	US 12,276,466 B2
	Heat exchanger based on gyroid/diamond hybrid minimal surface-based disturbance structure
Yu Liu, Liaoning (CN); Guanghan Yan, Liaoning (CN); Jiafel Zhao, Liaoning (CN); Yongchen Song, Liaoning (CN); Mingrui Sun, Liaoning (CN); Yiqiang Liang, Liaoning (CN); Lei Yang, Liaoning (CN); Lunxiang Zhang, Liaoning (CN); Yunsheng Yang, Liaoning (CN); Shuai Li, Liaoning (CN); Zhaoda Zhang, Liaoning (CN); Xiaokai Zhang, Liaoning (CN); Han Yan, Liaoning (CN); Fuyu Hua, Liaoning (CN); Yunlong Chai, Liaoning (CN); Jun Zhang, Liaoning (CN); Di Wu, Liaoning (CN); Kangjie Liu, Liaoning (CN); and Peng Wang, Liaoning (CN)
Assigned to DALIAN UNIVERSITY OF TECHNOLOGY, Liaoning (CN)
Appl. No. 18/700,712
Filed by DALIAN UNIVERSITY OF TECHNOLOGY, Liaoning (CN)
PCT Filed Dec. 26, 2022, PCT No. PCT/CN2022/141810 § 371(c)(1), (2) Date Apr. 12, 2024, PCT Pub. No. WO2023/173880, PCT Pub. Date Sep. 21, 2023.
Claims priority of application No. 202210255248.7 (CN), filed on Mar. 15, 2022.
Prior Publication US 2025/0067526 A1, Feb. 27, 2025
Int. Cl. F28F 7/02 (2006.01); F28F 13/12 (2006.01); B33Y 80/00 (2015.01)

CPC F28F 7/02 (2013.01) [F28F 13/12 (2013.01); B33Y 80/00 (2014.12); F28F 2210/02 (2013.01); F28F 2275/06 (2013.01)]

11 Claims

1. A heat exchanger based on a Gyroid/Diamond (GD-type) hybrid minimal surface-based disturbance structure, comprising a core, headers, and flanges, wherein the core comprises a cold fluid channel and a hot fluid channel, the hot fluid channel is filled with the GD-type hybrid minimal surface-based disturbance structure, and the GD-type hybrid minimal surface is controlled by the following basic equation: