水流速度对具有直叶和螺旋叶萨沃尼乌斯转子的混合式 HKT 扭矩行为的影响

Q2 Mathematics

CFD Letters Pub Date : 2024-05-06 DOI:10.37934/cfdl.16.9.114125

Md. Mustafa Kamal, Ali Abbas, Tabish Alam, Rohit Khargotra, Tej Singh

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引用次数: 0

摘要

河流、运河和水电站尾流中的水流可借助水动力涡轮机转化为可用动能。在这项研究中，采用数值技术评估了萨沃尼乌斯螺旋叶片角度为 0˚ 和 180˚ 的混合涡轮机的扭矩特性。在 0.5 至 2.0 米/秒的水速范围内，以及在 0.3 至 1.5 的 TSR 范围内，对水轮机的特性进行了驱动。数值分析表明，水流速度对混合式水轮机产生的平均扭矩和静态扭矩有很大影响。随着水流速度的增加，混合式水轮机产生的扭矩也随之增加。然而，萨沃尼乌斯叶片的结构会改变水轮机的扭矩特性。萨沃尼乌斯螺旋叶片角度为 0˚ 的混合式水轮机的平均扭矩和静态扭矩增长比萨沃尼乌斯螺旋叶片角度为 180˚ 的混合式水轮机更为理想。尽管如此，通过在混合配置中的传统萨沃尼乌斯叶片上引入扭转角，一转中的每个转子角度都能获得正扭矩。

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Influence of Water Flow Speed on the Torque Behaviour of the Hybrid HKT Having Straight and Helical Bladed Savonius Rotor

Flow streams in rivers, canals, and the tail race of a hydropower plant can be transformed into usable kinetic energy with the help of a hydrokinetic turbine. In this work, the torque characteristics of the hybrid turbine having Savonius helical blade angles of 0˚ and 180˚ have been evaluated using a numerical technique. The characteristics of the turbine are driven for the range of water speed of 0.5 to 2.0 m/s and TSR of 0.3 to 1.5. It is observed from numerical analysis that the flow speed of water significantly affects the mean torque and static torque established by the hybrid turbine. The torque developed by the hybrid turbine enhances as water speed increases. However, the structure of the Savonius blade can alter the torque characteristics of the turbine. The mean torque and static torque growth by the hybrid turbine with a Savonius helical blade angle of 0˚ is more optimum than the hybrid turbine with a Savonius helical blade angle of 180˚. Although, the positive magnitude of torque is achieved at every rotor angle over one revolution by introducing a twist angle to the traditional Savonius blade in the hybrid configuration.

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来源期刊

CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes

CiteScore

3.40

自引率

0.00%

发文量