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A two-way tubular water turbine using tidal power generation

A tubular water turbine and tidal power generation technology, which is applied in the direction of reaction engine, hydroelectric power generation, ocean energy power generation, etc., can solve the problems of poor hydraulic performance of reverse power generation, affecting the efficiency of reverse power generation, and reducing the efficiency of forward power generation. Achieve the effect of improving power generation efficiency, improving reverse power generation efficiency, and large excess flow

Inactive Publication Date: 2016-05-18
HOHAI UNIV +1
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  • Application Information

AI Technical Summary

Problems solved by technology

The device adopts the structure of the front movable guide vane. Although the matching angle between the movable guide vane and the blade can be adjusted to produce better hydraulic performance for forward power generation, when the reverse power is generated, there is no rear movable guide vane. The water flow does not form a certain circulation before entering the runner, and cannot cooperate well with the blades, resulting in poor hydraulic performance for reverse power generation
[0005] Yang Chunxia published the paper "Bidirectional Power Performance of a Tidal Unit with Unilateral and Double Guide Vanes", which studied the impact of two different forms of guide vanes on the hydraulic power of the tubular tidal unit. The impact of performance, when using double-sided movable guide vanes, the forward power generation efficiency is 85.81%, and the reverse power generation efficiency is 80.66%. The total efficiency of forward and reverse power generation is better than that of single-sided movable guide vanes; although The use of movable guide vanes on both sides can improve the power generation efficiency, but at the same time, there are still the following disadvantages: when the power is generated in the forward or reverse direction, the water will generate vortices after entering the water outlet channel through the outlet guide vanes, which will not only reduce the forward power generation efficiency, but also reduce the power generation efficiency. Affect the efficiency of reverse power generation
[0006] In view of the complex operating conditions of the two-way tidal generating set, it is required that both the forward and reverse turbine operating conditions should have high efficiency, so as to ensure the highest overall operating efficiency of the generating set, but the existing hydraulic design methods are still not enough. to maximum power generation

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  • A two-way tubular water turbine using tidal power generation
  • A two-way tubular water turbine using tidal power generation
  • A two-way tubular water turbine using tidal power generation

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Embodiment Construction

[0028] The specific implementation manners of the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0029] combine figure 1 , figure 2 and Figure 6, a two-way tubular water turbine utilizing tidal power generation proposed by the present invention, which includes a forward water inlet channel (1), a shaft (2), a support frame (5), a two-way power generation runner (7), a reverse feed water channel (9), generator (3) and speed increaser (4), the generator (3) is connected with the two-way generating runner (7) through the speed increaser (4); the generator (3) and booster The speeder (4) is placed in the shaft (2); wherein: it also includes the front equal-width movable guide vane (6) and the rear equal-width movable guide vane (8); the front equal-width movable guide vane (6) Set between the forward water inlet flow channel (1) and the bidirectional power generation runner (7); the rear equal-width movable guide ...

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Abstract

The invention relates to a bidirectional through-flow turbine for generating power by tide. The bidirectional through-flow turbine comprises a forward inflow runner, a vertical shaft, a supporting frame, a bidirectional power generation rotating wheel, a reverse inflow runner, a generator and a speed increaser. The bidirectional through-flow turbine is characterized by further comprising front equal-width movable guide vanes and rear equal-width movable guide vanes, the front equal-width movable guide vanes are arranged between the forward inflow runner and the bidirectional power generation rotating wheel, the rear equal-width movable guide vanes are arranged between the bidirectional power generation rotating wheel and a reverse inflow runner, the forward inflow runner has a forward elliptical section, the ratio of the short axis to the long axis of the forward inflow runner is a golden division ratio, the reverse inflow runner has a reverse elliptical section, and the ratio of the short axis to the long axis of the reverse inflow runner is a golden division ratio. By taking double measures of the elliptical runners and the front and rear symmetric equal-width movable guide vanes, the composite effect of the operation efficiency of the turbine is greatly improved, the overall power generation efficiency of a generator set is remarkably improved, and the bidirectional through-flow turbine is applicable to replacing various through-flow turbines of low-head tidal power stations.

Description

technical field [0001] The invention belongs to the technical field of fluid machinery and hydropower engineering equipment, in particular to a bidirectional tubular water turbine utilizing tidal power generation. Background technique [0002] With the large-scale development of my country's hydropower resources, there are fewer and fewer medium and high head sites with good economic indicators, and the development of low head runoff power stations, especially the development and utilization of tidal energy, has become a research hotspot and has entered practical use. sexual stage. The known tubular turbine has become the most economical and suitable turbine type in the development of low-head hydropower resources because of its large flow rate, high speed and high efficiency, wide high-efficiency zone, compact structure and simple layout. How to use these advantages to develop a high-efficiency low-head, high-flow two-way shaft tubular unit that can be applied to tidal powe...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F03B13/26F03B3/18
CPCY02E10/20Y02E10/30
Inventor 杨春霞张玉全郑源朱延涛阚阚
Owner HOHAI UNIV
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