潜降式网箱的分流减流特性OA
Flow diversion and current-attenuation characteristics of a submersible net cage
[目的]为保证养殖鱼类福利,对一种具有分流减流装置的网箱进行研究,分析其网箱内部的二维流场分布、流速大小及变化情况.[方法]研究采用物理模型试验的方法,利用粒子图像测速(PIV)技术获取网箱内部流场分布,系统分析了分流减流装置对网箱内部流场的影响以及不同来流速度下网箱内部流场分布特性.[结果]在 0.1 m/s 来流速度下,分流减流装置对网箱内部流场分布影响非常明显.在分流减流装置背流区域,迎流区域以及两侧区域流速衰减程度分别为 87.8%、36.4%和 10.0%.试验在 0.08~0.24 m/s 来流下比较了沿来流方向上网箱内部流速衰减的稳定性,比较发现,网箱在不同来流速度下,对来流的衰减能够维持在一个稳定的水平,在分流减流装置迎流区域,衰减系数为0.6~0.7;在分流减流装置背流区域,衰减系数为 0.2~0.4.[结论]在分流减流装置作用下的网箱内部,流速大小较无分流减流装置的网箱减流效果有显著提升,且在不同来流下均能稳定减流.研究结果可为该类型网箱设计提供科学参考.
As animal welfare has received increasing attention from industry stakeholders,ensuring the welfare of farmed fish throughout the aquaculture production cycle has gradually emerged as an important issue.To further safeguard the welfare of farmed fish and improve the hydrodynamic environment within the cage,this study investigated a net cage featuring flow-diversion and current-attenuation characteristics.Focusing on the in-cage flow-field distribution and the velocity-reduction per-formance induced by the attenuation device,the internal hydrodynamics were characterized in two dimensions.By measuring and comparing velocity distributions at different locations and regions,the flow velocity magnitude and its attenuation pattern along the inflow direction were quantitatively evaluated.A physical model experiment was conducted,and particle image velocimetry(PIV)was employed to quantify the in-cage flow field.The effects of the flow-diversion and current-attenuation device on internal hydrodynamics were systematically analyzed,together with the flow-field distribution characteristics of the cage under different inflow conditions.At an inflow velocity of 0.1 m/s,the flow-diversion and current-attenuation device exer-ted a pronounced influence on the in-cage flow field.The velocity attenuation in the leeward region,the windward region,and the lateral regions of the device reached 87.8%,36.4%,and 10.0%,respectively.Experiments conducted under inflow velocit-ies of 0.08-0.24 m/s further compared the stability of the in-cage velocity attenuation along the inflow direction.The results indicate that the cage maintained a relatively stable attenuation performance across different inflow conditions:in the wind-ward region of the device,the attenuation coefficient ranged from 0.6 to 0.7,whereas in the leeward region,the attenuation coefficient exhibited a maximum range of 0.2-0.4.Under the same inflow velocity,the overall in-cage flow velocity under the action of the flow-diversion and current-attenuation device was significantly lower than that in the cage without the device,indicating that the device can effectively restructure the internal flow field and enhance the flow-reduction performance.In addition,the device markedly decreased the mean in-cage velocity,resulting in a more distinct low-velocity region within the cage.Across different inflow velocities,the flow-attenuation effect exhibited good stability,providing predictable and sus-tained velocity reduction over a given range of inflow conditions.Collectively,these results suggest that the flow-diversion and current-attenuation device represents an effective approach to improving the hydrodynamic environment of net cages,offering a scientific basis for structural parameter optimization and engineering design,and supporting reduced swimming energy expenditure of fish as well as enhanced habitat suitability and production stability.
陈美汉;崔璨;王文剑;金玉婷;宫羽;杨旭;桂福坤;冯德军;曲晓玉
浙江海洋大学水产学院,浙江 舟山 316022浙江海洋大学水产学院,浙江 舟山 316022浙江海洋大学,国家海洋设施养殖工程技术研究中心,浙江 舟山 316022浙江海洋大学水产学院,浙江 舟山 316022浙江海洋大学水产学院,浙江 舟山 316022浙江海洋大学,国家海洋设施养殖工程技术研究中心,浙江 舟山 316022浙江海洋大学,国家海洋设施养殖工程技术研究中心,浙江 舟山 316022浙江海洋大学,国家海洋设施养殖工程技术研究中心,浙江 舟山 316022浙江海洋大学水产学院,浙江 舟山 316022
农业科技
潜降式网箱分流减流阻流效应PIV测速物理模型试验
submersible net cageflow separation and attenuationflow resistance effectPIV measurementphysical experi-ment
《水产学报》 2026 (7)
191-203,13
国家重点研发计划(2024YFD2400200)国家自然科学基金(42576226,32002441,42376205,42306229)国家级大学生创新创业训练计划项目(202410340015) National Key Research and Development Program of China(2024YFD2400200)National Natural Science Foundation of China(42576226,32002441,42376205,42306229)College Students'Innovative Entrepreneurial Training Plan Program(202410340015)
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