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高速摄影技术分析射流式鱼泵流量对鱼运动规律影响
引用本文:徐茂森,黄斌,牟介刚,谷云庆,周佩剑,吴登昊. 高速摄影技术分析射流式鱼泵流量对鱼运动规律影响[J]. 农业工程学报, 2019, 35(17): 74-78
作者姓名:徐茂森  黄斌  牟介刚  谷云庆  周佩剑  吴登昊
作者单位:浙江工业大学机械工程学院;中国计量大学计量测试工程学院
基金项目:国家自然科学基金(51909235,51779226,51609212)和中国博士后科学基金(2018M642477)联合资助
摘    要:采用高速摄影技术初步研究了草鱼、团头鲂和鲫鱼等3种鱼类在射流式鱼泵内的运动规律,分析了鱼类逆流游动率、逆流游动过泵时间、姿态变化率及鱼类与泵壁面碰撞所受力与工作流体流量之间的关系。试验研究表明:在5种工作流体流量工况下,随着工作流体流量的增加,鱼类逆流游动率逐渐降低,过泵时间逐渐减少,姿态变化率逐渐升高,所受碰撞力逐渐升高;在工作流体流量较低时,鱼类逆流游动率超过85%,过泵时间均超过300 ms,姿态变化率均小于6%,所受碰撞力在1~3 N的范围内;在工作流体流量较高时,鱼类逆流游动率在50%~85%之间,过泵时间在125~175 ms之间,大多数情况下姿态变化率9%~18%之间,所受碰撞力在5~7N的范围内;在试验所用3种试验鱼中,草鱼的过泵时间最长,姿态变化率最高,并在大部分工况中所受碰撞力最大。

关 键 词:鱼;高速摄影技术;射流式鱼泵;工作流体流量;鱼类运动规律
收稿时间:2019-06-27
修稿时间:2019-08-29

Impact of primary flow rate on fish locomotion law in jet fish pump based on high speed photography
Xu Maosen,Huang Bin,Mou Jiegang,Gu Yunqing,Zhou Peijian and Wu Denghao. Impact of primary flow rate on fish locomotion law in jet fish pump based on high speed photography[J]. Transactions of the Chinese Society of Agricultural Engineering, 2019, 35(17): 74-78
Authors:Xu Maosen  Huang Bin  Mou Jiegang  Gu Yunqing  Zhou Peijian  Wu Denghao
Affiliation:1. College of Mechanical and Engineering, Zhejiang University of Technology, Hangzhou 310023, China;,1. College of Mechanical and Engineering, Zhejiang University of Technology, Hangzhou 310023, China;,2. College of Metrology and Measurement Engineering, China Jiliang University, Hangzhou 310018, China,2. College of Metrology and Measurement Engineering, China Jiliang University, Hangzhou 310018, China,2. College of Metrology and Measurement Engineering, China Jiliang University, Hangzhou 310018, China and 2. College of Metrology and Measurement Engineering, China Jiliang University, Hangzhou 310018, China
Abstract:Abstract: Sea cages have been widely used in fish industry in the recent years. Traditional method to transport fish is to lift the fish container, which is energy-intensive and could lead to fish losses. Energy-efficient fish pumps have been developed as a replacement in aquaculture to transport fish aimed to alleviate fish losses. Based on its operating principle, traditional fish pump can be classified into three types: Impeller fish pump, pressure/vacuum (P/V) fish pump, and jet fish pump. The impeller fish pump has specially designed high-speed rotating blades, which are efficient to transport fish but could hit the fish and result in casualties. The P/V fish pump is more friendly to the fish, but its discontinuous operation in suction and discharge is inefficient in energy. In contrast, the annular jet pump works by transferring momentum from a high-velocity primary stream to a secondary stream, improving its overall performance compared to other two fish pumps due to its non-rotation and continuous operation. Based on high speed photography, this paper presents an experimental study on impact of the primary flow rate on locomotion of Carassius auratus, Megalobrama amblycephala and Ctenopharyngodon idella in a jet fish pump under five operating conditions. The experimental results showed that with primary flow rate increasing, both percentage of backward-moving fish and the average transit time of the fish decreased, while the posture change rate and the average collision force between the fish and the wall increased. At low primary flow rate, the percentage of backward-moving fish was above 85%, the average transit time of the fish was more than 300 ms, the posture change rate was less than 6% and the average collision force between the fish and the wall was between 1 and 3 N. At the high primary flow rate, the percentage of backward-moving fish was between 50% and 85%, the average transit time of the fish was between 125 and 175 ms, the posture change rate was between 9% and 18% and the average collision force of the fish was between 5 and 7 N. Among the three types of fishes, Ctenopharyngodon idella had the longest transit time and highest posture change rate in the pump; they also suffered the biggest collision force with the cage wall in most operating conditions. Our results alluded that the jet fish pump can be optimized by intensifying the mixture of the primary flow and the secondary flow in the suction chamber and the throat to increase the posture change rate of the fish. This can reduce the transit time of the fish and increase the transport performance of the pump. In summary, the main contribution of our work is elucidation of the influence of the primary flow rate on locomotion of fish in jet fish pump. It provides guidelines to optimization of jet fish pump with locomotion of fish in consideration.
Keywords:fish   high speed photography   jet fish pump   primary flow rate   fish locomotion
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