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Development of Direct and Fast Response Gas Measurement
ISSN: 0148-7191, e-ISSN: 2688-3627
Published April 14, 2008 by SAE International in United States
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Due to regulations for even lower levels of pollutants in exhaust gas, development of advanced combustion techniques and increasingly efficient catalysts has become more crucial than ever. One of the essential technologies to achieve this goal is an advanced measurement method, which can detect the characteristics of exhaust gas, such as temperature and chemical compositions, in real-time to clarify their reaction mechanisms. A direct and fast response (1ms) measurement technique was developed based on diode laser absorption spectroscopy and applied to practical engine exhaust measurement to prove the validity of this technology for various applications such as clarification of engine start phenomena and improvement of EGR controls.
CitationYamakage, M., Fukada, S., Iwase, T., Yoshida, T. et al., "Development of Direct and Fast Response Gas Measurement," SAE Technical Paper 2008-01-0758, 2008, https://doi.org/10.4271/2008-01-0758.
- Deguchi, Y. et al. Improvement of Combustion Control through Real-time Measurement of O 2 and CO Concentrations in Incinerators Using Diode Laser Absorption Spectroscopy 29th Symp. (International) on Combustion The Combustion Institute 147 153 2002
- Deguchi, Y. et al. Industrial Applications of Temperature and Species Concentration Monitoring Using Laser Diagnostics Measurement Science and Technology 13 103 115 2002
- Furlong, E.R. et al. Diode-Laser Sensors for Real-Time Control of Temperature and H 2 O in Pulsed Combustion Systems AIAA-98-3949 1998
- Mihalcea, R.M. et al. Advanced Diode Laser Absorption Sensor for In-Situ Combustion Measurements of CO 2 , H 2 O and Temperature 27th Symp. (International) on Combustion The Combustion Institute 95 101 1998
- Rieker, G.B. et al. Rapid Measurements of Temperature and H2O Concentrations in IC Engines with a Spark Plug-Mounted Diode Laser Sensor 31th Symp. (International) on Combustion The Combustion Institute 3041 3049 2007
- Rieke, G.B. et al. A Diode Laser Sensor for Rapid, Sensitive Measurements of Gas Temperature and Water Vapor Concentration at High Temperatures and Pressures Meas. Sci. and Technology 18 1195 1204 2007
- Eckbreth, A.C. et al. Laser Diagnostics for Combustion Temperature and Species ABACUS Press 1988
- Petersen, E.L. et al. Laser Absorption and Infrared Emission Measurements in a High-Pressure Shock Tube AIAA 97-0316 1997
- Wang, J. et al. Oxygen Measurements at High Pressures using Vertical Cavity Surface-Emitting Lasers App. Phys. B. 72 865 872 2001
- Battoei M. et al. Optimization of Exhaust Gas Distribution on the Catalytic Converter Inlet-Cone Diffuser using Advanced Shape Deformation Technology SAE Technical paper 2006-01-1439 2006
- Siewert R.M. et al. Modifying an Intake Manifold to Improve Cylinder-to-Cylinder EGR Distribution in a DI Diesel Engine Using Combined CFD and Engine Experiments SAE Technical paper 2001-01-3685 2001
- Rothman, L.S. et al. HITRAN database Appl. Optics 26 4058 4097 1987
- Diana, S. et al. The effect of Valve lift shape and timing on air motion and mixture formation of DISI engines adopting different VVA actuators SAE Technical paper series 2001-01-3553 3 8 2001