提高生存:伤害和死亡率的鱼与倾斜,钝前缘刀片击中

IF 4.6 Q2 ENVIRONMENTAL SCIENCES
S. Amaral, S. Watson, Abraham D. Schneider, Jenna Rackovan, Andrew Baumgartner
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引用次数: 14

摘要

摘要:紧凑型水轮机提供了降低水电站建设成本的潜力,但传统的水轮机叶片设计由于叶片冲击速度高和前缘薄而危及夹带鱼。我们评估了联合叶片前缘倾斜和大前缘厚度来增加打击存活率的潜力。虹鳟鱼(Oncorhynchus mykiss)受到100毫米厚的叶片类似物的打击。在10 m/s的速度下,鱼长与叶片前缘厚度比(L/t)为2时,在相对于切向倾斜30°的叶片方向上,攻击的存活率为98%,而在相对于切向倾斜90°的位置上,攻击的存活率为26.8%。对于L/t为1.14-2的情况,生存率对中体区域内的打击位置很敏感,这是由高速视频确定的。当身体攻击位置为0.58(近尾)时,以10米/秒的速度攻击200毫米鱼,存活率为68%,当身体攻击位置为0.36(近头)时,存活率为7.9%。这些结果与之前的趋势一致,表明在低水头(<30米)和高水头项目中,有机会改进涡轮叶片设计,以便在更高的涡轮速度下提高被捕鱼的存活率。
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Improving survival: injury and mortality of fish struck by blades with slanted, blunt leading edges
Abstract Compact turbines offer potential to reduce hydropower plant construction costs, but conventional turbine blade designs endanger entrained fish due to high blade strike speeds and thin leading edges. We evaluated the potential for combined blade leading edge slant and large leading edge thickness to increase strike survival. Rainbow trout (Oncorhynchus mykiss) were subjected to strikes with 100 mm thick blade analogues. At 10 m/s, strikes at fish length to blade leading edge thickness ratio (L/t) of 2 resulted in 98% survival at a location along the blade witha 30° slant relative to the tangential direction, compared to 26.8% survival at a location with 90°slant. For L/t 1.14-2, survival was found to be sensitive to location of strike within the mid-body region, determined from high-speed video. Strikes of 200 mm fish at 10 m/s resulted in 68% survival when body strike location was 0.58 (near caudal), and 7.9% when body strike location was 0.36 (near head). These results are consistent with previous trends and indicate opportunities to improve turbine blade design for greater entrained fish survival at higher turbine speeds, at both low head (<30 m) and high head projects.
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CiteScore
7.10
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