Abstract
The flame temperature measurement gives the understanding of combustion processes and is important for the temperature control systems. In this paper the review and analyze of the methods of flame temperature measurement are represented. Each of them is effective under certain condition. Nowadays the method of Raman-scattering is promising in this field. It pretends to avoid some of the errors in other existing techniques.
References
[1] Butler B.W., Shannon K.S.: A review of error associated with thermocouple temperature measurement in fire environments, 2nd International Wildland Fire Ecology and Fire Management Congress, 2003.
[2] Gill W., Donaldson A.B., Lucero R.E., Yilmaz N.: Problems encountered in fluctuating flame temperature measurements by thermocouple, Sensors, 8, pp.7882- 7893, 2008.
[3] Teplinsky M.V., Yagodnikov D.A.: Digital processing and analysis of results visualization of fire tests of the model rocket solid-fuel engine, Vestnik MHTU Baumana, no.3, 2005, p.34-41.
[4] Gutschwager B., Hartmann J., Hollandt J.: Strahlungsthermometrie – Temperaturen berührungslos messen, Auszug aus atp-Sonderheft 6/2006 Systeme und Lösungen zur berührungslosen Temperaturmessung, pp.1-14.
[5] Gaydon A.G., Wolfhard H.G.: Flames, their structure, radiation and temperature: (3rd edition) London: Chapman and Hall Limited, 1970.
[6] Meier W., Stopper U.: Experimental study of industrial gas turbine flames including quantification of pressure influence on flow field, fuel/air premixing and flame shape, Combustion and Flame, vol.160, no.10, 2013, p.2103-2118.
[7] Atakan B., Hartlieb A.T., Kohse-Höinghaus K.: Temperature measurement in fuelrich non-sooting low-pressure hydrocarbon flames, Applied Physics B, vol.70, no.3, 2000, pp.435-445.
[8] Moore D.S.,McGrane S.D.: Raman temperature measurement, IOP Science, 2014
[9] Seheda O., Stadnyk B., Yatsyshyn S.: Metrology of Temperature Transducer based on Raman Effect, Sensors & Transducers Journal, Vol. 177, Issue 6, June 2010, pp.78-84.
[2] Gill W., Donaldson A.B., Lucero R.E., Yilmaz N.: Problems encountered in fluctuating flame temperature measurements by thermocouple, Sensors, 8, pp.7882- 7893, 2008.
[3] Teplinsky M.V., Yagodnikov D.A.: Digital processing and analysis of results visualization of fire tests of the model rocket solid-fuel engine, Vestnik MHTU Baumana, no.3, 2005, p.34-41.
[4] Gutschwager B., Hartmann J., Hollandt J.: Strahlungsthermometrie – Temperaturen berührungslos messen, Auszug aus atp-Sonderheft 6/2006 Systeme und Lösungen zur berührungslosen Temperaturmessung, pp.1-14.
[5] Gaydon A.G., Wolfhard H.G.: Flames, their structure, radiation and temperature: (3rd edition) London: Chapman and Hall Limited, 1970.
[6] Meier W., Stopper U.: Experimental study of industrial gas turbine flames including quantification of pressure influence on flow field, fuel/air premixing and flame shape, Combustion and Flame, vol.160, no.10, 2013, p.2103-2118.
[7] Atakan B., Hartlieb A.T., Kohse-Höinghaus K.: Temperature measurement in fuelrich non-sooting low-pressure hydrocarbon flames, Applied Physics B, vol.70, no.3, 2000, pp.435-445.
[8] Moore D.S.,McGrane S.D.: Raman temperature measurement, IOP Science, 2014
[9] Seheda O., Stadnyk B., Yatsyshyn S.: Metrology of Temperature Transducer based on Raman Effect, Sensors & Transducers Journal, Vol. 177, Issue 6, June 2010, pp.78-84.