CN206785543U - One kind is drawn water energy storage technology device - Google Patents

Abstract

This application discloses a kind of water-storage device, it includes：Aqueduct (1), reversible hydrogenerator (2), hollow ball (3)；Hollow ball (3) is placed on the sea bed of certain depth, and aqueduct (1) is arranged in hollow ball (3), aqueduct (1) upper end connection reversible hydrogenerator (2).When the low electric power of network load is unnecessary, unit will power consumption hollow ball maritime interior waters extract out, carry out accumulation of energy；When network load height needs peak electrical generation, allow seawater to pour into drive train in ball and generate electricity.Requirement when building traditional hydroenergy storage station on land to location conditions such as landform, geology, water sources is higher, and alternative website is less, and this marine energy accumulating technique expands the addressing scope in power station.

Description

One kind is drawn water energy storage technology device

Technical field

It the utility model is related to technical field of power generation, more particularly to water-storage technology.Mainly solve to build on land Had a great influence during traditional hydroenergy storage station by location conditions such as landform, geology, water sources, this marine energy accumulating technique expands The addressing scope in power station.

Background technology

Requirement of traditional hydroenergy storage station to location conditions such as landform, geology, water sources is high, is drawn water so being adapted to build The website of storage station is less, and is located at Hilly land mostly, has inconvenient traffic, seriously constrains hydroenergy storage station Build and develop.

The content of the invention

The technical problems to be solved in the utility model is technology to be solved in the utility model the defects of overcoming prior art Problem there is provided a kind of water-storage device, and Construction of Pumped Storage Power Station on sea bed, this marine energy accumulating technique expands The addressing scope in power station.

The technical scheme to solve the above problems is：This water-storage device, it includes：Aqueduct (1), reversible water wheels Generator (2), hollow ball (3)；Hollow ball (3) is placed on the sea bed of certain depth, and aqueduct (1) is arranged in hollow ball (3), Aqueduct (1) upper end connection reversible hydrogenerator (2).

When the low electric power of network load is unnecessary, unit will power consumption ball maritime interior waters extract out, carry out accumulation of energy；Work as network load When height needs peak electrical generation, allow seawater to pour into drive train in ball and generate electricity.Hollow ball should have enough volumes to guarantee to connect Supervention electricity, and should be placed on the sea bed of certain depth to ensure to have the head pressure needed for generating electricity.

Brief description of the drawings

Fig. 1 is the standalone architecture schematic diagram according to water-storage device of the present utility model.

Fig. 2 is the unit parallel connection schematic diagram according to water-storage device of the present utility model.

Embodiment

As illustrated, this water-storage device, it includes：Aqueduct 1, reversible hydrogenerator 2, hollow ball 3；It is empty Bulbus cordis 3 is placed on the sea bed of certain depth, and aqueduct 1 is arranged in hollow ball 3, the upper end of aqueduct 1 connection reversible water wheels hair Motor 2.

When the low electric power of network load is unnecessary, unit will power consumption ball maritime interior waters extract out, carry out accumulation of energy；Work as network load When height needs peak electrical generation, allow seawater to pour into drive train in ball and generate electricity.Hollow ball should have enough volumes to guarantee to connect Supervention electricity, and should be placed on the sea bed of certain depth to ensure to have the head pressure needed for generating electricity.

Preferably, the reversible hydrogenerator has rotor and runner, when network load is low and electric power is unnecessary, leads to Crossing power network electric power more than needed rotates rotor, and then drives runner to rotate to form centrifugal force, seawater is extracted out of hollow ball out storage Energy.There is water pump function during the reversible hydrogenerator water suction, when the low electric power of network load is unnecessary, unit will power consumption Seawater is extracted out, carries out accumulation of energy, the effect that reversible hydrogenerator has played water pump reduces cost raising efficiency.

Preferably, when network load height needs peak electrical generation, poured into by seawater in hollow ball, impact runner forms water The reaction force of stream and rotate, and then rotor driven rotary electrification.The reversible hydrogenerator has generator when generating electricity Function, when network load height needs peak electrical generation, allow seawater to pour into ball drive train and generate electricity, reversible hydrogenerator The effect of generator has been played, dual-use, has saved cost, has saved space, has improved efficiency.

Preferably, the hollow ball has enough volumes, to guarantee continuously to generate electricity.For example, the hollow ball Radius is more than 1 meter.

Preferably, the sea bed has enough depth, to ensure to have the head pressure needed for generating electricity.For example, the sea The depth of bed is more than 3 meters.

Preferably, the aqueduct has enough length, to guarantee to extract out in the seawater in hollow ball.For example, The length of the aqueduct is more than hollow bulb diameter.

Preferably, as shown in Fig. 2 the multiple water water-pumped water storage device needs are used in parallel, to reach the mesh of commercial operation , it is necessary to which multiple Energy storage balls are used in parallel, to reach certain scale.

Preferably, the part for making hollow ball by weight is submerged in seawater.So it can make hollow ball will not be by sea wind Blown away Deng severe natural situation.

It is described above, only it is preferred embodiment of the present utility model, not makees any formal limit to the utility model System.It will be apparent to an ordinarily skilled person in the art that every made according to the technical essence of the utility model to above example Any simple modification, equivalent change and modification, still belong to the protection domains of technical solutions of the utility model.

Claims (8)

1. A kind of 1. water-storage device, it is characterised in that：It includes：Aqueduct (1), reversible hydrogenerator (2), hollow ball (3)；Hollow ball (3) is placed on the sea bed of certain depth, and aqueduct (1) is arranged in hollow ball (3), and aqueduct (1) upper end connects Connect reversible hydrogenerator (2).
2. 2. water-storage device according to claim 1, it is characterised in that：The reversible hydrogenerator has rotor And runner, when network load is low and electric power is unnecessary, the electric power being had more than needed by power network rotates rotor, and then drives runner rotation Centrifugal force is formed, seawater is extracted out accumulation of energy out of hollow ball.
3. 3. water-storage device according to claim 2, it is characterised in that：When network load height needs peak electrical generation, Poured into by seawater in hollow ball, impact runner forms the reaction force of current and rotated, and then rotor driven rotary electrification.
4. 4. water-storage device according to claim 3, it is characterised in that：The radius of the hollow ball is more than 1 meter.
5. 5. water-storage device according to claim 4, it is characterised in that：The depth of the sea bed is more than 3 meters.
6. 6. water-storage device according to claim 5, it is characterised in that：It is straight that the length of the aqueduct is more than hollow ball Footpath.
7. 7. water-storage device according to claim 6, it is characterised in that：Multiple water water-pumped water storage devices are used in parallel.
8. 8. water-storage device according to claim 1, it is characterised in that：The part for making hollow ball by weight is submerged In seawater.