Dynamic light scattering and angular dissymmetry for the in situ measurement of silicon dioxide particle synthesis in flames

Michael R. Zachariah; D. Chin; H. G. Semerjian; J. L. Katz

doi:10.1364/AO.28.000530

Dynamic light scattering and angular dissymmetry for the in situ measurement of silicon dioxide particle synthesis in flames

Michael R. Zachariah, D. Chin, H. G. Semerjian, and J. L. Katz

Applied Optics
Vol. 28,
Issue 3,
pp. 530-536
(1989)
•https://doi.org/10.1364/AO.28.000530

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Michael R. Zachariah, D. Chin, H. G. Semerjian, and J. L. Katz, "Dynamic light scattering and angular dissymmetry for the in situ measurement of silicon dioxide particle synthesis in flames," Appl. Opt. 28, 530-536 (1989)

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History
- Original Manuscript: June 6, 1988
- Published: February 1, 1989

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Abstract

Particle size measurements have been made of silica formation in a counterflow diffusion flame reactor utilizing dynamic light scattering and angular dissymmetry methods. The results suggest that the techniques compare quite favorably in conditions of high signal to noise. However, the dynamic light scattering technique degrades rapidly as the signal strength declines, resulting in erroneously small particle diameters. As a general rule dynamic light scattering does not seem to possess the versatility and robustness of the classical techniques as a possible on-line diagnostic for process control. The drawbacks and limitations of the two techniques are also discussed.

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	Elastic	Dynamic
Particle size	d/λ > 0.1 for dissymmetry, two-color, polarization ratio techniques. No size limitations for scattering/extinction.	No size limit in principle. However, poor sensitivity for small particles.
Temperature	Temperature dependence on refractive index, usually weak.	K_n > 10 K_n < 10
		DαT^3/1DαT^1/2
		dαT⁻³⁴dαT^−1/2
Gas composition	Generally unimportant	dαMW^1/4dαMW^1/2
Flow velocity	Unimportant	Corrections may be necessary (see text)
Spatial resolution	Good resolution	Small scattering angles. Poor resolution.
	(In general in flame conditions spatial resolution of DLS not as good as elastic)
Particle shape	Measures scattering area. Important effects for large agglomerates of > 100 primary particles.	Measures hydrodynamic radius. Shape effects on drag for large agglomerates may be important.
Polydispersity	Heavily weighted toward larger particles scattering intensity αd⁶ in Rayleigh limit.

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