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| Main Authors: | , , , |
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| Format: | Preprint |
| Published: |
2026
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2603.28137 |
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| _version_ | 1866910084834000896 |
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| author | Hirotani, Shunsuke Shintani, Kunitaka Furusawa, Yoshikatsu Yaji, Kentaro |
| author_facet | Hirotani, Shunsuke Shintani, Kunitaka Furusawa, Yoshikatsu Yaji, Kentaro |
| contents | Efficient thermal management in high-power electronic devices requires cooling channel designs that provide high heat removal while satisfying strict spatial and manufacturing constraints. This study presents a two-stage hierarchical topology optimization framework for cooling channels based on the Moving Morphable Components (MMC) method. The optimization is performed sequentially: in the first stage, only wall components are optimized to establish the global flow network and insignificant components are removed; in the second stage, the global structure is fixed and fin components are optimized to improve local thermal performance. The method is coupled with a two-layer thermofluid model using the Brinkman approximation and solved with the adjoint sensitivity approach. Across multiple inlet pressure conditions, the proposed framework consistently generates designs with clear functional separation. The results demonstrate that exploring such clearly separated structures through a two-stage optimization strategy leads to a further reduction in the objective function. Compared with simultaneous MMC optimization and conventional density-based topology optimization, the proposed method produces geometries that are more interpretable, controllable, and suitable for manufacturing. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2603_28137 |
| institution | arXiv |
| publishDate | 2026 |
| record_format | arxiv |
| spellingShingle | Topology Optimization of Cooling Channels Using Dual-Type Moving Morphable Components Hirotani, Shunsuke Shintani, Kunitaka Furusawa, Yoshikatsu Yaji, Kentaro Optimization and Control Efficient thermal management in high-power electronic devices requires cooling channel designs that provide high heat removal while satisfying strict spatial and manufacturing constraints. This study presents a two-stage hierarchical topology optimization framework for cooling channels based on the Moving Morphable Components (MMC) method. The optimization is performed sequentially: in the first stage, only wall components are optimized to establish the global flow network and insignificant components are removed; in the second stage, the global structure is fixed and fin components are optimized to improve local thermal performance. The method is coupled with a two-layer thermofluid model using the Brinkman approximation and solved with the adjoint sensitivity approach. Across multiple inlet pressure conditions, the proposed framework consistently generates designs with clear functional separation. The results demonstrate that exploring such clearly separated structures through a two-stage optimization strategy leads to a further reduction in the objective function. Compared with simultaneous MMC optimization and conventional density-based topology optimization, the proposed method produces geometries that are more interpretable, controllable, and suitable for manufacturing. |
| title | Topology Optimization of Cooling Channels Using Dual-Type Moving Morphable Components |
| topic | Optimization and Control |
| url | https://arxiv.org/abs/2603.28137 |