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Digital X-ray Imaging Technique to Study the Horizontal Injection of Gas-Liquid Jets into Fluidized Beds (2003)

Ariyapadi, Siva ; Holdsworth, David W. ; Norley, Chris J.D. ; [et al.]

Berkeley, Calif. : Berkeley Electronic Press (now: De Gruyter)

International journal of chemical reactor engineering 1.2003, 1, A56

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ISSN: 1542-6580

Source: Berkeley Electronic Press Academic Journals

Topics: Process Engineering, Biotechnology, Nutrition Technology

Notes: Gas-liquid jets injected into fluidized beds of particles/catalyst find applications in many industrial processes. The effective distribution and mixing of the feed droplets with the entrained bed particles is vital in improving the process efficiency. The present study utilizes a sophisticated digital X-ray imaging system to study the internal flow structure of jets injected into fluidized beds. The system is equipped with an X-ray image intensifier (XRII) and optical detectors, which convert the transmitted X-ray photons into digital images of up to 60 frames s-1. The imaging technique provides useful information such as the jet expansion angle and the penetration distance. These are functional quantities in optimizing the performance of feed nozzles, and in modeling the jet-fluidized bed interactions.In this work, the horizontal injection of gas, gas-liquid, and liquid jets into fluidized beds is investigated. The results indicate that the jet expansion (half-angle) is considerably reduced for a gas-liquid jet (5-7 degrees) when compared to that of a gas jet (10-15 degrees). The gas-liquid jet also appears to penetrate more than a gas jet with the same momentum. When a liquid feed is introduced into a fluidized bed of particles, the particles may agglomerate if they are wet-enough to form liquid bridges. Improper feed distribution may be a direct contributor to enhanced agglomeration. In this regard, radio-opaque tracers mixed with the feed liquid are injected to track the formation and the movement of agglomerates. The tracer experiments show that the agglomerates are generated at the end of the jet region, close to its maximum penetration distance. A brief discussion on the modifications required to achieve improved contrast for the acquired images, and the effect of some important X-ray parameters are also included in the present study.

Type of Medium: Electronic Resource

URL: http://www.bepress.com/ijcre/vol1/A56

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Entrainment and Stability of a Horizontal Gas-Liquid Jet in a Fluidized Bed (2003)

Hulet, Craig ; Briens, Cedric ; Berruti, Franco ; [et al.]

Berkeley, Calif. : Berkeley Electronic Press (now: De Gruyter)

International journal of chemical reactor engineering 1.2003, 1, A60

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ISSN: 1542-6580

Source: Berkeley Electronic Press Academic Journals

Topics: Process Engineering, Biotechnology, Nutrition Technology

Notes: Fluid coking is a non-catalytic process where heavy hydrocarbon feed, sprayed using jets into a fluidized bed reactor, cracks upon contacting hot coke particles and produces valuable volatile fractions. It is estimated that the Alberta tar sands contain 1.7 trillion barrels of oil, equivalent to 35% of the world's crude oil reserves, of which the majority is processed using fluid cokers. Important parameters that affect the yield of fluid cokers include the feed jet stability and therefore its ability to entrain and mix the injected feedstock with the fluidized coke particles. To this purpose, this study investigated the effect of the use of various types of draft tubes, placed downstream of the feed jet to enhance mixing, on solids entrainment and jet stability.Specifically, it has been demonstrated with the use of a gas-liquid and gas-only jet that an optimum distance exists between the nozzle and draft tube for entrainment of solids. For both cases, this optimal distance occurs as the jet touches the draft tube wall. However, for a gas-only jet this occurs at a shorter distances due to the increased angle of expansion. The angles of expansion were confirmed using triboelectric probe measurements. It has also been shown that the shape of the inlet to the draft tube will have an effect on the rate of solids entrainment as will the presence of pulsations in the jet.

Type of Medium: Electronic Resource

URL: http://www.bepress.com/ijcre/vol1/A60

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Horizontal Penetration of Gas-Liquid Spray Jets in Gas-Solid Fluidized Beds (2004)

Ariyapadi, Siva ; Berruti, Franco ; Briens, Cedric ; [et al.]

Berkeley, Calif. : Berkeley Electronic Press (now: De Gruyter)

International journal of chemical reactor engineering 2.2004, 1, A22

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ISSN: 1542-6580

Source: Berkeley Electronic Press Academic Journals

Topics: Process Engineering, Biotechnology, Nutrition Technology

Notes: A new method has been developed to predict the horizontal jet penetration of gas-liquid sprays injected into gas-solid fluidized beds. The technique involves combining a theoretical model to predict the momentum flux of two-phase sprays with the Benjelloun et al. (1995) correlation for gas jets. Following this treatment, a generalized version of the jet penetration correlation has been developed, which includes the effect of nozzle geometry. The correlation predictions are in very good agreement with the experimental data for a wide range of nozzle geometries, nozzle scales, and jet fluids.

Type of Medium: Electronic Resource

URL: http://www.bepress.com/ijcre/vol2/A22

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