H-TALIF measurement for wall radical quenching modelling in microscale combustion

Yong Fan; Yu Saiki; Sangeeth Sanal; Yuji Suzuki; IOP

doi:10.1088/1742-6596/1052/1/012040

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H-TALIF measurement for wall radical quenching modelling in microscale combustion

Conference proceeding

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H-TALIF measurement for wall radical quenching modelling in microscale combustion

Yong Fan, Yu Saiki, Sangeeth Sanal, Yuji Suzuki and IOP

17TH INTERNATIONAL CONFERENCE ON MICRO AND NANOTECHNOLOGY FOR POWER GENERATION AND ENERGY CONVERSION APPLICATIONS (POWERMEMS 2017), Vol.1052(1), pp.012040/1-012040/4

Journal of Physics Conference Series

01/07/2018

DOI: https://doi.org/10.1088/1742-6596/1052/1/012040

Abstract

Energy & Fuels

Engineering

Engineering, Electrical & Electronic

Nanoscience & Nanotechnology

Physical Sciences

Physics

Physics, Applied

Science & Technology

Science & Technology - Other Topics

Technology

Two-dimensional hydrogen atom (H) distribution in a CH4/air premixed flame in a narrow channel was measured using a newly-developed two-photon absorption LIF (TALIF) setup with high efficiency 205 nm laser. The wall chemical effect of SUS321 and quartz surfaces on the H distribution in a methane flame was examined. Based on the measured H atom concentration near the wall, a radical quenching model focused on the H adsorption is proposed and the initial sticking coefficient (S-0) of H on SUS321 and quartz surfaces are estimated as 0.1 and 0.01, respectively. Sensitivity analysis of CO, HRR and species distributions with varying S-0 of H, O, OH, CH3 were performed. It is found that the H adsorption should be dominant in the wall chemical effect on the methane flame.

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Title: H-TALIF measurement for wall radical quenching modelling in microscale combustion
Creators - without role: Yong Fan - The University of Tokyo
Yu Saiki - Nagoya Institute of Technology
Sangeeth Sanal - The University of Tokyo
Yuji Suzuki - The University of Tokyo
IOP
Publication Details: 17TH INTERNATIONAL CONFERENCE ON MICRO AND NANOTECHNOLOGY FOR POWER GENERATION AND ENERGY CONVERSION APPLICATIONS (POWERMEMS 2017), Vol.1052(1), pp.012040/1-012040/4
Series: Journal of Physics Conference Series
Publisher: Iop Publishing Ltd
Number of pages: 4
Grant note: 15H03927; 15H05508 / JSPS KAKENHI Grant; Ministry of Education, Culture, Sports, Science and Technology, Japan (MEXT); Japan Society for the Promotion of Science; Grants-in-Aid for Scientific Research (KAKENHI)
Identifiers: 9942299008331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Conference proceeding