Please use this identifier to cite or link to this item: https://hdl.handle.net/10356/88730
Title: Design and development of novel feed spacers in spiral wound membrane modules with 3D printing
Authors: Tan, Wen See
Chua, Chee Kai
Chong, Tzyy Haur
An, Jia
Keywords: Feed Spacers
3D Printing
DRNTU::Engineering::Mechanical engineering::Prototyping
Issue Date: 2018
Source: Tan, W. S., Chua, C. K., Chong, T. H., & An, J. (2018). Design and development of novel feed spacers in spiral wound membrane modules with 3D printing. Proceedings of the 3rd International Conference on Progress in Additive Manufacturing (Pro-AM 2018), 650-655. doi:10.25341/D4630P
Abstract: Feed spacer is a mesh-like structure placed between membrane sheets to create channels for fluid flow in a spiral wound membrane module (SWM). It has an important role in the hydrodynamic conditions of a SWM, which serves to facilitate mass transfer in the feed channel by generating vortex and promoting mixing. However, the challenges of commercial feed spacers include the trade-off between mass transfer and pressure drop along the channel that leads to the rise in energy demand as well as their impact on membrane fouling. With the advent of 3D printing, there is greater design freedom for the development of novel spacers. This paper focuses on the design and optimization of a novel spacer for SWM via 3D printing to maximise mass transfer while minimising pressure drop and membrane fouling. Due to the capability of 3D printing to rapidly prototype complicated and intricate structures, a series of existing, modified and innovative spacer structures against commercial feed spacers were designed, printed and examined to identify the basis form of spacer structure with the greatest potential. Eventually, the sinusoidal flutter designs proved to generate higher flux, lower pressure drop and higher mass transport in contrast to the commercial spacer. Therefore, the sinusoidal design is a potential spacer structure that could surpass the performance of the commercial spacer after further investigation by varying the design parameters to obtain the optimal design.
URI: https://hdl.handle.net/10356/88730
http://hdl.handle.net/10220/45984
DOI: 10.25341/D4630P
Rights: © 2018 Nanyang Technological University. Published by Nanyang Technological University, Singapore.
Fulltext Permission: open
Fulltext Availability: With Fulltext
Appears in Collections:Pro-AM Conference Papers

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