Influence of non-steady transient heat flux on flow boiling heat transfer and pressure drop in horizontal pipes

Influence of non-steady transient heat flux on flow boiling heat transfer and pressure drop in horizontal pipes

•Simulated DNI informed by real data was applied as a heat flux onto a horizontal pipe.•Step, sinusoidal, and triangular/ramp waveforms were used.•Step reduction resulted in a 30% lower heat transfer coefficient.•Sinusoidal and triangular reductions resulted in an 8% lower heat transfer coefficient....

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Bibliographic Details
Published in:International journal of heat and mass transfer Vol. 182; p. 121927
Main Authors: Van den Bergh, W.J., Dirker, J., Markides, C.N., Meyer, J.P.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-01-2022
Elsevier BV
Subjects:
Boiling
concentrated solar power
cooling
direct steam generation
Electronic waste
flow boiling
Heat flux
Heat transfer
Heat transfer coefficients
Perturbation
Pipes
Pressure drop
Sine waves
Solid surfaces
Steady state
Steam generation
Temperature
transient
Waste heat recovery
Waveforms
concentrated solar power
transient
flow boiling
cooling
direct steam generation
pressure drop
heat flux
heat transfer
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Summary:•Simulated DNI informed by real data was applied as a heat flux onto a horizontal pipe.•Step, sinusoidal, and triangular/ramp waveforms were used.•Step reduction resulted in a 30% lower heat transfer coefficient.•Sinusoidal and triangular reductions resulted in an 8% lower heat transfer coefficient.•Pressure drop was unaffected by perturbances. Transient heat fluxes imposed on solid surfaces can significantly affect the heat transfer and pressure drop of flow boiling processes in diverse fields ranging from microprocessor electronics cooling to waste-heat recovery and large-scale direct steam generation in concentrated solar applications. A series of simulated transients were applied in this experimental study to investigate the saturated flow boiling of R-245fa in a horizontal pipe. The test section consisted of an 8.31 mm inner diameter, 800 mm long heated pipe. The imposed transient conditions involved spatially uniform but temporally varying heat fluxes imposed on the pipe. A baseline condition with a saturation temperature of 35°C, a heat flux of 7.5 kW/m2 and a mass flux of 200 kg/m2s was considered over a vapour quality range from 0.10 to 0.85. Motivated by direct steam generation application case studies and based on actual solar direct normal irradiation data, reductions with an amplitude of 75% of the baseline heat flux were imposed over a period of 30 s. The waveform types were step, triangular and sinusoidal pulses, and were applied in a controlled fashion. It was found that during the step perturbation, the heat transfer coefficient was approximately 30% lower than the steady state condition. The triangular and sinusoidal perturbations resulted in heat transfer coefficients that were 8% lower than that of the steady state. The pressure gradient through the test section was unaffected by the imposed perturbations.
ISSN:0017-9310
1879-2189
DOI:10.1016/j.ijheatmasstransfer.2021.121927