In situ absorption sensor for NO in combustion gases with a 5.2 μm quantum-cascade laser

Proceedings of the Combustion Institute

Volumn 33, Issue 1, 2011, Pages 725-733

  Chao, Xing ^a   Jeffries, Jay B ^a   Hanson, Ronald K ^a  

^a Stanford University   (United States)

Author keywords

Absorption spectroscopy; Combustion exhaust; In situ; Nitric oxide; Quantum cascade laser

Indexed keywords

ABSORPTION BAND; BAND TRANSITIONS; COAL-FIRED POWER PLANT; COMBUSTION EXHAUST; COMBUSTION EXHAUSTS; COMBUSTION GAS; CONSTANT TEMPERATURE; CRITICAL EVALUATION; DETECTION LIMITS; DIODE LASERS; IN-SITU; IN-SITU ABSORPTION; LASER PERFORMANCE; LINE-OF-SIGHT PATHS; NO CONCENTRATION; PRACTICAL COMBUSTION; REAL TIME MEASUREMENTS; TRANSIENT CHANGES; WATER-VAPOR ABSORPTION;

COAL; COAL COMBUSTION; COAL FUELED FURNACES; COAL INDUSTRY; ECONOMIZERS; EXHAUST GASES; FIRE TUBE BOILERS; FOSSIL FUEL POWER PLANTS; GAS ABSORPTION; IN SITU COMBUSTION; INFRARED LASERS; LIGHT ABSORPTION; METAL RECOVERY; MINING; NITRIC OXIDE; PLANT SHUTDOWNS; QUANTUM CASCADE LASERS; SENSORS; WATER ABSORPTION; WATER VAPOR;

ABSORPTION SPECTROSCOPY;

EID: 78650887116     PISSN: 15407489     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.proci.2010.05.014     Document Type: Article

References (18)

1. US Environmental Protection Agency, National Air Quality and Emissions Trends Report, Special Studies Ed., September, 2003, available at http://www.epa.gov/air/airtrends/aqtrnd03/.
2. US Environmental Protection Agency, NOx Budget Program 2006 Progress Report, September, 2007, available at http://www.epa.gov/airmarkt/progress/ nbp06.html.
3. US Environmental Protection Agency, Proposed Clear Skies Legislation, September, 2007, available at http://www.epa.gov/clearskies/.
4. M.G. Allen Measurement Science and Technology 9 1998 545 562
5. M.G. Allen, E.R. Furlong, and R.K. Hanson Katharina Kohse-Hoeinghaus, Jay B. Jeffries, Applied Combustion Diagnostics 2002 Taylor and Francis London 479 498 Chapter 18
6. V. Ebert, H. Teichert, P. Strauch, T. Kolb, H. Seifert, and J. Wolfrum Proceedings of the Combustion Institute 30 2005 1611 1618
7. R.K. Hanson, J.B. Jeffries, M.G. Allen, NATO RSM-017 Applied Vehicle Technology Panel Specialists' Meeting on Recent Developments in Non-Intrusive Measurement Technology, Budapest, Hungary, April, 2005.
8. M.S. Zahniser, D.D. Nelson, and C.E. Kolb Katharina Kohse-Hoeinghaus, Jay B. Jeffries, Applied Combustion Diagnostics 2002 Taylor and Francis London 648 668 Chapter 26
9. D.J. Brassington R.H. Hester, R.J. Clark, Spectroscopy in Environmental Science vol. 24 1994 John Wiley and Sons Chichester 85 148
10. T.N. Anderson, R.P. Lucht, S. Priyadarsan, K. Annamalai, and J.A. Caton Applied Optics 46 2007 3946 3957
11. R.P. Lucht, T.N. Anderson, and S. Priyadarsan Proceedings of the Annual International Pittsburgh Coal Conference 20 2003 476 484
12. D. M Sonnenfroh, and M.G. Allen Applied Optics 36 1997 7970 7977
13. R.M. Mihalcea, D.S. Baer, and R.K. Hanson Measurement Science and Technology. 9 1998 327 338
14. D.B. Oh, and A.C. Stanton Applied Optics 36 1997 3294 3297
15. P.K. Falcone, R.K. Hanson, and C.H. Kruger Combustion Science and Technology 35 1983 81 99
16. J.B. McManus, D.D. Nelson, and S.C. Herndon Applied Physics B 85 2006 235 241
17. G. Wysocki, A.A. Kosterev, and F.K. Tittel Applied Physics B 80 2005 617 625
18. Rothman Journal of Quantitative Spectroscopy and Radiative Transfer 96 2005 139 204 The HITRAN database, available at http://cfa-www.harvard.edu/ hitran/