CN101737231A - Wind power boosting efficient hydroelectric generation method and system - Google Patents

Abstract

The invention discloses a wind power boosting efficient hydroelectric generation method and a system. The method is characterized in that the pipe diameter of the draft tube is designed to be greater than the pipe diameter of the pressure water conduit; the externally added wind force supercharging device is utilized to pressurize the flow at the inlet of the pressure water conduit of a reservoir, thus increasing the quantity of the electric energy which is transformed by the kinetic energy and the pressure energy of the hydraulic energy, improving generating efficiency and improving the utilization ratio of the hydraulic energy.

Description

Wind power boosting efficient hydroelectric generation method and system

Technical field

The present invention relates to a kind of wind power boosting efficient hydroelectric generation method and system, belong to the hydroelectric power field.

Background technique

The water power plant utilizes reservoir to come retaining, and the water yield of the big more storage of reservoir capacity is big more, and the water that reservoir stores can be just many more.Current with certain flow rate contain kinetic energy, and the high more kinetic energy that has of flow velocity is just big more; The current that are in certain altitude have potential energy, and the big more potential energy that has of relative height is just big more.Current flow to lower from eminence, potential energy can be converted into kinetic energy, and current obtain higher speed.The water of saving in the reservoir obtains high speed under action of gravity, move along pressure diversion conduit is defeated downwards, obtains higher speed at the water turbine jointing.Water current driven water turbine with certain speed rotates, and makes water turbine obtain mechanical energy; The water wheels machine driving generator is converted into electric energy with mechanical energy.Water power plant hydraulic generator unit output Power Calculation formula all adopts following mathematical formulae traditionally ^[1]-[13]:

P＝9.80ηQH (1)

P is a hydraulic generator unit output power (kW) in the formula, and Q is a generating flow, and H is a productive head, and η is the water turbine generating efficiency.

Formula (1) is to draw under hypothesis pressure diversion conduit ingress water velocity, pressure and prerequisite that water turbine water outlet place water velocity, pressure equate.That is to say that the Traditional calculating methods of hydraulic generator unit output power includes only potential energy, and do not comprise kinetic energy, pressure energy.Traditional calculating methods, do not consider that water flow dynamic energy and pressure energy move at reservoir, pressure diversion conduit, water turbine, the defeated of draft tube, therefore on structure and technology, reservoir, pressure diversion conduit, water turbine, draft tube are not carried out specific aim improvement and optimization yet, make that water can not obtain fully and efficiently utilizing.

The electric energy that the hydraulic generator unit is transformed from reservoir water body potential energy, kinetic energy and pressure energy main and reservoir drop, pressure diversion conduit ingress water velocity and reservoir filling water level etc. have relation.

HYDROELECTRIC ENERGY is to be the main resource of taking into account other comprehensive utilizations with the generating, in order to carry out reasonable optimizing to its utilization, must obtain its total amount by mathematical method, sets up functional model.HYDROELECTRIC ENERGY is the Conversion of energy of being contained by natural water resources, mainly is to be present in the energy that pressure energy, potential energy, impact kinetic energy and water body gravity acting in the water body are produced.

(1) energy that has of water inlet water body infinitesimal

Suppose that water power plant unit pressure deferent is cylindrical, one of water inlet little length on the x direction is the water body infinitesimal of dx, and then the stressed of this water body infinitesimal has gravity, hydraulic pressure to reach reservoir level Four water body weight force component by force to its active force.Under these active force actings in conjunction, the water body infinitesimal to the outlet campaign and promote the water wheels unit and rotate, is finally realized the coupling conversion of water energy-mechanical energy-electric energy along the pressure diversion conduit import, and the hydraulic generator unit produces electric energy output.

Pressure along the pressure diversion conduit durection component to water body infinitesimal institute's work or the energy W that had _IFor:

$W_I=P_I{V}_w=(H-H_1)\mathrm{\&rho;}\&CenterDot;\frac{1}{4}\mathrm{\&pi;}{\mathrm{<figure-callout\; id="2"\; label="D"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">D</figure-callout>}}^2\mathrm{dx}=\frac{1}{4}\mathrm{\&pi;\&rho;}{D}^2(H-H_1)\mathrm{dx}---\left(2\right)$

P wherein _I, V _W, H _I, D is volume, pressure, water level, the diameter of pressure diversion conduit ingress water body infinitesimal, H is the reservoir filling water level, ρ is the proportion of water, α is the pressure diversion conduit tilt angle.

Water body infinitesimal weight at the formed pressure in pressure diversion conduit ingress along component institute's work of pressure diversion conduit direction or the energy that is had is:

$M_I=P_M{V}_M=\frac{1}{4}\mathrm{\&pi;}{\mathrm{<figure-callout\; id="2"\; label="D"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">D</figure-callout>}}^2\mathrm{\&rho;}\&CenterDot;d^{2}x---\left(3\right)$

If weight is m _W, volume is V _WThe speed of water body infinitesimal in the pressure diversion conduit water inlet be v _{I, j, i}, then its kinetic energy that has is:

$K_I=\frac{1}{2g}{m}_W{v}_{\mathrm{<figure-callout\; id="2"\; label="I"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">I</figure-callout>}}^2=\frac{1}{2g}\&CenterDot;\frac{1}{4}\mathrm{\&pi;\&rho;}{\mathrm{<figure-callout\; id="2"\; label="D"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">D</figure-callout>}}^2\mathrm{dx}\&CenterDot;v_{\mathrm{<figure-callout\; id="2"\; label="I"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">I</figure-callout>}}^2=\frac{1}{8g}\&CenterDot;\mathrm{\&pi;\&rho;}{D}^2{v}_{\mathrm{<figure-callout\; id="2"\; label="I"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">I</figure-callout>}}^2\mathrm{dx}---\left(4\right)$

Weight is m _W, volume is V _WThe water body infinitesimal have potential energy in pressure diversion conduit water intake place and be:

$E_I=m_W\&CenterDot;H_I=\frac{1}{4}\mathrm{\&pi;\&rho;}{D}^2{H}_I\&CenterDot;\mathrm{dx}---\left(5\right)$

(2) energy that has of water outlet place water body infinitesimal

To moving to the water body infinitesimal in downstream after the water turbine acting, suppose that the pressure of water power plant hydraulic generator unit at water turbine water outlet place is P _O, then this pressure is m to weight _W, volume is V _WThe water body infinitesimal done be:

$W_O=P_O\&CenterDot;V_w=\frac{1}{4}\mathrm{\&pi;}{D}^2{P}_O\mathrm{dx}---\left(6\right)$

Weight is m _WThe water body infinitesimal at the formed pressure in cross section, water turbine water outlet place be along component institute's work of pressure deferent direction or the energy that is had:

$M_O=M_I=\frac{1}{4}\mathrm{\&pi;}{\mathrm{<figure-callout\; id="2"\; label="D"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">D</figure-callout>}}^2\mathrm{\&rho;}\&CenterDot;d^{2}x---\left(7\right)$

If weight is m _W, volume is V _WThe speed of water body infinitesimal at water turbine water outlet place be v _O, then its kinetic energy that has is:

$K_O=\frac{1}{2g}{m}_W{v}_{\mathrm{<figure-callout\; id="2"\; label="O"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">O</figure-callout>}}^2=\frac{1}{2g}\&CenterDot;\frac{1}{4}\mathrm{\&pi;\&rho;}{\mathrm{<figure-callout\; id="2"\; label="D"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">D</figure-callout>}}^2\mathrm{dx}\&CenterDot;v_{\mathrm{<figure-callout\; id="2"\; label="O"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">O</figure-callout>}}^2=\frac{1}{8g}\&CenterDot;\mathrm{\&pi;\&rho;}{D}^2{v}_{\mathrm{<figure-callout\; id="2"\; label="O"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">O</figure-callout>}}^2\mathrm{dx}---\left(8\right)$

Weight is m _W, volume is V _WThe water body infinitesimal at the potential energy that water turbine water outlet place has be:

$E_O=m_W\&CenterDot;H_O=\frac{1}{4}\mathrm{\&pi;\&rho;}{D}^2{H}_O\&CenterDot;\mathrm{dx}---\left(9\right)$

H wherein _OElevation for water turbine water outlet place, water power plant.

(3) the unit electric energy calculates

Acting moves to the aqueduct outlet to upstream water body infinitesimal through water turbine, and according to law of conservation of energy, energy or merit that water turbine obtains are:

$E_G=W_I+K_I+E_I+M_I-W_O-K_O-E_O-M_O$

$=\frac{\mathrm{\&pi;}{\mathrm{<figure-callout\; id="2"\; label="D"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">D</figure-callout>}}^2\cos \mathrm{\&alpha;}[\mathrm{\&rho;}(H-H_I)-P_o]\mathrm{<figure-callout\; id="4"\; label="dx"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">dx</figure-callout>}}{4}+\frac{\mathrm{\&pi;\&rho;}{\mathrm{<figure-callout\; id="2"\; label="D"\; filenames="H2009101145986E0000011.png"\; state="\{\{state\}\}">D</figure-callout>}}^2\cos \mathrm{\&alpha;}[v_I^2-v_o^2]\mathrm{dx}}{8g}$

$+\frac{\mathrm{\&pi;\&rho;}{D}^2(H_I-H_o)\mathrm{dx}}{4}---\left(10\right)$

Make k _pBe the ratio of Hydropower Plant water turbine water outlet place with pressure deferent water inlet water body pressure:

$k_P=\frac{P_O}{P_I}---\left(11\right)$

k _vBe the ratio of step power station unit water turbine water outlet place with pressure deferent water inlet water volume flow rate:

$k_v=\frac{v_O}{v_I}---\left(12\right)$

H _DBe the drop between Hydropower Plant pressure deferent water inlet and the water turbine water outlet place:

H _D＝H _I-H _O (13)

Energy or function electric power that water turbine obtains are represented, then step power station j i platform unit with kW be unit (1kW=102kg.m/s) in period dt, produced exert oneself and can represent:

$N_G=\frac{1}{102}[(1-k_p)P_I+\frac{1}{2g}{v}_I^3(1-k_v)+H_D]Q_G---\left(14\right)$

Q wherein _GBe the unit generation flow, $Q_G=\frac{1}{4}\mathrm{\&pi;}{D}^2{v}_I,$ $v_I=\frac{\mathrm{dx}}{\mathrm{dt}}.$

To formula (14) arrangement:

$N_G=9.8[(1-k_p)P_I+\frac{1}{2g}{v}_I^3(1-k_v)+H_D]Q_G---\left(15\right)$

From formula (15) as can be seen, the available water of Hydropower Plant Reservoir can comprise water body pressure energy, kinetic energy, potential energy, the electric energy that utilizes the hydraulic generator unit to be obtained is relevant with water power plant drop, generating flow, and also the parameters such as storage capacity feature of importing and exporting pressure, speed, aqueduct inclination angle and the water power plant of water body with pressure diversion conduit have substantial connection.

Traditional hydraulic generator unit all is to adopt the Traditional calculating methods of above-mentioned formula (1) to determine its electric motor power.

Author of the present invention draws as drawing a conclusion through research for many years:

1) hydroelectric generator can be converted into mechanical energy by reservoir, pressure diversion conduit, water turbine, generator and draft tube with water and be converted into electric energy, and electric energy comprises three kinds of components such as kinetic energy, potential energy and pressure energy.

2) the kinetic energy component is directly proportional with the difference of two squares of pressure diversion conduit water inlet place and water turbine water outlet place water velocity.Pressure diversion conduit water inlet place water velocity is controlled water turbine water outlet place water velocity little greatly, and the kinetic energy component will increase; Pressure diversion conduit water inlet place and water turbine water outlet place water velocity equate that the kinetic energy component is 0.

3) the pressure energy component is directly proportional with the difference of pressure diversion conduit water inlet place and water turbine water outlet place current pressure.Current suffered pressure in pressure diversion conduit water inlet place controls water turbine water outlet place current pressure little greatly, and the pressure energy component will increase; Pressure diversion conduit water inlet place and water turbine water outlet place water velocity equate that the pressure energy component is 0.

Summary of the invention

Based on above-mentioned analysis, technical problem to be solved by this invention is that a kind of wind power boosting efficient hydroelectric generation method and system are provided, utilize wind-force to increase water flow pressure, further increase water velocity and pressure, improve kinetic energy transformation efficiency in the water energy, realize hydroelectric power more efficiently.

Technological scheme of the present invention is as follows:

Wind power boosting efficient hydroelectric generation method increases the draft tube caliber, and the draft tube caliber increases the supercharging device of a cover wind-force simultaneously greater than the pressure diversion conduit caliber in reservoir pressure diversion conduit ingress.Its role is to,, obtain pressure deferent water intake and the bigger difference of water turbine water outlet water velocity by enlarging the draft tube caliber.Under the less situation of water turbine water outlet water velocity, when draft tube can transport the generating flow the same with pressure diversion conduit, make kinetic energy be converted into electric energy more; Utilize wind-force that the lower end pressure diversion conduit is also down injected in current pressurization in reservoir pressure diversion conduit ingress, increase the differential water pressures of water outlet and water inlet, when draft tube can transport the generating flow the same with pressure diversion conduit, make pressure energy be converted into electric energy more.

The wind power boosting system is the supercharging device that increases wind-force in reservoir pressure diversion conduit ingress, and current pressure is increased.The waterflow boosting system comprises and adds wind-driven device, booster water pump, it is characterized in that, utilization is added the supercharging power source pressure diversion conduit ingress water flow pressure is increased to proper level.

The wind power boosting efficient hydroelectric generation system comprises reservoir, adds wind power boosting device, pressure diversion conduit, water turbine, generator, draft tube, it is characterized in that the draft tube caliber is greater than the pressure diversion conduit caliber.

Above-mentioned wind power boosting efficient hydroelectric generation system, described arbitrary section draft tube, its sectional shape can be circle, or oval, or triangle, or square, or polygonal.

The invention has the advantages that: by the reservoir pressure diversion conduit is carried out innovative design, introducing adds the supercharging device of wind-force, reservoir pressure diversion conduit ingress current are implemented supercharging, pressure diversion conduit ingress water flow pressure is increased to higher level, kinetic energy, pressure energy are converted into the component of electric energy in the increase water energy, improve generating efficiency, improve the utilization ratio of water energy.

Description of drawings

Accompanying drawing is the schematic representation of wind power boosting efficient hydroelectric generation of the present invention system.

Embodiment

As shown in the figure, 1 is reservoir, and 2 for adding the wind power boosting device, and 3 is pressure diversion conduit, and 4 is water turbine, and 5 is generator, and 6 is draft tube.Add wind power boosting device 2 and directly be connected with reservoir 1, the water intake of pressure diversion conduit 3 is connected with additionaling power supercharging device 2, and the water outlet of pressure diversion conduit 3 is connected with the water intake of water turbine 4.The water outlet of water turbine 4 directly is connected with the water intake of big caliber draft tube 6.

Pressure diversion conduit 3 with bore 8m is an example, for water turbine 4, if the water velocity of pressure diversion conduit 3 is 8m/s, under situation about not considering through the influence of the variation of water turbine 4 back water velocities and other factors, if draft tube 6 calibers are the twice of the caliber of pressure diversion conduit 3, draft tube 6 is when transporting the generating flow condition the same with pressure diversion conduit 3 so, and the water velocity of the draft tube 6 of flowing through can be changed into 4m/s.If consider that part kinetic energy component is converted into mechanical energy by water turbine 4 in the water energy, the water velocity of draft tube 6 will be less than 4m/s so, even can be littler.

For new unit, when design, need only balance technology and economic effect, the pressure diversion tubular construction is transformed and increased by one overlap the waterflow boosting system, just can reach the purpose that improves the water power plant power benefit.The k that the draft tube water outlet aperture is designed to the pressure diversion conduit bore doubly just can make the draft tube water velocity reduce 1/k.Reducing of draft tube water velocity just can increase the difference of pressure diversion conduit and draft tube water velocity, thereby makes that bigger water flow dynamic energy component is converted into electric energy; Boost pressure aqueduct inlet current pressurization system just can realize the growth that the pressure energy component is done work, and increases the hydraulic generator unit and exerts oneself, and improves water power plant waterpower utilization rate and generating efficiency.

And,, increase by a cover wind-force pressurization device at pressure diversion conduit as long as existing pressure diversion conduit is carried out structure and technologic technical innovation for old unit, just can realize technique effect of the present invention.

Claims (4)

1. wind power boosting efficient hydroelectric generation method is characterized in that, utilize wind-force that pressure diversion conduit ingress current are carried out supercharging, and the draft tube caliber is greater than the pressure diversion conduit caliber.

2. the wind power boosting efficient hydroelectric generation system comprises reservoir, adds wind power boosting device, pressure diversion conduit, water turbine, generator, draft tube, it is characterized in that the draft tube caliber is greater than the pressure diversion conduit caliber.

3. the wind power boosting system is to increase the wind power boosting device in reservoir pressure diversion conduit ingress, and current pressure is increased.The waterflow boosting system comprises and adds wind-driven device, booster water pump, it is characterized in that, utilization is added the supercharging power source pressure diversion conduit ingress water flow pressure is increased to proper level.

4. wind power boosting as claimed in claim 3 system is characterized in that, through pressurization back pressure diversion conduit water flow pressure greater than pressure diversion conduit ingress water flow pressure.

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