Direct nanofluids configuration optimization based on the evolutionary topology optimization method

Chao Bai; Guanmin Zhang; Yan Qiu; Xueli Leng; Maocheng Tian

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Direct nanofluids configuration optimization based on the evolutionary topology optimization method

机译：基于进化拓扑优化方法的直接纳米流体构型优化

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摘要

Nanofluids performance counts on nanoparticle configuration. The evolutionary topology optimization algorithm is applied in this work for direct nanoparticle configuration optimization. The initial random distribution of nanoparticles inside base fluid is found to well simulate practical nanofluids. The optimized nanofluids configuration proves to be continuous strips assembled by nanoparticles with width comparable to size of nanoparticles and length comparable to size of heat-transferring system. System overall thermal resistance is significantly reduced by the optimized nanoparticle configuration. Future nanofluids should be fabricated with strip-shaped nanoparticles in order to perform better.

机译：纳米流体的性能取决于纳米颗粒的构型。进化拓扑优化算法被应用在这项工作中，用于直接的纳米颗粒构型优化。发现纳米粒子在基础流体内部的初始随机分布很好地模拟了实用的纳米流体。最佳的纳米流体构型被证明是由纳米颗粒组装而成的连续条，其宽度与纳米颗粒的尺寸相当，而长度与传热系统的尺寸相当。优化的纳米粒子配置可显着降低系统的整体热阻。未来的纳米流体应使用带状纳米颗粒制成，以使其性能更好。

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来源
《International Journal of Heat and Mass Transfer 》 |2018年第2期| 201-210| 共10页
作者
Chao Bai; Guanmin Zhang; Yan Qiu; Xueli Leng; Maocheng Tian;
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作者单位

Institute of Energy and Power Engineering, Shandong University, China;

Institute of Energy and Power Engineering, Shandong University, China;

Institute of Energy and Power Engineering, Shandong University, China;

Institute of Energy and Power Engineering, Shandong University, China;

Institute of Energy and Power Engineering, Shandong University, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Nanofluids configuration; Evolutionary topology optimization; algorithm; System overall thermal resistance; Nanoparticle size; Nanoparticle volume fraction; Nanofluids fabrication;

机译：纳米流体配置;进化拓扑优化;算法;系统整体热阻;纳米颗粒尺寸;纳米颗粒体积分数;纳米流体制造;

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1. Stress-based topology optimization using bi-directional evolutionary structural optimization method [J] . Xia Liang, Zhang Li, Xia Qi, Computer Methods in Applied Mechanics and Engineering . 2018 ,第MAY1期

机译：基于双向演化结构优化方法的基于应力的拓扑优化
2. Topology optimization using bi-directional evolutionary structural optimization based on the element-free Galerkin method [J] . Shobeiri Vahid Engineering Optimization . 2016 ,第1a3期

机译：基于无元素Galerkin方法的双向进化结构优化拓扑优化
3. RELIABILITY-BASED TOPOLOGY OPTIMIZATION BASED ON BIDIRECTIONAL EVOLUTIONARY STRUCTURAL OPTIMIZATION USING MULTI-OBJECTIVE SENSITIVITY NUMBERS [J] . K. H. CHO, S. P. RYU, J. Y. PARK, International Journal of Automotive Technology . 2011 ,第6期

机译：基于多目标灵敏度数的双向进化结构优化的基于可靠性的拓扑优化
4. Topology Optimization of Composite Structure Using Bi-Directional Evolutionary Structural Optimization Method [C] . X. F. SUN, J. YANG, Y. M. XIE East Asia-Pacific Conference on Structural Engineering and Construction . 2013

机译：双向进化结构优化方法复合结构的拓扑优化
5. Shipping configuration optimization with topology-based guided local search for irregular shaped shipments [D] . Chang, Xinyue. 2015

机译：通过基于拓扑的引导式本地搜索对不规则形状的货物进行运输配置优化
6. Configuration and Optimization of a Minichannel Using Water–Alumina Nanofluid by Non-Dominated Sorting Genetic Algorithm and Response Surface Method [O] . Ali Akbar Ahmadi, Masoud Arabbeiki, Hafiz Muhammad Ali, 2020

机译：非支配排序遗传算法和响应面法的水-氧化铝纳米流体微通道构型与优化
7. Topology Optimization of Composite Structure Using Bi-Directional Evolutionary Structural Optimization Method [O] . Sun X.F., Yang J., Xie Y.M., 2011

机译：双向演化结构优化方法的复合结构拓扑优化

Direct nanofluids configuration optimization based on the evolutionary topology optimization method

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