CN201568196U - Two-stage Runner Turbine with Inner and Outer Shafts and Single Bulb Body Through Flow - Google Patents

Abstract

The utility model discloses a two-stage runner tubular water turbine with inner and outer shafts, a single bulb body and two stages. It replaces the oblique flow runner on the spherical flow channel (called the front runner) with the movable guide vane annular cascade of the water guide mechanism of the traditional tubular turbine. The front runner and the original axial flow runner (called the rear runner) form two Two-stage runners, the front and rear runners are designed according to the energy conversion and distribution, and can rotate in opposite directions (reverse rotation). The two runners have their own independent rotating shafts, and can be connected to a traditional generator with a speed increaser, or a dual-rotor generator with a single bulb body. The head of the rear runner remains unchanged (the energy output remains unchanged), and the front runner can be designed to undertake the same energy conversion and output as the rear runner. Therefore, the head of the double-runner turbine is twice that of the traditional single-runner turbine. The heightening output of the drop can also be increased to 2 times. Under the use conditions of ultra-high drop, the two runners have a balanced counter-rotating moment, good cavitation performance and strong stability, and have the advantages of compact structure, wide operation range, and environmental friendliness.

Description

Two-stage Runner Turbine with Inner and Outer Shafts and Single Bulb Body Through Flow

technical field

The utility model belongs to the mechanical technical field of hydroelectric power generation equipment, and in particular relates to a through-flow two-stage runner water turbine with inner and outer shafts and a single bulb body.

Background technique

Hydropower engineering and hydraulic machinery are disciplines with a long history. Energy and electricity production, electric power equipment, and fluid machinery manufacturing are all pillar industries of the national economy and play a decisive role in the sustainable development of society. In recent years, with the rapid development of the economy, the contradiction of energy shortage has become increasingly prominent, and the supergradient improvement of hydraulic performance and energy saving of hydraulic runners have been paid attention to.

Tubular turbines are generally used in low-drop, large-flow generator sets. The traditional tubular turbine has movable guide vanes and runners of the water guide mechanism. The working process of the traditional single runner turbine: the inflow of pressurized fluid enters from the water inlet pipe, passes through the flow passage formed by the fixed guide vanes and the bulb body, and flows into The movable guide vane of the conical flow channel, the fluid energy is converted into mechanical energy by the runner and the shaft, which is transmitted to the generator rotor and then converted into electrical energy, and the water flow after doing work flows out from the runner to the draft tube to the downstream.

The movable guide vane of the water guide mechanism adjusts the flow rate through the change of the opening, forming the circulation required by the runner, and the movable guide vane does not perform work. The runner drives the main shaft to rotate to convert the water energy into mechanical energy, which in turn drives the generator to generate and output electric energy.

At present, the country attaches great importance to the development of hydropower, and the demand will continue to increase immeasurably. The value of a large hydroelectric unit is more than 100 million yuan. Because the civil engineering scale required by tubular turbines is much smaller than that of axial flow turbines and Francis turbines, it has become a hot spot in contemporary selection. Since the tubular hydro turbine power station does not require a large number of excavation projects, the cost advantage is obvious, and the market demand has been very strong in recent years. However, the current tubular turbine uses a relatively low water head, and it is not recommended to use the tubular turbine when the drop is above 25m.

Utility model content

The main purpose of the utility model is to improve the use drop of the tubular water turbine, and provide a two-stage runner water turbine with inner and outer shafts and single bulb body tubular flow. The utility model uses the front runner to replace the movable guide vane that does not do work, and adds a runner that does work. The original runner is called the rear runner according to the positional relationship. The stage runner turbine can not only increase the hydraulic head of the tubular turbine, but also improve its stability and cavitation characteristics.

The utility model purpose is realized through the following schemes:

The inner and outer shaft single-bulb body tubular two-stage runner turbine, including water inlet pipe 1, fixed guide vane 2, front runner 3, front runner shaft 4, rear runner 5, rear runner shaft 6, bulb body 7 and Draft pipe cone 8, the rear runner shaft 6 is connected with the rear runner 5, the outer circumference of the rear runner shaft 6 is covered with the front runner shaft 4, the front runner shaft 4 is connected with the front runner 3, the rear runner 5 is connected with the front runner 3 The direction of rotation is opposite.

One end of the front runner shaft 4 and the rear runner shaft 6 close to the bulb body 7 is respectively connected with the generator rotor. The connection may be a bonded connection.

The front runner 3 also includes a conical spherical hub 11, the blades are installed on the hub 11, the hub 11 is connected to the front runner shaft 4, and the front runner 3 is installed between the fixed guide vane 2 and the rear runner 5 . Wheel hub 11 and front runner shaft 4 can be bolted or keyed.

The blades of the front runner 3 are arranged obliquely; the blades of the rear runner 5 are arranged perpendicular to the horizontal direction.

The inclined setting is an included angle of 50-70 degrees between the central axis of the blade and the horizontal line.

Both the front runner shaft 4 and the rear runner shaft 6 are supported by bearings.

The outflow of water after the front runner 3 and the rear runner 5 have done work is discharged from the draft tube cone 8 .

The two-stage runner can greatly increase the use drop of the tubular water turbine. For the tubular turbine with two-stage runners, the design drop is shared by the front runner and the rear runner. For example, when the highest design drop is 50m, the design drop shared by the front and rear runners is 25m respectively, and the two-stage runner tubular turbine can be adapted to the super high drop of 50m, so the drop is 50% of the drop of the traditional single-runner turbine. 2 times, the output force can also be increased to 2 times due to the increase of the drop.

The front runner and the rear runner are reversed to each other, and the two torques are balanced so that the vibration is very small. There are no movable guide vanes, and the complicated control mechanisms that control their opening and closing are unnecessary.

For two-stage runners, the outlet pressure of the front runner is very high, so there is no need to worry about cavitation.

The angular motion formed by the front runner is absorbed by the rear counter-rotating rear runner, and the two runners will make maximum use of the angular motion.

The working process of the two-stage runner water turbine with inner and outer shafts and single bulb body through-flow of the utility model: the pressurized fluid flows in from the water inlet pipe 1, passes through the flow channel formed by the fixed guide vane 2 and the bulb body 7, and flows into the obliquely arranged The front runner 3 in the conical spherical flow channel does work, which is converted into mechanical energy by the sleeve shaft 4 to the generator rotor 9; after the front runner 3 converts about half of the distributed energy, the water flows out from the outlet of the runner, and then flows into the horizontal rear The runner 5 does work, and converts the other half of the energy from the rear runner shaft 6 into mechanical energy, and outputs it to the generator rotor 10 to cut the magnetic field lines to generate electric energy. The water flow after the work flows out from the outlet of the rear runner to the draft tube cone 8, and then flows downstream in turn .

The traditional tubular water turbine is equipped with movable guide vanes on the conical spherical flow channel. The utility model replaces the movable guide vanes of the water turbine with the blades of the runner (front runner), and works in parallel with the original runner (rear runner). The drop can be increased to 2 times, the output can be increased to 2 times, and the output of the water turbine can be adjusted through the front runner. The operation of Xielian working condition is carried out by the original movable guide vane and the runner, and now it is carried out by the front runner and the rear runner. The utility model utilizes the speed-increasing flow environment of the relatively mature movable guide vanes of the traditional tubular water turbine, and replaces the movable guide vanes by the front runner 3, which is an oblique flow runner placed on the spherical flow channel. The inlet section is large and the outlet section is small, which is a very good speed-increasing flow environment. Therefore, the utility model has more advantages and feasibility than the two-stage axial flow runner water turbine in the prior art.

The advantages and effects created by the utility model:

(1) High drop: The head of the two-stage runner turbine will be shared by the front runner and the rear runner. If the design drop of each runner is 25m, it can be designed as a two-stage runner tubular water turbine with a maximum drop of 50m.

(2) Higher efficiency and prevention of cavitation: the outlet pressure of the runner at the front stage is very high, so there is no need to worry about cavitation, and a runner grid with high lifting force and low resistance can be designed with good cavitation characteristics.

(3) The utility model utilizes the speed-increasing flow environment of the relatively mature movable guide vanes of the traditional tubular water turbine, and the movable guide vanes are replaced by the front runner 3, which is a diagonal flow runner placed on the spherical flow channel , the runner inlet section is large and the outlet section is small, which is a very good speed-increasing flow environment. Therefore, the utility model has more advantages and feasibility than the two-stage axial flow runner water turbine in the prior art.

(4) Expansion of the scope of application: The basic theory of the two-stage runner turbine has no specific speed and size restrictions, so it can be applied to tubular turbines with a wide range from low drop to high drop, from small to large.

Description of drawings

Fig. 1 is a structure diagram of the utility model inner and outer shaft single bulb body through-flow two-stage runner water turbine.

In Fig. 1, water inlet pipe 1, fixed guide vane 2, front runner 3, front runner shaft 4, rear runner 5, rear runner shaft 6, bulb body 7, draft tube cone 8, front runner power output generator 9, rear runner power output generator 10, front runner hub 11.

Detailed ways

The utility model is a two-stage runner water turbine with inner and outer shaft single-bulb body through-flow type, which includes a water inlet pipe 1, a fixed guide vane 2, a rear runner 5, a rear runner shaft 6, a bulb body 7 and a draft tube cone 8, and the rear The outer periphery of the runner shaft 6 is covered with a front runner shaft 4, the front runner shaft 4 is connected with the front runner 3, the front runner 3 is installed between the fixed guide vane 2 and the rear runner 5, and the rear runner 5 rotates with the front runner 3 The directions are opposite; the ends of the front runner shaft 4 and the rear runner shaft 6 near the bulb body 7 are respectively keyed to the generator rotor. The front runner 3 includes blades arranged obliquely, the angle between the central axis of the blade and the horizontal line is 60°, and it is installed on the hub 11 of the conical spherical surface. The blades are arranged perpendicular to the horizontal direction; the front runner shaft 4 and the rear runner shaft 6 are supported by two sets of bearings, and the outflow of water after the front runner 3 and the rear runner 5 have done work is discharged from the draft pipe cone 8.

The working process of the two-stage runner water turbine of the inner and outer shaft single-bulb body through-flow type of the utility model: the pressurized fluid flows in from the water inlet pipe 1, passes through the flow channel formed by the fixed guide vane 2 and the bulb body 7, and flows into the front runner 3 , is converted into mechanical energy by the front runner shaft 4 to the generator rotor 9; after the front runner 3 converts about half of the energy distributed, the water flows out from the outlet of the front runner, and then flows into the horizontally arranged rear runner 5 to do work, and the other half The energy is converted into mechanical energy by the rear runner shaft 6, and output to the generator rotor 10 to cut the magnetic field lines and convert it into electrical energy output; the water flow after doing work flows out from the outlet of the rear runner to the draft pipe cone 8, and then flows downstream in turn.

Claims (6)

1. the tubular two-stage rotating wheel water turbine of inside and outside sleeve list bulb, comprise intake pipe (1), fixed guide vane (2), back runner (5), back runner shaft (6), bulb (7) and draft cone (8), it is characterized in that described back runner shaft (6) periphery is set with preceding runner shaft (4), preceding runner shaft (4) is connected with preceding runner (3), and back runner (5) is opposite with preceding runner (3) sense of rotation.

2. two-stage rotating wheel water turbine according to claim 1 is characterized in that described preceding runner shaft (4) and back runner shaft (6) are connected with generator amature respectively near an end of bulb (7).

3. two-stage rotating wheel water turbine according to claim 1, it is characterized in that described preceding runner (3) also includes the wheel hub (11) that is the circular cone sphere, blade installation is on wheel hub (11), wheel hub (11) is connected with preceding runner shaft (4), and preceding runner (3) is installed between fixed guide vane (2) and the back runner (5).

4. two-stage rotating wheel water turbine according to claim 1 is characterized in that the blade lean setting of described preceding runner (3); The blade of back runner (5) is perpendicular to the substantially horizontal setting.

5. two-stage rotating wheel water turbine according to claim 3 is characterized in that described being obliquely installed is the angle that blade medial axis and horizontal line are 50～70 degree.

6. two-stage rotating wheel water turbine according to claim 1 is characterized in that described preceding runner shaft (4) and back runner shaft (6) all adopt bearings.

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