Investigation of Different Pre-Treatment Techniques and 3D Printed Turbulence Promoter to Mitigate Membrane Fouling in Dairy Wastewater Module

Abstract: This study investigates the enhancement of dairy wastewater treatment using chemical and physical pre-treatments coupled with membrane separation techniques to reduce membrane fouling. Two mathematical models, namely the Hermia and resistance-in-series module, were utilized to comprehend the mechanisms of ultrafiltration (UF) membrane fouling. The predominant fouling mechanism was identified by fitting experimental data into four models. The study calculated and compared permeate flux, membrane rejection, and … Show more

“…Another possible drawback is the quality and durability of the printed devices [85]. A third possible drawback is the environmental impact of 3D printing [86,87]. However, Tsai et al [88] concluded that the use of 3D-printed turbulence promoters is a simple alternative to increase the permeate flux through the membrane up to 78 % and that 3D printing technology provides significant progress in designing turbulence promoters with complex geometric shapes.…”

Electrodialysis with Irregular Membrane Spacers: Which is the Right Choice?

“…Another possible drawback is the quality and durability of the printed devices [85]. A third possible drawback is the environmental impact of 3D printing [86,87]. However, Tsai et al [88] concluded that the use of 3D-printed turbulence promoters is a simple alternative to increase the permeate flux through the membrane up to 78 % and that 3D printing technology provides significant progress in designing turbulence promoters with complex geometric shapes.…”

Electrodialysis with Irregular Membrane Spacers: Which is the Right Choice?

Advancements in ceramic membrane technology for water and wastewater treatment: A comprehensive exploration of current utilizations and prospective horizons