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Jurnal Skala Kesehatan Pub Date : 2022-02-02 DOI:10.31964/jsk.v13i1.339

Abdul Haris

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引用次数: 0

摘要

混凝剂和水的混合可以利用河道中发生水力跳跃时产生的湍流。水力跃变的发生是由于河道中两段的坡度不同。在水跃(水跃)中，流速从V1突然减小到V2。相应地，从y1到y2，流深也迅速增加(Triatmodjo, 2003)。使用液压跳跃相对便宜，因为它不需要像马达或气泵这样的搅拌器。所使用的水力跃变来自于水库出口处闸阀开度的大小。研究的变化是闸阀开度组合(60o、80o、90o);凝固剂注射点(X=跳跃前，Y=跳跃时，Z=跳跃后);沉淀时间(10、20、30分钟)。结果表明，在初始浊度为81.6 NTU至19 ~ 23.3 NTU的硫化铝净水工艺中，采用液力跃变混凝剂对浊度的去除率为74.2%。采用液压跃变对采用叶轮方法作为调节器的有效性为83%。关键词:液压跃变，闸阀开度

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Potensi Penggunaan Lompatan Hidrolik Dari Beda Bukaan Gate Pada Gate Valve Untuk Proses Koagulasi

Mixing coagulant and water can take advantage of the turbulence that occurs when a hydraulic jump occurs in a channel. The hydraulic jump occurs due to the difference in slope of the two segments in a channel. In a hydraulic jump (water jump), the flow velocity decreases suddenly from V1 to V2. Correspondingly, the flow depth also increases rapidly from y1 to y2 (Triatmodjo, 2003). The use of hydraulic jumps is relatively cheaper because it does not require a stirrer such as a motor or air pump. The hydraulic jump used comes from the size of the gate valve opening at the outlet of the water reservoir. The research variation is a combination of gate valve openings (60o, 80o, 90o); coagulant injection point (X=before the jump, Y=when the jump, Z=after the jump); settling time (10, 20, 30 minutes). The results showed that the efficiency of turbidity removal using hydraulic jumps as a coagulator of the water purification process with aluminum sulfide was 74.2% from the initial turbidity of 81.6 NTU to 19 – 23.3 NTU. The effectiveness of the use of hydraulic jumps on the use of the impeller method as a cogulator is 83%. Keywords: hydraulic jump, gate valve opening

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Jurnal Skala Kesehatan

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