| 驻留式电解微气泡流动稳定性及减阻性能 |
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| 引用本文: | 朱睿,张焕彬,庄启彬,温潍齐,张子捷,何星宇,刘志荣.驻留式电解微气泡流动稳定性及减阻性能[J].四川大学学报(工程科学版),2022,54(4):147-154. |
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| 作者姓名: | 朱睿 张焕彬 庄启彬 温潍齐 张子捷 何星宇 刘志荣 |
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| 作者单位: | Aerospace Engineering School of Xiamen University,Aerospace Engineering School of Xiamen University,Aerospace Engineering School of Xiamen University,Aerospace Engineering School of Xiamen University,Aerospace Engineering School of Xiamen University,Aerospace Engineering School of Xiamen University,Aerospace Engineering School of Xiamen University |
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| 基金项目: | 装备预研教育部联合基金资助项目(6141A02033529);“十三五”装备预研领域基金资助项目(61402060405) |
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| 摘 要: | 针对航行体表面稳定高效水下减阻问题,提出自稳式电解微气泡阵列流动减阻性能试验研究。制备电极壁面微柱孔阵列表面试片经电解形成稳定微气泡阵列气膜,揭示电解电压、微柱孔尺寸、来流速度影响电解微气泡生长行为、驻留稳定性的作用机制,通过试验及数值方法研究微气泡阵列流动减阻性能,分析减阻机理。研究结果表明,电极壁面微柱孔可实现微气泡电解自适应启停控制;相同微柱孔直径时,电解电压增大则微气泡达到稳定直径用时越短,但微气泡阵列稳定时间及驻留率降低;相同电解电压下,250μm柱孔内微气泡达到稳定直径用时较少,且微气泡阵列稳定时间及驻留率更佳;气膜型驻留微气泡较突出型具备更强的驻留稳定性;250μm柱孔微气泡阵列气膜表面样片平均减阻率约为23%,微气泡阵列稳定时间及驻留率最大值分别为420s、95.46%(20V);驻留微气泡形变及气/水两相界面力共同作用使得微气泡上侧产生大量上抛高速流动,抑制了流向涡下扫流动猝发,显著减小近壁区雷诺切应力;微气泡阵列近壁数值平均湍动能约为0.010 m2/s2小于纯平板(约为0.021 m2/s2),微气泡阵列壁面数值平均剪切力约为30Pa小于纯平板(约为55Pa),故可达到高效湍流减阻。
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| 关 键 词: | 电解 微气泡阵列 减阻 驻留率 猝发 |
| 收稿时间: | 2021/4/30 0:00:00 |
| 修稿时间: | 2021/10/7 0:00:00 |
In-flow Stability and Flow Drag Reduction Performance of Resident Electrolyzed Microbubble Array |
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| ZHU Rui,ZHANG Huanbin,ZHUANG Qibin,WEN Weiqi,ZHANG Zijie,HE Xingyu,LIU Zhirong.In-flow Stability and Flow Drag Reduction Performance of Resident Electrolyzed Microbubble Array[J].Journal of Sichuan University (Engineering Science Edition),2022,54(4):147-154. |
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| Authors: | ZHU Rui ZHANG Huanbin ZHUANG Qibin WEN Weiqi ZHANG Zijie HE Xingyu LIU Zhirong |
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| Affiliation: | School of Aerospace Eng., Xiamen Univ., Xiamen 361102, China |
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| Abstract: | |
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| Keywords: | electrolysis microbubble array drag reduction resident rate burst |
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