Two-dimensional temperature measurements in a technical combustor with laser Rayleigh scattering

Kampmann, Stefan; Leipertz, Alfred; Döbbeling, K.; Haumann, J.; Sattelmayer, Thomas

doi:10.1364/ao.32.006167

Cited by 55 publications

(18 citation statements)

References 5 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The tunnel furnace is 4.2 m long and the dimension of the cross-section of the furnace is 0.7 m Â 0.7 m. The burner is installed at center of the back wall of the furnace, which is a kind of industrial burner with model MG-101 (nozzle-mix) in Brazil and designed for dual-fuel (natural gas or light diesel). The material of the internal refractory wall is Mulcorita (RPA-MC30), whose composition is 47%Al 2 O 3 , 43%SiO 2 , 6.5%MgO, and 2%Fe 2 couple is installed in the bottom wall of the furnace to measure the temperature of the refractory wall. The measured temperature by the thermocouple is also used to avoid the overheating of the refractory wall, because the highest resistance temperature of RPA-MC30 is 1533 K. The image processing system consists of two flame image detectors, a frame-grabber, and a personal computer.…”

Section: Experimental Set-upmentioning

confidence: 99%

“…In practice, the most widely applied methods are thermocouple and suction pyrometer, which have some disadvantages, such as single-point measurement and degradation in harsh environments. Optical methods base on laser technique can measure flame temperatures and their distributions [1,2]. But due to the large dimensions of a furnace and the limited power of a laser, these methods are unsuitable for industrial furnaces and boiler furnaces.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Experimental investigation on simultaneous measurement of temperature distributions and radiative properties in an oil-fired tunnel furnace by radiation analysis

Lou

Zhou

et al. 2011

International Journal of Heat and Mass Transfer

View full text Add to dashboard Cite

Section: Experimental Set-upmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Experimental investigation on simultaneous measurement of temperature distributions and radiative properties in an oil-fired tunnel furnace by radiation analysis

Lou

Zhou

et al. 2011

International Journal of Heat and Mass Transfer

View full text Add to dashboard Cite

“…Optical methods base on laser technique can measure flame temperatures and their distributions. 4,5) But due to the large dimensions and sealing of blast furnace and the limited power of a laser, these methods are unsuitable for blast furnaces. However, thermal radiation is the predominant mode of heat transfer in hightemperature blast furnace.…”

Section: Introductionmentioning

confidence: 99%

Reconstruction of Three-dimensional Temperature Distribution with Radiative Image by Monte Carlo Method in Blast Furnace Raceway

Cheng

Zhang

et al. 2017

ISIJ Int.

View full text Add to dashboard Cite

This paper presented reconstruction of three-dimensional temperature distribution of raceway from radiative images based on Monte Carlo method and image processing techniques in the blast furnace. The Monte Carlo method was introduced to describe radiative heat transfer of raceway for its efficiency. Color CCD camera was used to obtain radiative information in visible spectrum of raceway. An efficient numerical inverse reconstruction model was established by the relationship between three-dimensional thermal radiation and two-dimensional radiative image. Because the reconstruction was an ill-posed inverse problem, a hybrid Tikhonov regularization method was used to determine the meaningful reconstruction. The numerical simulations were utilized for checking the validity of inverse reconstruction model before each experimental reconstruction. Experiment was done to reconstruct three-dimensional temperature distribution of 2 500 m 3 blast furnace raceway. Ultimately, this method could restore temperature distribution of the raceway effectively. Moreover, computational fluid dynamics (CFD) technology was applied to simulate combustion process and obtain temperature distribution of blast furnace raceway, which was compared with the reconstructed temperature distribution. All results show that the temperature distribution of raceway can be reconstructed reasonably using Monte Carlo method and image processing techniques.

show abstract

“…6 Even rapid-insertion techniques fail at the very high soot loadings found in high-pressure laminar diffusion flames. Consequently, a variety of optical methods such as LIF (laserinduced fluorescence), 7 and LSM (laser scattering of molecules), 8 have been developed in recent years. However, due to the complication of the measurement principles and system structures and using external light sources, these techniques are unsuitable for routine operations in industrial furnaces.…”

Section: Introductionmentioning

confidence: 99%

Pressure Effects on Structure and Temperature Field of Laminar Diffusion Flames

Darabkhani

Zhang

2010

48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition

View full text Add to dashboard Cite

This study addresses the influence of elevated pressures up to 10 bar on the flame geometry and two-dimensional soot temperature distribution of ethylene-air laminar co-flow diffusion flame. Narrow band photography and two-colour pyrometry in the Near Infra-red (NIR) region have been used to gain a better understanding on effects of pressure on these parameters. Theoretical background, discreet considerations in the choice of two narrow band filters at 780 nm and 1064 nm and calibration of the instrument factor are also described. It has been observed that the flame properties respond very sensitively to the pressure. As the pressure is increased, the flame diameter decreased at all flame heights and soot formation dramatically increased. The flame luminosity at the flame centerline increases, first by axial position from the fuel nozzle. Then the flame became less intense with height due to cooling of the soot particles by radiative losses, leading to a smoking flame at pressures of 2 bar and above. The soot temperature results obtained by applying twocolor method in the NIR region are shown to be consistent with the pyrometry results. Soot temperature measurements show that in ethylene diffusion flame the overall temperatures decreases with increasing pressure. It is shown that the rate of temperature drop is greater for a pressure increase at lower pressures in comparison with higher pressures. The average temperature drop of about 177 K is recorded along the flame centerline for a pressure increase from atmospheric to 2 bar and also from 2 bar to 4 bar. However, at higher pressures the rate of temperature drop decreases to 1/3 of the previous temperature drop. It is found that, applying two-color pyrometry method in the NIR region, utilizing a commercial digital camera, is capable of nonintrusive measurement of two-dimensional soot temperatures with a simple and relatively high accuracy technique. The maximum recorded error of the method was found to be about 8%. It mainly occurred at the regions with the lowest concentration of soot particles.

show abstract

Two-dimensional temperature measurements in a technical combustor with laser Rayleigh scattering

Cited by 55 publications

References 5 publications

Experimental investigation on simultaneous measurement of temperature distributions and radiative properties in an oil-fired tunnel furnace by radiation analysis

Experimental investigation on simultaneous measurement of temperature distributions and radiative properties in an oil-fired tunnel furnace by radiation analysis

Reconstruction of Three-dimensional Temperature Distribution with Radiative Image by Monte Carlo Method in Blast Furnace Raceway

Pressure Effects on Structure and Temperature Field of Laminar Diffusion Flames

Contact Info

Product

Resources

About