The upward vertical flow of air‐water mixtures: III. Effect of gas phase density on flow pattern, holdup and pressure drop

Brown, R. A. S.; Sullivan, Geoffrey; Govier, G. W.

doi:10.1002/cjce.5450380207

Cited by 32 publications

(3 citation statements)

References 2 publications

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“…Coleman and Garimella [4] used high speed photography to identify the flow regimes. Brown et al [5] were able to classify the different flow regimes obtained in a horizontal gas-liquid pipe based on pressure drop observed.…”

Section: Introductionmentioning

confidence: 99%

Intelligent Flow Regime Identification Using IR Sensor and 3.5mm Headphone Jack

Vasan

Venkatesan²

2018

AUSMT

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Multiphase flow occurs in variety of applications in Industries and in nature. One of the most important subcategory of multiphase flow is gas-liquid flows predominantly found in evaporators, condensers, micro-reactors, cryogenic engines and in compact heat exchangers. In the present study, air-water two phase flows in a 4.7mm inner diameter glass tube with 0.3mm thickness is characterized using an IR transceiver and a headphone jack. The output of the IR receiver is sent to the laptop using a 3.5mm headphone jack. The novelty in the present work is that this eliminates the need for a dedicated micro-controller/ DAQ system to process the data. A simple program written in python is used to process the input of the mic and provide amplitude and frequency information which identifies the flow regime. High-Speed Images captured simultaneously are used to validate the output obtained using the headphone jack.

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Section: Introductionmentioning

confidence: 99%

Intelligent Flow Regime Identification Using IR Sensor and 3.5mm Headphone Jack

Vasan

Venkatesan²

2018

AUSMT

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“…45, (1953. (8) Hayworth, C. B., Treybal, R. E., Ibid., 42, 1174 (1950). (9) Johnson, H. F.. Bliss, Harding, Trans.…”

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confidence: 99%

Pressure Drop in Horizontal and Vertical Cocurrent Gas-Liquid Flow

Hughmark¹

1963

Ind. Eng. Chem. Fund.

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“…For fully developed vertical flow above the point where gas is introduced, correlations have been developed (4,9,11) from which pressure loss and flow patterns can be determined.…”

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confidence: 99%

Maximum Liquid Transport. Flow of Gas-Liquid Mixtures in Vertical Tubes

Nemet¹

1961

Ind. Eng. Chem.

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The upward vertical flow of air‐water mixtures: III. Effect of gas phase density on flow pattern, holdup and pressure drop

Cited by 32 publications

References 2 publications

Intelligent Flow Regime Identification Using IR Sensor and 3.5mm Headphone Jack

Intelligent Flow Regime Identification Using IR Sensor and 3.5mm Headphone Jack

Pressure Drop in Horizontal and Vertical Cocurrent Gas-Liquid Flow

Maximum Liquid Transport. Flow of Gas-Liquid Mixtures in Vertical Tubes

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