CN110348609A - Comprehensive energy for power grid dispatches system - Google Patents

Abstract

The invention discloses the comprehensive energies for power grid to dispatch system.Belong to power generation power supply technique field, the Pipeline Water Hammer action breaks down of pumped-storage power generation station can be reduced.Including pumped-storage power generation station；Pumped-storage power generation station includes that reservoir, the hydraulic turbine and both ends are connected the pipeline that the water of reservoir on reservoir water outlet and on the water inlet of the hydraulic turbine and can be guided to the hydraulic turbine respectively；Pipeline includes No. two pipes that No.1 pipe and diameter are greater than No.1 pipe；The lower end of No. two pipes is connected on hydroturbine water intake mouth, and the upper end of No. two pipes is integrally connected in the lower port of No.1 pipe, and the upper port of No.1 pipe is connected on reservoir water outlet；Pumped-storage power generation station further includes that Pipeline Water Hammer destroys reduction policy device, and No.1 areole is equipped on No. two pipes.

Description

Comprehensive energy for power grid dispatches system

Technical field

The present invention relates to power generation power supply technique field, the more particularly, to comprehensive energy of power grid dispatches system.

Background technique

The electricity that pumped-storage power generation station issues at present is typically all directly to be transported to the electricity that pumped-storage power generation station issues On power supply network, not with deposit electricity go control generating efficiency, cause the electrical stability of pumped-storage power generation station poor.

In addition, being to draw the water pipeline being located in the reservoir of pumped-storage power generation station top for pumped-storage power generation station Water guide turbine generator, pipeline causes pipeline breaking vulnerable to " water hammer " during pipeline water delivery.In water power, thermoelectricity, wind In the comprehensive power supply such as electricity or solar power generation, water power usually plays a part of adjusting power load suddenly change, works as workload demand When flying up, to increase the water of conveying, immediately to increase generated energy；Under making water flow slow quickly again when slump in demand Come, reduce generated energy, then the water velocity of pipeline often will appear suddenly change, and since water is substantially incompressible, pipe The elasticity in road itself is again very small, causes the high pressure wave of water along pipe transmmision, so that pipeline can be destroyed by generating on pipeline " water hammer ".

In addition, the silt of reservoir bottom surface is easily accessible in pipeline to reduce silt to inner wall of the pipe and turbine blade Cause impact damage.

Summary of the invention

The present invention is to provide one to solve the deficiency that the pipeline of existing pumped-storage power generation station is easily destroyed by water hammer Kind good reliability can reduce the comprehensive energy scheduling system for power grid of the Pipeline Water Hammer action breaks down of pumped-storage power generation station System.

The above technical problem is solved through the following technical scheme:

Comprehensive energy for power grid dispatches system, including pumped-storage power generation station；Pumped-storage power generation station include reservoir, The hydraulic turbine and both ends are connected on reservoir water outlet respectively and on the water inlet of the hydraulic turbine and can guide to the water of reservoir The pipeline of the hydraulic turbine；Pipeline includes No. two pipes that No.1 pipe and diameter are greater than No.1 pipe；The lower end of No. two pipes is connected in water On turbine water inlet, the upper end of No. two pipes is integrally connected in the lower port of No.1 pipe, and the upper port of No.1 pipe is in succession It connects on reservoir water outlet；Pumped-storage power generation station further includes that Pipeline Water Hammer destroys reduction policy device, is equipped on No. two pipes No.1 areole；Pipeline Water Hammer destroys the sump, communicating pipe and water wave elimination dress for reducing that policy device includes storehouse chamber upper end opening It sets；The both ends of communicating pipe be connected on the water outlet of sump bottom respectively and the No.1 areole of No. two pipes on；Water wave disappears Except device includes several cross bars that horizontal interval both ends are fixedly connected on the intracavitary upper side wall in storehouse；On every cross bar vertically to It has several oscillations and eliminates vertical pipe, several oscillations are equipped on the side pipe wall that vertical pipe is eliminated in every oscillation and eliminate side Pore；The angle of No.1 pipe and horizontal plane is θ.

When workload demand is lower, and the water of hydraulic turbine demand is less, a large amount of water under sump storage, in sump water level compared with It is high；When workload demand becomes larger the increase that can meet the hydraulic turbine to water using the water in sump suddenly, avoid in pipeline The appearance for changing and causing suddenly " water hammer " compared with havoc pipeline greatly occurs for water velocity.Good reliability can reduce pumping The Pipeline Water Hammer action breaks down of water energy storage electric generating station.

Preferably, it is directed downwardly to be fixed with outer end in each oscillation elimination vertical pipe for vibrating and eliminating above side pipe hole Disappear oscillation block.The oscillation block that disappears, which has, to be entered the hydraulic pressure vibrated from the bottom up in oscillation elimination vertical pipe, and oscillation-damped effect is good.

Preferably, vibrating this several oscillation eliminated in vertical pipe in same root eliminates side pipe hole cloth in the shape of a spiral It sets.

Preferably, the Pipeline Water Hammer that the Pipeline Water Hammer destroys reduction policy device reduces optimal policy implementation method such as Under:

(1), according to the second mechanics law of newton, the sum of the power in water flow movement direction is acted in No.1 pipe Have

Wherein, ρ is the density of water, and L is No.1 pipe range, s₁No.1 tube section product, y are the water velocity in No.1 pipe, m₂For The pressure of No.1 pipe lower end water outlet water, m₁For the pressure of No.1 pipe upper end water inlet water, g is gravitational constant, and θ is No.1 The angle of pipe and horizontal plane, c is the coefficient of viscosity；

Water velocity when y (t) is No.1 pipe inherence time t, m₂It (t) is No.1 pipe lower end water outlet in time t The pressure of water；

Reservoir level is constant, so the pressure m of No.1 pipe upper end water inlet water₁For constant；

Water and No.1 pipe are nonelastic, and unit length tube wall square is inversely proportional to the resistance of water flow and water velocity, than Example constant c is known as the coefficient of viscosity；

(2), because of the gravity ρ s of sump water inlet water column in orlop portion, storehouse₀The difference of hg formation bottom and top pressure s₁m₂-s₀m₁, then the statics equation of sump be

s₁m₂-s₀m₁=ρ s₀hg (A2)

Wherein, h is water bunker level height, s₀Sump sectional area；

(3), according to law of conservation of energy, the difference that sump passes in and out water is equal to the variation of water in storehouse, that is, has

Wherein, s₂For No. two pipe cross-sectional areas, w (t) is water velocity of the sump water outlet in time t；

When the water velocity w (t) of sump water outlet changes, the changing rule of water level h (t) in storehouse, from (A1)-(A3) formula Middle cancellation m₂With y (t), can obtain

Wherein, h (t) is height of water level of the sump in time t；

When w (t) is in stable state w₀When nearby having minor change, h (t) is also in stable state h₀Variation nearby；In (A4) formula In enable h (t)=h₀With w (t)=w₀, h₀And w₀All it is constant, obtains

Wherein, m₀For top atmospheric pressure,

If w (t)=w₀+εw₁(t), h (t)=h₀+εh₁(t) (A6)

Wherein, (A6) formula is substituted into (A4) formula and omitted containing ε and ε by ε very little²Item can obtain

Or it is denoted as

The primary condition of equation (A8) can be set as

For given various forms w₁(t), (A8)-(A10) formula is easy to solve, and the general solution of (A8) formula is

Wherein ξ₀、It is arbitrary constant；WhenWhenOscillation is presented, is represented by by (A9) formula oscillating condition

In practical projects, s₁、s₀、L、s₂Parameter is limited by various conditions, but engineering build after the completion of s₁、s₀、L、s₂ It is known parameters, coefficient of viscosity c very little, η is little, and the very slow concussion that decays, and because s are formed under condition (A12) formula₀> s₁, L is larger, therefore k very little, and ω very little causes the cycle of oscillation of water in sump long, this is undesirable, therefore by sump It is exactly that Pipeline Water Hammer reduces optimal policy reality that interior setting Pipeline Water Hammer, which destroys the oscillation for reducing policy device to eliminate water in sump, Existing method.

This programme is destroyed by Pipeline Water Hammer reduces policy device to reduce Pipeline Water Hammer action breaks down；In the storehouse chamber of sump In water when there is oscillation up and down, several oscillations elimination vertical pipe with holes can allow the oscillation of water to disappear quickly, reliability It is high.

Preferably, being fixed with lower position block on the storehouse cavity wall for the sump being located above cross bar, it is being located at lower limit The intracavitary closed slide plate for being equipped with the closed sliding of energy or more in the storehouse of sump above the block of position, in the sump being located above closed slide plate Storehouse is intracavitary to be equipped with fixed reinforcing rod, and the both ends of a spring are respectively fixedly connected on the lower surface of fixed reinforcing rod and closed cunning On the upper surface of plate.

There is good damping result, good reliability during closed slide plate moves up and down under the action of the spring.

The present invention can reach following effect:

Good reliability of the present invention can reduce the Pipeline Water Hammer action breaks down of pumped-storage power generation station.

Detailed description of the invention

Fig. 1 is a kind of schematic diagram of circuit principle connecting structure of the embodiment of the present invention.

Fig. 2 is a kind of attachment structure schematic diagram of pumped-storage power generation station of the embodiment of the present invention.

Fig. 3 is a kind of schematic diagram of optimal solution x (t) of the embodiment of the present invention.

Fig. 4 is a kind of schematic diagram of optimal solution u (t) of the embodiment of the present invention.

Fig. 5 is that a kind of vertical view at reservoir of embodiment of the present invention inner circle ring flat-plate amplifies attachment structure schematic diagram

Fig. 6 is that attachment structure schematic diagram is amplified in a kind of side view in reservoir of the embodiment of the present invention at pressure plare.

Fig. 7 is that the sump of pumped-storage power generation station of the embodiment of the present invention is arranged in a kind of connection knot on No. two pipes of pipeline Structure schematic diagram.

Fig. 8 is that a kind of amplification connection structure that the oscillation of pumped-storage power generation station of the embodiment of the present invention is eliminated at vertical pipe is shown It is intended to.

Fig. 9 is that the Pipeline Water Hammer of pumped-storage power generation station of the embodiment of the present invention destroys a kind of section reduced at policy device Attachment structure schematic diagram.

Figure 10 is a kind of section attachment structure schematic diagram in reservoir of the embodiment of the present invention at water inlet cover.

Figure 11 is that the analog signal of the embodiment of the present invention inputs a kind of circuit diagram of conditioning circuit.

Figure 12 is a kind of circuit diagram of the combination switch of the embodiment of the present invention.

Figure 13 is a kind of attachment structure schematic diagram when having water in pumped-storage power generation station of embodiment of the present invention pipeline.

Figure 14 is a kind of attachment structure schematic diagram at regulator of the embodiment of the present invention.

Figure 15 is the silt of reservoir of embodiment of the present invention bottom surface also than shallower, and pressure plare is not pressed on silt also, and No. two perpendicular A kind of use state attachment structure schematic diagram when straight tube does not also stretch high upwards.

Figure 16 is that the silt of reservoir of embodiment of the present invention bottom surface is relatively high, and pressure plare has been pressed against on silt, A kind of use state attachment structure schematic diagram when No. two vertical pipes stretch high upwards.

Figure 17 is a kind of overlooking the connection structure at the closed sliding block vertical holes of the embodiment of the present invention.

Specific embodiment

The present invention will be further described below with reference to the accompanying drawings and embodiments.

Embodiment, the comprehensive energy for power grid dispatches system, referring to shown in Fig. 1-17.

If including energy storage control monitor supervision platform 15, power supply network 14, several power units 13 being connected on power supply network and Dry is arranged in the pumped-storage power generation station 1 of different location；Pumped-storage power generation station includes reservoir 38, the hydraulic turbine 35 and two End be connected on reservoir water outlet 41 respectively and the water inlet 42 of the hydraulic turbine on and the water 98 of reservoir can be guided to the hydraulic turbine Pipeline 40；Further respectively had in pumped-storage power generation station wireless module 16, deposit electricity control generating efficiency policy module 17, Memory 18, grid-connecting apparatus 2 and controller 12；Grid-connecting apparatus includes the No.1 transformer 3 being connected respectively with controller, No.1 Voltage sampling circuit 4, switch K1, charger 5, energy-storage battery group 6, switch K2, inverter 7,8, No. two transformers 9 of filter, No. two voltage sampling circuits 10, switch K3 and No. three voltage sampling circuits 11；The input terminal of No.1 transformer and charger it is defeated Enter end to be both connected on the power output end of pumped-storage power generation station；The output end and No.1 voltage sampling circuit of No.1 transformer Collection terminal be both connected to one end of switch K1, the other end of switch K1 is connected on power supply network；The charging end of energy-storage battery group It is connect with the output end of charger, the both ends of switch K3 are connected to the input of the discharge end and inverter of energy-storage battery group End, the output end of inverter are connected to the input terminal of filter, and the output end of filter is connected to the input terminal of No. two transformers, The output end of No. two transformers and the sampling end of No. two voltage sampling circuits are both connected to one end of switch K2, and switch K2's is another End is connected on power supply network；The sampling end of No. three voltage sampling circuits is connected on power supply network；Deposit electricity control generating efficiency plan Slightly module, wireless module and memory are connected with controller respectively；Controller is flat by wireless module and energy storage control monitoring Platform is connected.

The switch K1 and pass K2 is a kind of combination switch of accurate operating passing zero of energy.It is shown in Figure 12.

The combination switch includes 701, No. two nodes 702, reverse-blocking tetrode thyristor K of No.1 node_b, magnetic latching relay switch K_c、 Node M_a, inductance L_a, node M_b, capacitor Ca, diode D₁, diode D₂, diode D₃, diode D₄, capacitor C₀, photoelectric coupling Device OPT, resistance R₀, from electricity consumption power supply module 901, Magnetic driving electric power road 502, silicon driving circuit 503 and controller, photoelectric coupling Device OPT includes light emitting diode D₅With phototriode Q₀；Reverse-blocking tetrode thyristor K_bOne end and magnetic latching relay switch K_cOne End is connect with No.1 node respectively, reverse-blocking tetrode thyristor K_bThe other end, magnetic latching relay switch K_cThe other end, inductance L_a's One end, diode D₁Positive terminal and diode D₃Negative pole end respectively with node M_aConnection, inductance L_aThe other end, capacitor Ca One end and capacitor C₀One end respectively with node M_bConnection, the other end of capacitor Ca are connected on No. two nodes, diode D₂'s Positive terminal and diode D₄Negative pole end be all connected to capacitor C₀The other end on, diode D₁Negative pole end and diode D₂'s Negative pole end is all connected to light emitting diode D₅Positive terminal on, diode D₃Positive terminal and diode D₄Positive terminal all connect In light emitting diode D₅Negative pole end on, phototriode Q₀Emitter ground connection, phototriode Q₀Collector respectively with electricity Hinder R₀One end connected with controller, resistance R₀The other end connect with from electricity consumption power supply module, silicon driving circuit is respectively and controllably Transwitch K_bControl terminal connected with controller, Magnetic driving circuit respectively with magnetic latching relay switch K_cControl terminal and control Device connection.

As reverse-blocking tetrode thyristor K_bWhen conducting, in magnetic latching relay switch K_cThere are no in the case where disconnection, magnetic at this time is protected Hold relay switch K_cIt is also conducting, i.e. reverse-blocking tetrode thyristor K_bWith magnetic latching relay switch K_cIt is on shape simultaneously at this time State.Due to reverse-blocking tetrode thyristor K_bBranch has inductance L_aConducting resistance, it is clear that magnetic latching relay switch K_cThe impedance of branch is wanted Far smaller than reverse-blocking tetrode thyristor K_bThe impedance of branch, therefore flow through magnetic latching relay switch K_cElectric current be greater than flow through it is silicon-controlled Switch K_bThe electric current of branch.If magnetic latching relay switch K_cNot in current zero-crossing point break contact, easily damage contact.We Case is from by obtaining inductance L_aThe electric current I of branch₁Correct time point when zero crossing, then controller is allowed to issue control signal to break Open magnetic latching relay switch K_cContact, allow magnetic latching relay switch K_cClosing or opening movement is carried out when electric current is smaller, Thus not easy burn-out magnetic latching relay switch K_cOn contact, effectively extend magnetic latching relay switch K_cUse Service life, and then the service life of combination switch is also extended, structure is simple, high reliablity.

When in use, the collection terminal of the output end of No.1 transformer and No.1 voltage sampling circuit be both connected to one it is compound On the No.1 node of switch, No. two nodes of this combination switch are connected on power supply network.Similarly, the output end of No. two transformers It is both connected on the No.1 node of another combination switch with the sampling end of No. two voltage sampling circuits, the two of this combination switch Number node is connected on power supply network.It is powered on by operating passing zero, voltage is small to the damage of power grid.Good reliability.

In a part of electricity storage to energy-storage battery group that pumped-storage power generation station is issued, and control is gone to generate electricity with electricity is deposited Efficiency, so that the electrical stability of pumped-storage power generation station is good.

Pumped-storage power generation station further includes lower pond 27, transfer pond 25, equipped with lower suction pump 23 and can be by lower pond Lower drinking-water pipe 26 that water is extracted into transfer pond and equipped with upper suction pump 80 and the upper pumping that the water in transfer pond can be extracted into reservoir Water pipe 24；And transfer pond is arranged between reservoir and lower pond；The reservoir that can detect reservoir level height is equipped in reservoir Water level sensor 81 is equipped with the transfer water level sensor 82 that can detect transfer pool water level height in transfer pond；Lower drinking-water pipe Upper lower nozzle be arranged in mouthful upper and lower pond in pond in transfer pond, the upper lower nozzle of upper drinking-water pipe is arranged in reservoir Chi Kou on and transfer pond in；Reservoir level sensor, transfer water level sensor, the control terminal of upper suction pump and lower suction pump Control terminal be connected respectively with controller.The water gone out from the hydraulic turbine 35 is introduced into down in pond by a drainpipe 79.

Upper suction pump and under draw water and the water in lower pond can be pumped into reservoir China after pump startup and recycle.Reservoir Water the hydraulic turbine 35 of pumped-storage power generation station is introduced by pipeline.

Pumped-storage power generation station further includes display 19 and voice prompting device 20, display and voice prompting device respectively with control Device processed is connected.

Pumped-storage power generation station further includes the analog signal input conditioning circuit 21 being connected respectively with controller and electricity consumption Adjusting knob 22.It is shown in Figure 11.

Pumped-storage power generation station further includes suction pump method for detecting abnormality, and shown suction pump method for detecting abnormality is as follows: pre- It is first stored with lower suction pump corresponding electricity consumption gear in the case where difference draws water speed in memory；In use, user is by electricity consumption tune It saves knob and is slowly adjusted from electricity consumption minimum gear to electricity consumption maximum gear, analog signal inputs conditioning circuit detection electricity consumption and adjusts rotation The corresponding speed of drawing water of each electricity consumption gear of button, the corresponding lower suction pump of each electricity consumption gear that controller judgement detection obtains Whether speed of drawing water reaches the normal range (NR) of the corresponding speed of drawing water of the pre-stored electricity consumption gear.If speed of drawing water does not have Reach normal range (NR) and then judge failure, controller control display shows down that suction pump draws water the information of velocity anomaly, and controls Voice prompting device issues audio alert prompt, and otherwise, controller control display, which exports lower suction pump speed of drawing water, normally to be believed Breath；

Suction pump draw water velocity anomaly when, illustrate that suction pump takes out water as much and to expend more electricity at present for this, says Bright lower suction pump at this time has had already appeared exception of drawing water, and needs replacing lower suction pump or repairs.It draws water in lower suction pump Speed can remind user in time when occurring abnormal, detection accuracy is high, and False Rate and misdetection rate are low, improve maintenance efficiency.Similarly It can judge the exception information of upper suction pump.

The electricity of depositing for depositing electricity control generating efficiency policy module controls generating efficiency optimal policy implementation method such as Under:

Since the generating efficiency of pumped-storage power generation station needs to stablize in preset horizontal extent just with electricity is deposited It is able to satisfy the lasting generating function of pumped-storage power generation station；If sell electricity be can Accurate Prediction, can be according to depositing electricity control Generating efficiency strategy:

Optimum control function is obtained first；

Clocking and carving the electricity of depositing of t is x (t), the generated energy of unit time and to sell electricity be respectively u (t) and v (t), then they Meet

Wherein v (t) is known function,

It preset Generation Rate and deposits electricity and is denoted as u respectively₀And x₀, make Generation Rate u (t) and deposit electricity x (t) and divide as far as possible It is unstable in u₀And x₀Level on, obtain quadratic model object function after seeking control function u (t)

Reach minimum value, wherein T is any given time,It is weighted factor, for adjusting u (t) stabilization and x (t) Stablize significance level between the two, and application has the dimension of time inverse；

Depositing electricity x (t) in (1), (2) is function of state, deposited when might as well set t=0 and t=T for the sake of determination electricity as Zero, i.e. fixed endpoint condition

X (0)=0, x (T)=0 (3)

In addition, actually to Generation Rate and deposit electricity all can Prescribed Properties limit, which is denoted as

0≤u(t)≤u_m, 0≤x (t)≤x_m (4)

Ask u (t) that the functional F of (2) formula is made to reach minimum value under constraint condition (1), (3), (4)；

U (t) is solved from (1) formula and substitutes into (2) formula, and is write as the functional of x (t)

Put aside condition (4), then (3), (5) constitute an intrinsic endpoint functional extreme-value problem, solved with political reform (1) is substituted into again after most being had solution x (t), can be obtained optimum control function；

Then control amount u can be determined according to the state x for being easy to observe；

To simplify solution procedure, if selling electricity is known constant, i.e.,

V (t)=v₀ (6)

(5) formula is substituted into (6), can obtain optimal solution x (t) according to Eulerian equation should meet equation

I.e.

Solution of the equation (7) under end-point condition (3) be

(8) substitution (1) formula is obtained

(8) and (9) are respectively optimum state function and optimum control function；

It is obtained by (8), (9) two formulas

T → ∞ is enabled, then to arbitrary finite t, last goes to zero above formula right end, then has

Above-mentioned (11) formula shows that Generation Rate control function u can be directly determined according to depositing state of charge x, without regard to when Between independent variable t, and u reduces when x increases, and this control mode is known as state negative-feedback, and the state negative-feedback is according to being easy to The state x of observation can determine control amount u；

Finally to obtain the optimal solution of the former problem of constraint condition (4)；

It investigates constraint condition (4), (8), (9) two formulas can be expressed as again using hyperbolic functions

The schematic diagram of optimal solution x (t) He u (t) are drawn according to (12), (13) formula, and can be seen that from the schematic diagram, as long as x_m≥x₀, just there is 0≤x (t)≤x_m, i.e. x (t) meets condition (4)；And the parameter x provided_mAnd x₀Nature should have x_m≥x₀, separately On the one hand, because

As long as so u (0)≤u_m, u (T) >=0 just has 0≤u (t)≤u_m, (8), (9) two formulas provide in such a situa-tion X (t), u (t) also allow for constraint condition (4) former problem optimal solution；Electricity control power generation effect is deposited to can be obtained The optimal policy of rate.

Sell electricity can preset or can Accurate Prediction, sell power quantity predicting exact value and can sell electric data according to history and obtain Out.

In a part of electricity storage to energy-storage battery group that the present embodiment issues pumped-storage power generation station, and gone with electricity is deposited Generating efficiency is controlled, so that the electrical stability of pumped-storage power generation station is good.

Pipeline includes No. two pipes 36 that No.1 pipe 37 and diameter are greater than No.1 pipe；The lower end of No. two pipes is connected in water wheels On machine water inlet, the upper end of No. two pipes is integrally connected in the lower port of No.1 pipe, and the upper port of No.1 pipe is connected On reservoir water outlet；

Pumped-storage power generation station further includes that Pipeline Water Hammer destroys reduction policy device 39, and No.1 side wall is equipped on No. two pipes Hole 33；Pipeline Water Hammer, which destroys, reduces the sump 32 that policy device includes 43 upper end opening 44 of storehouse chamber, communicating pipe 34 and water wave elimination Device 78；The both ends of communicating pipe be connected on the water outlet of sump bottom respectively and the No.1 areole of No. two pipes on；

Water wave cancellation element includes several cross bars 28 that horizontal interval both ends are fixedly connected on the intracavitary upper side wall in storehouse；? Several oscillations are equipped on every cross bar straight down and eliminate vertical pipe 29, are set on the side pipe wall that vertical pipe is eliminated in every oscillation There are several oscillations to eliminate side pipe hole 31；The angle of No.1 pipe and horizontal plane is θ.

It is eliminated in each oscillation and is fixed with the outer end oscillation block directed downwardly that disappears in the oscillation elimination vertical pipe above side pipe hole 30.The oscillation block that disappears, which has, to be entered the hydraulic pressure vibrated from the bottom up in oscillation elimination vertical pipe, and oscillation-damped effect is good.

This several oscillation elimination side pipe hole eliminated in vertical pipe are vibrated in same root to arrange in the shape of a spiral.

It is fixed with lower position block 83 on the storehouse cavity wall for the sump being located above cross bar, is being located above lower position block Sump storehouse it is intracavitary be equipped with can up and down closed sliding closed slide plate 84, be located at closed slide plate above sump storehouse it is intracavitary Equipped with fixed reinforcing rod 86, the both ends of a spring 85 are respectively fixedly connected on the lower surface of fixed reinforcing rod and closed slide plate Upper surface on.

Several side openings 97 are equipped with also on pipeline along pipeline, the different height of pipeline is arranged in this several side opening Place；Regulator 98 is respectively equipped on each side opening；Regulator includes connecting tube 87 and pressure regulating cavity 90, the vertical cloth of pressure regulating cavity It sets, the intracavity sidewall of pressure regulating cavity is vertical wall, blow vent 96 is equipped on the upper top surface of pressure regulating cavity, on the bottom surface of pressure regulating cavity Equipped with lower through-hole 91, closed sliding block 93 is equipped in the intracavitary sliding closed up and down of pressure regulating cavity；In the tune being located at below closed sliding block The intracavitary of chamber is pressed to be equipped with lower limit circle 89, intracavitary in the pressure regulating cavity being located above closed sliding block is equipped with upper ejector pin 95, a bullet The both ends of spring 94 be respectively fixedly connected on the lower surface of upper ejector pin and the upper surface of closed sliding block on；Distinguish at the both ends of connecting tube Be connected on the side opening of pipeline and the lower through-hole of pressure regulating cavity bottom surface on；Control terminal and controller phase are equipped in connecting tube The solenoid valve 88 of connection.

Several vertical holes 92 are equipped on closed sliding block.

The upper surface of closed sliding block includes interior ring region 205, Central District 203 and outer zone 201, the center of circle of interior ring region, middle ring The center of circle and the center of circle of outer zone in area and the upper surface center of closed sliding block are overlapped；It include several internal in several vertical through-holes The vertical through-hole 206 of ring, the vertical through-hole 204 of several pairs of middle rings and the vertical through-hole 202 of several pairs of outer rings；Several pairs of vertical through-holes of inner ring It is arranged symmetrically in interior ring region；Several pairs of vertical through-holes of middle ring are arranged symmetrically in Central District；Several pairs of vertical through-holes pair of outer ring Title is arranged in outer zone.

The diameter of the vertical through-hole of inner ring is greater than the diameter of the vertical through-hole of middle ring, and the diameter of the vertical through-hole of middle ring is perpendicular greater than outer ring The diameter of clear opening, the diameter of the vertical through-hole of inner ring is less than one centimetre.

Water to be closed or to reduce turbine power generation when, open solenoid valve, the water attack in pipeline under the control of the controller Effect will be distributed in each pressure regulating cavity, to reduce the Pipeline Water Hammer action breaks down of pumped-storage power generation station, vertical holes Symmetrical porous arrangement can substantially reduce Pipeline Water Hammer action breaks down, good reliability.

The depth of water scale line 207 for being capable of measuring water surface elevation, the water at depth of water scale line are equipped on the inner wall of reservoir Library, which is equipped with, can observe the camera 208 that the control terminal of water surface elevation is connected with controller.

The wireless positioning transceiving device 209 being connected respectively with controller, satellite school are additionally provided in pumped-storage power generation station When device 210, GPS locator 211 and address scrambler 212.

It is as follows that the Pipeline Water Hammer that the Pipeline Water Hammer destroys reduction policy device reduces optimal policy implementation method:

(1), according to the second mechanics law of newton, the sum of the power in water flow movement direction is acted in No.1 pipe Have

Wherein, ρ is the density of water, and L is No.1 pipe range, s₁No.1 tube section product, y are the water velocity in No.1 pipe, m₂For The pressure of No.1 pipe lower end water outlet water, m₁For the pressure of No.1 pipe upper end water inlet water, g is gravitational constant, and θ is No.1 The angle of pipe and horizontal plane, c is the coefficient of viscosity；

Water velocity when y (t) is No.1 pipe inherence time t, m₂It (t) is No.1 pipe lower end water outlet in time t The pressure of water；

Reservoir level is constant, so the pressure m of No.1 pipe upper end water inlet water₁For constant；

Water and No.1 pipe are nonelastic, and unit length tube wall square is inversely proportional to the resistance of water flow and water velocity, than Example constant c is known as the coefficient of viscosity；

(2), because of the gravity ρ s of sump water inlet water column in orlop portion, storehouse₀The difference of hg formation bottom and top pressure s₁m₂-s₀m₁, then the statics equation of sump be

s₁m₂-s₀m₁=ρ s₀hg (A2)

Wherein, h is water bunker level height, s₀Sump sectional area；

(3), according to law of conservation of energy, the difference that sump passes in and out water is equal to the variation of water in storehouse, that is, has

Wherein, s₂For No. two pipe cross-sectional areas, w (t) is water velocity of the sump water outlet in time t；

When the water velocity w (t) of sump water outlet changes, the changing rule of water level h (t) in storehouse, from (A1)-(A3) formula Middle cancellation m₂With y (t), can obtain

Wherein, h (t) is height of water level of the sump in time t；

When w (t) is in stable state w₀When nearby having minor change, h (t) is also in stable state h₀Variation nearby；In (A4) formula In enable h (t)=h₀With w (t)=w₀, h₀And w₀All it is constant, obtains

Wherein, m₀For top atmospheric pressure,

If w (t)=w₀+εw₁(t), h (t)=h₀+εh₁(t) (A6)

Wherein, (A6) formula is substituted into (A4) formula and omitted containing ε and ε by ε very little²Item can obtain

Or it is denoted as

The primary condition of equation (A8) can be set as

For given various forms w₁(t), (A8)-(A10) formula is easy to solve, and the general solution of (A8) formula is

Wherein ξ₀、It is arbitrary constant；WhenWhenOscillation is presented, is represented by by (A9) formula oscillating condition

In practical projects, s₁、s₀、L、s₂Parameter is limited by various conditions, but engineering build after the completion of s₁、s₀、L、s₂ It is known parameters, coefficient of viscosity c very little, η is little, and the very slow concussion that decays, and because s are formed under condition (A12) formula₀> s₁, L is larger, therefore k very little, and ω very little causes the cycle of oscillation of water in sump long, this is undesirable, therefore by sump It is exactly that Pipeline Water Hammer reduces optimal policy reality that interior setting Pipeline Water Hammer, which destroys the oscillation for reducing policy device to eliminate water in sump, Existing method.

The present embodiment is destroyed by Pipeline Water Hammer reduces policy device to reduce Pipeline Water Hammer action breaks down；In the storehouse of sump When oscillation up and down occurs in water in chamber, vertical pipe is eliminated in several oscillations with holes can allow the oscillation of water to disappear quickly, reliably Property it is high.

Reservoir water outlet is arranged in 41 on the bottom storehouse face of reservoir, and centre is equipped on the reservoir inner bottom surface of reservoir water outlet There is the closed slide plate 46 of the bottom storehouse No.1 of plate hole 45, the upper port docking of No.1 pipe is closed to be fixedly connected on the closed slide plate of bottom storehouse No.1 Plate hole on；It is equipped with No.1 vertical pipe 47, and the die of No.1 vertical pipe upwards at the plate hole of the closed slide plate of bottom storehouse No.1 The hole heart line of the plate hole of line and the closed slide plate of bottom storehouse No.1 is all fallen in same vertical straight line；It is upper in No.1 vertical pipe to glide It is dynamic to be equipped with No. two vertical pipes 48, it is fixedly connected on the upper orifice of No. two vertical pipes into water cover 73, in the upper surface of water inlet cover On be respectively equipped with via hole 68, vertical cage apertures 74 and several inlet openings 69；Fixing sleeve is equipped with annulus on the side surface of water inlet cover Plate 51 is equipped with gear 55 along the circumferential surface of Circular Plate on the upper surface of Circular Plate, is laid with outwardly in the surrounding of Circular Plate Four horizon bars 52 are fixedly connected with pressure plare 53 in the outer end of every horizon bar, and the both ends of pressure plare are upturned 54；The upper end of piece No. three vertical tube 49 is fixedly connected on vertically in vertical cage apertures；Side wall is equipped on the side pipe wall of No. three vertical tubes Hole 72, the both ends of an inclined tube 70 respectively closed fixation be connected on via hole and the areole of No. three vertical tubes on；One The lower end of No.1 shaft 71, which horizontally rotates, to be arranged in No. three vertical tubes, and is locked in the No.1 shaft being located above vertical cage apertures It is fixedly connected with annulus block 66, the ball 67 that can be rolled on the upper surface of water inlet cover is equipped on the lower surface of annulus block；One The upper end of No. two shafts 75 of root is fixedly connected on the lower surface of No.1 shaft, and helical blade 50 is equipped in No. two shafts； The diameter of No. two shafts is less than the diameter of No.1 shaft, and helical blade is located at the lower section of the areole of No. three vertical tubes；No.1 The lower end of shaft is located at the top of the areole of No. three vertical tubes；No.1 gear is equipped in the No.1 shaft being located above annulus block 65, be equipped with No. three shafts 62 straight up on the water inlet cover for being located at No.1 shaft right, be located at No. three shaft rights into No. four shafts 61 are equipped on water cover straight up, level is equipped with No. five shafts towards the right side on the water inlet cover for being located at No. four shaft rights 59；Diameter is equipped in No. three shafts to be greater than No.1 gear and be mutually twisted No. two gears 64 of drive connection with No.1 gear； No. three gears 63 that diameter is less than No.1 gear are equipped in No. three shafts being located at below No. two gears；It is set in No. four shafts There is diameter to be greater than No. two gears and is mutually twisted No. four gears 76 of drive connection with No. three gears；It is being located at below No. four gears No. four shafts be equipped with No.1 angular wheel 60；It is fixed in the left end of No. five shafts and is mutually twisted with No.1 angular wheel The No.1 tooth sector 77 of drive connection；It is fixed with vertical rotating disc 58 in the right end vertical of No. five shafts, is being rotated vertically The outer circumference surface of the half of disk is equipped with the gear 56 that drive connection can be mutually twisted with the gear in Circular Plate；It is vertical to turn Remaining outer circumference surface of Moving plate is that the smooth arc surface 57 contacted is not wanted with the gear in Circular Plate.

Allow the water inlet of No.1 pipe always situated in the top of reservoir bottom surface silt 99, the silt of reservoir bottom surface is not easily accessible In No.1 pipe, destruction of the silt to pipeline and the hydraulic turbine is reduced, safety is good.

The present embodiment has network monitoring, and energy-storage battery group is arrived in a part of electricity storage that pumped-storage power generation station is issued On, and go control generating efficiency reservoir water occur so that the electrical stability of pumped-storage power generation station is good with electricity is deposited Generated energy hour that is small and leading to pumped-storage power generation station then starts battery pack and externally generates electricity, so that pumped-storage power generation The electrical stability stood is good, and can reduce Pipeline Water Hammer action breaks down, the silt of reservoir bottom surface be not easily accessible in pipeline to It reduces silt and impact damage is caused to inner wall of the pipe and turbine blade.When workload demand is lower, the water of hydraulic turbine demand compared with When few, a large amount of water under sump storage, water level is higher in sump；When workload demand becomes larger suddenly can be using the water in sump Meet increase of the hydraulic turbine to water, avoids water flow in pipeline speed that big variation suddenly occurs and causes compared with havoc pipeline The appearance of " water hammer ".

Embodiments of the present invention are described above in conjunction with attached drawing, however, the implementation is not limited to the above embodiments, this field Those of ordinary skill can be with various changes and modifications may be made within the scope of the appended claims.

Claims (5)

1. the comprehensive energy for power grid dispatches system, including pumped-storage power generation station；Pumped-storage power generation station includes reservoir, water Turbine and both ends are connected on reservoir water outlet respectively and on the water inlet of the hydraulic turbine and the water of reservoir can be guided to water The pipeline of turbine；It is characterized in that,

Pipeline includes No. two pipes that No.1 pipe and diameter are greater than No.1 pipe；The lower end of No. two pipes is connected in hydroturbine water intake mouth On, the upper end of No. two pipes is integrally connected in the lower port of No.1 pipe, and the upper port of No.1 pipe is connected to be gone out in reservoir On the mouth of a river；Pumped-storage power generation station further includes that Pipeline Water Hammer destroys reduction policy device, and No.1 areole is equipped on No. two pipes； Pipeline Water Hammer destroys sump, communicating pipe and the water wave cancellation element for reducing that policy device includes storehouse chamber upper end opening；Communicating pipe Both ends be connected on the water outlet of sump bottom respectively and the No.1 areole of No. two pipes on；Water wave cancellation element includes water Flat interval both ends are fixedly connected on several cross bars on the intracavitary upper side wall in storehouse；It is equipped with several straight down on every cross bar Vertical pipe is eliminated in oscillation, several oscillations are equipped on the side pipe wall that vertical pipe is eliminated in every oscillation and eliminate side pipe hole；No.1 pipe Angle with horizontal plane is θ.

2. the comprehensive energy according to claim 1 for power grid dispatches system, which is characterized in that eliminated in each oscillation Oscillation above side pipe hole is eliminated and is fixed with the outer end oscillation block directed downwardly that disappears in vertical pipe.

3. the comprehensive energy according to claim 1 for power grid dispatches system, which is characterized in that disappear in same root oscillation Side pipe hole is eliminated except this several oscillation in vertical pipe to arrange in the shape of a spiral.

4. the comprehensive energy according to claim 1 for power grid dispatches system, which is characterized in that the Pipeline Water Hammer is broken It is as follows that the bad Pipeline Water Hammer for reducing policy device reduces optimal policy implementation method:

(1), according to the second mechanics law of newton, the sum of the power in water flow movement direction is acted in No.1 pipe

Have

Wherein, ρ is the density of water, and L is No.1 pipe range, s₁No.1 tube section product, y are the water velocity in No.1 pipe, m₂For No.1 The pressure of pipe lower end water outlet water, m₁For the pressure of No.1 pipe upper end water inlet water, g is gravitational constant, θ be No.1 pipe with The angle of horizontal plane, c are the coefficient of viscosity；

Water velocity when y (t) is No.1 pipe inherence time t, m₂It (t) is the pressure of No.1 pipe lower end water outlet water in time t By force；

Reservoir level is constant, so the pressure m of No.1 pipe upper end water inlet water₁For constant；

Water and No.1 pipe are nonelastic, and unit length tube wall square is inversely proportional to the resistance of water flow and water velocity, and ratio is normal Number c is known as the coefficient of viscosity；

(2), because of the gravity ρ s of sump water inlet water column in orlop portion, storehouse₀The difference s of hg formation bottom and top pressure₁m₂- s₀m₁, then the statics equation of sump be

s₁m₂-s₀m₁=ρ s₀hg (A2)

Wherein, h is water bunker level height, s₀Sump sectional area；

(3), according to law of conservation of energy, the difference that sump passes in and out water is equal to the variation of water in storehouse, that is, has

Wherein, s₂For No. two pipe cross-sectional areas, w (t) is water velocity of the sump water outlet in time t；

When the water velocity w (t) of sump water outlet changes, the changing rule of water level h (t), disappears from (A1)-(A3) formula in storehouse Remove m₂With y (t), can obtain

Wherein, h (t) is height of water level of the sump in time t；

When w (t) is in stable state w₀When nearby having minor change, h (t) is also in stable state h₀Variation nearby；It is enabled in (A4) formula H (t)=h₀With w (t)=w₀, h₀And w₀All it is constant, obtains

Wherein, m₀For top atmospheric pressure,

If w (t)=w₀+εw₁(t), h (t)=h₀+εh₁(t) (A6)

Wherein, (A6) formula is substituted into (A4) formula and omitted containing ε and ε by ε very little²Item can obtain

Or it is denoted as

The primary condition of equation (A8) can be set as

For given various forms w₁(t), (A8)-(A10) formula is easy to solve, and the general solution of (A8) formula is

Wherein ξ₀、It is arbitrary constant；WhenWhenOscillation is presented, is represented by by (A9) formula oscillating condition

In practical projects, s₁、s₀、L、s₂Parameter is limited by various conditions, but engineering build after the completion of s₁、s₀、L、s₂It is Known parameters, coefficient of viscosity c very little, η is little, and the very slow concussion that decays, and because s are formed under condition (A12) formula₀> s₁, L It is larger, therefore k very little, ω very little cause the cycle of oscillation of water in sump long, this is undesirable, therefore by setting in sump Setting Pipeline Water Hammer and destroying the oscillation for reducing policy device to eliminate water in sump is exactly that Pipeline Water Hammer reduces optimal policy realization side Method.

5. the comprehensive energy according to claim 1 for power grid dispatches system, which is characterized in that be located above cross bar Sump storehouse cavity wall on be fixed with lower position block, be located at lower position block above sump storehouse it is intracavitary be equipped with can up and down The closed slide plate of closed sliding is equipped with fixed reinforcing rod the storehouse for the sump being located above closed slide plate is intracavitary, spring Both ends are respectively fixedly connected on the lower surface of fixed reinforcing rod and on the upper surface of closed slide plate.