海洋学研究 ›› 2013, Vol. 31 ›› Issue (1): 85-90.

• 研究论文 • 上一篇    

鲐鱼灯光围网渔船水上集鱼灯水中照度分布及优化配置的理论计算

沙锋1,2, 钱卫国*1,2,3, 吴仲琪4, 陈幸骏3   

  1. 1.国家远洋渔业工程技术研究中心 上海海洋大学,上海 201306;
    2.上海海洋大学 海洋科学学院,上海 201306;
    3.大洋渔业资源可持续开发省部共建教育部重点实验室 上海海洋大学,上海 201306;
    4.宁波大学,浙江 宁波 315211
  • 收稿日期:2012-06-11 修回日期:2012-12-31 出版日期:2013-03-15 发布日期:2022-11-29
  • 通讯作者: *钱卫国,副教授,E-mail:wgqian@shou.edu.cn
  • 作者简介:沙锋(1971-),男,江苏如皋市人,硕士,主要从事轮机工程和渔业机械方面的研究。E-mail:fsha@shou.edu.cn
  • 基金资助:
    国家高技术研究发展计划资助项目(SS2012AA091803);国家公益性行业(农业)科研专项经费资助项目(201003024)

The theoretical calculations of underwater irradiance of upper water fish aggregation lamps and its optimal allocation in light purse seine vessels for chub mackerel(Scomber japonicus)

SHA Feng1,2, QIAN Wei-guo*1,2,3, WU Zhong-qi4, CHEN Xing-jun3   

  1. 1. National Engineering Research Center for Oceanic Fisheries, Shanghai Ocean University, Shanghai, 201306 China;
    2. College of Marine Sciences, Shanghai Ocean University, Shanghai 201306, China;
    3. Key Laboratory of Sustainable Exploitation of Oceanic Fisheries Resources, Ministry of Education,Shanghai Ocean University, Shanghai 201306, China;
    4. Ningbo University, Ningbo 315211, China
  • Received:2012-06-11 Revised:2012-12-31 Online:2013-03-15 Published:2022-11-29

摘要: 采用叠加法照度计算模式,根据一组鲐鱼灯光围网渔船中3艘不同渔船的水上集鱼灯布置参数,使用自行开发的水上集鱼灯水下光场计算系统,对各船的水中照度分布进行了计算,获得船舷右侧中部水深方向200 m范围内不同深度的照度,并使用Surfer 8.0软件绘制等值曲线图,结果表明:主灯船在总功率为180 kW的情况下,10 lx的等照度曲线水平方向最远在56 m左右,水深方向不超过20 m;离船水平距离40 m、垂直距离40 m处的照度约为0.01 lx。副灯船在总功率为120 kW的情况下,10 lx的等照度曲线水平方向最远在46 m左右,水深方向不超过18 m;离船水平距离33 m、垂直距离38 m处的照度约为0.01 lx。网船在总功率为40 kW的情况下,10 lx的等照度曲线水平方向最远在45 m左右,水深方向不超过15 m;离船水平距离30 m、垂直距离35 m处的照度为0.01 lx左右。从集鱼灯的配置情况来看,主灯船、副灯船与网船目前的配置均较好,但主灯船在灯距增大到0.26 m、灯高增大到5 m时可增加1.6%的有效水体体积,副灯船在灯距减少到0.28 m、灯高增大到5 m时可增加2.1%的有效水体体积,网船在灯距增大到0.64 m、灯高增大到9 m时可增加1.7%的有效水体体积。计算结果还表明,大幅度的增加光诱渔船的集鱼灯功率并不能很有效的提高该船的光诱范围。

关键词: 灯光围网, 水中照度, 集鱼灯, 渔船, 鲐鱼

Abstract: According to the arrangement parameters of attracting lamps on the light purse seine vessels, the illumination distribution underwater was calculated. The results showed that in the case of the total power of fishing lamps being 180 kW in main light vessel, the equal illumination curve of 10 lx could reach 56 m in horizontal direction in the farthest, and did not exceed 20 m in vertical direction. In 40 m vertical and 40 m horizontal distance from the ship, the illumination was about 0.01 lx. In the second case of the total power of fishing lamps being 120 kW in vice light vessel, the equal illumination curve of 10 lx could reach 46 m in the horizontal farthest,and did not exceed 20 m in vertical direction. In 40 m vertical and 33 m horizontal distance from the ship, the illumination was about 0.01 lx. In the third case of the total power of fishing lamps being 40 kW in net vessel, the equal illumination curve of 10 lx could reach 45 m in the horizontal farthest, and did not exceed 15 m in vertical directiong. In 35 m water depth and 38 m horizontal distance from the ship, the illumination was about 0.01 lx. As to the configuration of fish lamp, the present current configuration of main light vessel is good, but if we increase the space to 0.26 m, and increase the lamps' height to 5 m, 1.6% of the effective water volume can be increased. The present current configuration of vice light vessel is good, but if we decrease the space between to 0.28 m, and increase the lamps' height to 5 m, 2.1% of the effective water volume can be increased. And the present current configuration of the net vessel is also good, but if we decrease the space to 0.64 m, and increase the lamps' height to 9 m, 1.7% of the effective water volume can be increased. The results also show that it is not very effective way to improve the light induced range of the boat by greatly increasing the total power of fishing lamps.

Key words: light purse seine, underwater irradiance, fish aggregation lamp, fishing vessels, Scomber japonicns

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