 givenname: Lijun orcidid: 0000-0003-0488-9604 surname: Xu fullname: Xu, Lijun email: lijunxu@buaa.edu.cn organization: School of Instrument Science and Opto-Electronic Engineering, Beihang University
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Snippet	Laser absorption spectroscopy (LAS) has been rapidly developed and widely applied to combustion diagnosis in recent decades. As a cost-effective tool for...
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SubjectTerms	Absorption spectroscopy Accuracy Combustion chambers combustion diagnosis Diagnosis instrumentation Intrusion Laser absorption spectroscopy line-of-sight Parameter sensitivity Reaction kinetics Spectrum analysis tomography
Title	Laser absorption spectroscopy for combustion diagnosis in reactive flows: A review
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