I.K. Nikiforakis scite author profile

A simple modification is introduced into the integral model (IM) CorJet in an effort to predict better the characteristics of negatively buoyant jets (NBJ) discharged in a stationary ambient. Although this modification was developed for the CorJet model, it can be applied to every IM which employs the entrainment hypothesis. The detrainment of fluid from the main flow is taken into account by inserting a coefficient "p" into the conservation equations of volume, buoyancy and tracer mass flux. This coefficient expresses the ratio of the specific mass flux of the detrained fluid to the net specific mass flux entrained to the NBJ. The value of p is assumed constant along the jet trajectory and up to the maximum jet height, becoming zero thereafter. Results show that the modified CorJet model (MCM) predicts reasonably well experimental data from the literature and data from experiments performed in this work. The optimal value of p and therefore the detrained fluid from the main NBJ flow was found to decrease as the jet initial densimetric Froude number increases.

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Desalination brine disposal by means of negatively buoyant jets

Christodoulou

Papakonstantis²,

Nikiforakis³

2015

Desalination and Water Treatment

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Near-field dilution of a vertical dense jet impinging on a solid boundary

Christodoulou

Nikiforakis

Diamantis

et al. 2016

Desalination and Water Treatment

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I.K. Nikiforakis

Integrated modelling of single port, steady-state thermal discharges in unstratified coastal waters

A modified integral model for negatively buoyant jets in a stationary ambient

Desalination brine disposal by means of negatively buoyant jets

Near-field dilution of a vertical dense jet impinging on a solid boundary

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