New Calibration Technique for X-ray Absorption Studies in Single and Multiphase Flows in Packed Bed

Basavaraj, M. G.; Gupta, G. S.

doi:10.2355/isijinternational.44.50

Cited by 14 publications

(9 citation statements)

References 19 publications

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“…The situation is worse when multiple species are present in the absorbing material. Due to all of these uncertainties, recently, a new method has been developed by a few researchers, [14,19] which not only takes care of the polychromatic nature of the beam but also the mass absorption coefficient. Also, the method has been simplified further by removing most of the image processing operations.…”

Section: X-ray Methods and Calibrationmentioning

confidence: 99%

“…The same method is used in this article. Detail of the method is given elsewhere, [14,19,20] but the basic steps are outlined subsequently. Consider a packed bed of plastic beads through which liquid is flowing.…”

Section: X-ray Methods and Calibrationmentioning

confidence: 99%

“…More details on the X-ray machine and associated accessories including the computer are given elsewhere. [19,20] The movie thus recorded is digitized into snapshots/ frames using StreamPix and Image Pro plus software. These snapshots, which are the still images of the test sample, can be analyzed to explore the intensity variations occurring in the test sample.…”

Section: Methodsmentioning

confidence: 99%

“…This technique is described in brief in Section II. For full detail of the method, its validity, and the errors associated with it, readers are encouraged to go through References 14,19, and 20.…”

Section: Introductionmentioning

confidence: 99%

“…Subsequently, a few authors have reported different techniques for visualization and quantification of liquid holdups using X-ray [14,15] and neutron [16] radiography and other methods. [17,18] It is demonstrated that X-ray radiography [14,[19][20][21] can be used successfully to estimate the various local liquid holdups and to explain the dispersion and liquid hysteresis phenomena. We claim this technique gives better estimates of liquid holdup than do conventional methods.…”

Section: Introductionmentioning

confidence: 99%

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Quantification of Liquid Holdup in the Dropping Zone of a Blast Furnace—A Cold Model Study

Gupta

Naveen

2007

Metall Mater Trans B

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A two-dimensional cold model study, replicating an ironmaking blast furnace dropping zone, was carried out to estimate quantitatively the local dynamic, static, and total liquid holdups in the presence of lateral gas flow. Plastic beads were used as nonwetting packing material, and aqueous barium chloride solution was used to model the liquid flow. The X-ray visualization technique was used to image the entire packed bed followed by preliminary image processing operations in order to obtain the various types of liquid holdup values quantitatively at various locations in the bed. Liquid holdups were estimated at various liquid flow rates. Liquid holdup results have been obtained at local and total bed level and are discussed both in qualitative and quantitative ways. Substantial liquid holdup was found above the raceway zone. Liquid holdup in a few regions in the bed was an order of magnitude higher than average at a particular flow rate. This may have important implications with respect to blast furnace modeling/chemistry.

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Section: X-ray Methods and Calibrationmentioning

confidence: 99%

Section: X-ray Methods and Calibrationmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Quantification of Liquid Holdup in the Dropping Zone of a Blast Furnace—A Cold Model Study

Gupta

Naveen

2007

Metall Mater Trans B

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Modeling of Liquid Flow in a Packed Bed in the Presence of Gas Flow

Singh

Gupta

Sarkar

2007

Metall Mater Trans B

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Liquid metal and slag descend through a porous coke matrix in the lower part of an iron making blast furnace. The size of the raceway is an important factor in determining the gas penetration into the bed, which pushes the liquid toward the deadman region. This, in turn, affects the gas flow in the bed. The current study tries to explain theoretically the effect of cavity size hysteresis on gas-liquid distribution in a packed bed. The liquid flow has been modeled considering it to be discrete in nature. The turbulent nature of gas flow has been modeled using the k-e model for turbulent flow. The model results have been verified on a structured package. It is observed that the liquid is pushed away further from the nozzle-side wall in the case of decreasing gas velocity than increasing gas velocity at the same inlet gas velocity. The implications of the current study to the dropping zone of a blast furnace have been discussed.

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