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Title: Optimization of Triply Periodic Minimal Surface Heat Exchanger to Achieve Compactness, High Efficiency, and Low-Pressure Drop

Journal Article · · Energies
DOI: https://doi.org/10.3390/en17205141 · OSTI ID:2472458
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With advancements in additive manufacturing (AM) techniques, high-quality triply periodic minimal surface (TPMS) structures can now be produced. TPMS walled heat exchangers (HX) hold significant potential for industrial applications and are receiving increasing attention. This paper explores the impact of various TPMS design variables on flow and thermal performance to optimize TPMS heat exchangers for compactness, high efficiency, and low pressure drop. The design variables examined include the type of TPMS lattice, unit cell size, wall thickness, aspect ratio, TPMS orientation, and equivalent thickness. The study reveals that the flow and heat transfer performance of TPMS structures are significantly affected by these design variables. For the Gyroid, Diamond, and SplitP lattices, performance is nearly identical when the surface-to-volume ratio is kept constant. The average velocity of the fluid in the TPMS HX should be 0.3 m/s. The corresponding Re is between 300~800. Thin wall thickness, small equivalent thickness, and flat lattice configurations can significantly reduce pressure drop while maintaining the overall heat transfer coefficient. Additionally, the angle between the flow direction and TPMS orientation can increase pressure drop. Three aluminum heat exchangers were successfully printed using an AM machine, and testing results are comparable with theoretical prediction.

Sponsoring Organization:
USDOE
Grant/Contract Number:
SC0025372
OSTI ID:
2472458
Journal Information:
Energies, Journal Name: Energies Journal Issue: 20 Vol. 17; ISSN 1996-1073; ISSN ENERGA
Publisher:
MDPI AGCopyright Statement
Country of Publication:
Switzerland
Language:
English

References (13)

Effect of Manufacturing Techniques in Pressure Drop on Triple Periodical Minimal Surface Packings  journal March 2021
Bioinspired heat exchangers based on triply periodic minimal surfaces for supercritical CO2 cycles journal October 2020
Heat transfer and pressure drop characteristics of heat exchangers based on triply periodic minimal and periodic nodal surfaces journal June 2022
Multi-objective optimization of TPMS-based heat exchangers for low-temperature waste heat recovery journal July 2022
A new microchannel heat exchanger configuration using CNT-nanofluid and allowing uniform temperature on the active wall journal April 2022
Effect of design parameters on passive control of heat transfer enhancement phenomenon in heat exchangers–A brief review journal March 2023
Investigations on porous media customized by triply periodic minimal surface: Heat transfer correlations and strength performance journal December 2021
Morphology, flow and heat transfer in triply periodic minimal surface based porous structures journal May 2021
Design analysis of the “Schwartz D” based heat exchanger: A numerical study journal October 2021
Fluid permeabilities of triply periodic minimal surfaces journal November 2005
Forced Convection Computational Fluid Dynamics Analysis of Architected and Three-Dimensional Printable Heat Sinks Based on Triply Periodic Minimal Surfaces journal July 2020
Design and Additive Manufacturing of TPMS Heat Exchangers journal May 2024
Advanced Heat Exchanger Technology for Aerospace Applications conference November 2008

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