Theoretical and Computational Analysis on Double-End Submerged Hollow Fibre Membrane Modules

Abstract: This paper studies the potential increase in permeate output flow rate that submerged hollow fibres can achieve when operating in double-end suction. The flow dynamics of submerged hollow fibre membranes with different combinations of fibre inner diameter, membrane thickness, and membrane permeability were numerically simulated. Fibre features (fibre inner diameter, membrane thickness, and membrane permeability) are then characterised for their effects on the increment in permeate flow rate due to change in co… Show more

“…Zhu et al [20] developed an artificial neural network for the calculation of temperature variation of the IEC. The hollow fiber can be integrated with the IEC [21] due to its capability of water vapor permeation [22]. Tariq et al [23] provided an optimization strategy for regenerative evaporative coolers based on three objective functions.…”

On the Study of a Hybrid Indirect Evaporative Pre-Cooling System for Various Climates

“…Zhu et al [20] developed an artificial neural network for the calculation of temperature variation of the IEC. The hollow fiber can be integrated with the IEC [21] due to its capability of water vapor permeation [22]. Tariq et al [23] provided an optimization strategy for regenerative evaporative coolers based on three objective functions.…”

On the Study of a Hybrid Indirect Evaporative Pre-Cooling System for Various Climates