Jet mixing of fluids in tanks
TLDR
In this article, an experimental investigation was made of the mixing of liquids in a tank where the liquid jet was injected through a nozzle, defined as the time required to reduce the concentration variation within 1% of the mixed mean value and was measured by an impulse response.Abstract:
An experimental investigation was made of the mixing of liquids in a tank where the liquid jet was injected through a nozzle The mixing time was defined as the time required to reduce the concentration variation within 1% of the mixed mean value and was measured by an impulse response The circulation time was also obtained from the response curve It was found that in the circulation flow regime of mixing (Re>3 ×104) there exists an optimum nozzle depth for rapid mixing It ranges from the liquid surface level to three-quarters of the liquid depth when the liquid depth is equal to the tank diameter, and is the mid-depth of the liquid when the liquid depth is smaller than the tank diameter When the nozzle height is within one-fourth of the tank diameter, it is efficient for rapid mixing to tilt the nozzle upwards enough to prevent the formation of a wall jet, which induces circulations of small variance of circulation timeread more
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Hydrodynamics of jet mixing in vessels
TL;DR: In this article, computational fluid dynamics (CFD) techniques are used to simulate jet mixing in a cylindrical vessel and the flow circulation patterns within the reactor and their effect on mixing of a soluble salt are studied.
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CFD modeling of jet mixed tanks
TL;DR: In this article, a computational fluid dynamics (CFD) modeling of jet mixed tanks has been proposed to predict overall mixing time fairly well, however, the concentration profiles as a function of time at various locations in the vessel are not predicted well.
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Mixing in a fluid jet agitated tank: effects of jet angle and elevation and number of jets
TL;DR: In this article, the effects of jet angle and elevation on mixing in a fluid jet agitated tank were investigated using computational fluid dynamics (CFD) and the results showed that, for a given geometric arrangement, the angle of the jet injection is significantly more important in determining the time required for 95% mixing than the length of a jet.
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Sediment Evacuation from Reservoirs through Intakes by Jet-Induced Flow
TL;DR: Althaus et al. as discussed by the authors developed a water jet arrangement which can be installed near the dam in front of the intake in order to generate an optimum circulation needed to maintain the fine sediments in suspension.
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CFD Modelling and Simulation of Jet Mixed Tanks
TL;DR: In this article, the authors used Computational Fluid Dynamics (CFD) to understand the mixing phenomena and to find out the time required for mixing in a jet mixed tank.