CN202072517U

CN202072517U - Wind power complemented hydraulically driven sea water desalting device

Info

Publication number: CN202072517U
Application number: CN2011201890483U
Authority: CN
Inventors: 吴速; 麻常选; 由长林; 徐青松
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-06-08
Filing date: 2011-06-08
Publication date: 2011-12-14
Anticipated expiration: 2021-06-08

Abstract

The utility model relates to the field of sea water desalting, in particular to a wind power complemented hydraulically driven sea water desalting device. The wind power complemented hydraulically driven sea water desalting device comprises a sea water pressurizing system, a wind driven hydraulic pressurizing system and a reverse osmosis sea water desalting facility. The hydraulic water pressure pressurizing system comprises an oil tank, a low-pressure oil pump, an oil delivery pipe and a wind driven hydraulic pressurizer set, wherein the hydraulic pressurizer set comprises an engine room, a wind turbine impeller, an impeller main shaft, an accelerating gearbox, a coupler and a hydraulic pump; the wind turbine impeller is arranged on the front part of the engine room; and the impeller main shaft, the accelerating gearbox, the coupler and the hydraulic pump are fixedly connected sequentially and are arranged in the engine room. A wind driven hydraulic pump generates high-pressure oil; a hydraulic water pressure pressurizing pump pressurizes sea water by means of the high-pressure oil to perform sea water reverse osmosis desalting; and when wind power is not enough or without wind, an electric water pump can be started to pressurize to ensure that the sea water desalting facility works. The wind power complemented hydraulically driven sea water desalting device is applied to sea water reverse osmosis desalting; the electric power consumption is reduced; and the wind power complemented hydraulically driven sea water desalting device has the advantages of investment saving, high efficiency and the like, and is particularly suitable for being used in islands and coastal areas.

Description

A kind of hydraulic drive sea water desalinating plant of wind-electricity complementary

Technical field

The utility model relates to a kind of equipment that is used for sea water desaltination, specifically is a kind of hydraulic drive sea water desalinating plant of wind-electricity complementary.

Background technology

Sea water desaltination has now become the important channel that solves the water globe crisis of resource, and the reverse osmosis method of using reverse osmosis membrane at present is most widely used.Reverse osmosis method is the characteristic property that utilizes reverse osmosis membrane only to allow solvent to see through, do not allow solute to see through, seawater and freshwater is separated, the reverse osmosis unit operation power is a pressure difference, to be boosted through pretreated seawater by high-pressure pump reaches the operating pressure of reverse osmosis, is generally 5.0～6.9MPa reverse osmosis process is carried out.

The reverse osmosis method sea water desaltination, energy consumption is the key that directly determines its cost height, and the power consumption of high-pressure pump has accounted for about 70% of running cost, its use range is subjected to the limitation of electric power or power supply, be difficult to especially generally promote the use of in the zone of electric power scarcities such as numerous island wider.

The utility model content

The technical problems to be solved in the utility model provides the hydraulic drive sea water desalinating plant of a kind of reduced investment, wind-electricity complementary that efficient is high, directly drive hydro-pump with wind-force and produce high-pressure oil, carry out seawater reverse osmosis with high-pressure oil as the major impetus of hydraulic pressure hydraulic pressure topping-up pump and desalinate thoroughly, purpose is to reduce reverse osmosis method sea water desaltination cost.

In order to solve the problems of the technologies described above, the utility model adopts following technical scheme:

The hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model comprises the hydraulic booster system of seawater supercharging system and wind drive.

Described seawater supercharging system comprises hydraulic pressure hydraulic pressure topping-up pump and electric water pump, the water-in of described hydraulic pressure hydraulic pressure topping-up pump is communicated with the low pressure seawaterline, and be connected with hydraulic pressure hydraulic pressure topping-up pump water outlet by electrically-controlled valve, the water outlet of hydraulic pressure hydraulic pressure topping-up pump is connected with the inlet of automatically controlled T-valve, first water outlet of automatically controlled T-valve is connected with the water-in of described electric water pump, second water outlet of automatically controlled T-valve is connected with the water outlet of total water outlet and described electric water pump, and described total water outlet connects the reverse osmosis seawater desalting facility.Total water outlet in hydraulic pressure hydraulic pressure topping-up pump water outlet and seawater supercharging system is separately installed with pressure transmitter.

Prime at hydraulic pressure hydraulic pressure topping-up pump is provided with the sea water preprocessing operation, and purpose is to provide the low pressure seawater of cleaning to the hydraulic pressure topping-up pump.

Described hydraulic booster system comprises fuel tank, low pressure fuel pump, the hydraulic booster unit of transition pipeline and wind drive, the hydraulic booster unit of described wind drive comprises the cabin, be installed on cabin forward wind turbine impeller and be installed on the impeller spindle of engine room inside, the impeller spindle pedestal bearing, accelerating gearbox, shaft coupling and hydro-pump, described impeller spindle is fixedlyed connected with the input shaft of described accelerating gearbox, the output shaft of described accelerating gearbox is connected with the main shaft of described hydro-pump by shaft coupling, the surface of described shaft coupling is provided with the electric control hydraulic braking device, the main shaft of described hydro-pump is provided with tachogenerator, the output high-pressure oil of described hydro-pump drives described hydraulic pressure hydraulic pressure topping-up pump by high-pressure pipeline, the input terminus of described low pressure fuel pump communicates with fuel tank, and described low pressure oil delivery side of pump is connected with the oil inlet end of described hydro-pump by the low pressure transition pipeline.

Further, the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model, can also comprise the hydraulic booster unit that is connected in described wind drive and compensator or trimmer pressure container, surplus valve, flowrate control valve and the check valve between the described hydraulic pressure hydraulic pressure topping-up pump, and the purifier that is connected in the low pressure fuel pump prime.Can effectively stablize oil circuit pressure like this, guarantee that hydro-pump normally moves.

Further, the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model also comprises the pylon that supports described cabin, and described pylon is tubular column structure or truss-frame structure, the pylon upper end is connected with the cabin by engine room foundation, and the pylon lower end is fixed on the tower mount.

Further, the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model also comprises electric control gear, specifically comprises PLC controller, frequency transformer, electric control hydraulic braking device, tachogenerator and discharge pressure transmitter.

The PLC controller is according to the transducing signal of tachogenerator and discharge pressure transmitter, the action of control electrically-controlled valve and automatically controlled T-valve and starting and stopping and speed governing by the Frequency Converter Control electric water pump, finish wind energy driving, electric energy driving or two kinds of power complementary drive patterns with this, according to the action of wind-force size control electric control hydraulic braking device and the working order of hydro-pump.Adjust the direction of facining the wind of wind energy conversion system according to wind direction control yaw device.

Further, the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model also comprises the reverse osmosis seawater desalting facility.

The principle of work of the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the utility model is: the hydraulic booster unit of wind drive is converted to mechanical energy by wind turbine impeller with wind energy, quicken the rear drive hydro-pump through accelerating gearbox and produce high-pressure oil, high-pressure oil drives hydraulic pressure hydraulic pressure topping-up pump by transition pipeline, and hydraulic pressure hydraulic pressure topping-up pump pressurizes to the low pressure seawater.

Low pressure fuel pump draws the hydraulic efficiency oil of fuel tank and sends into the tower top hydro-pump through pressurization by driven by power.When wind-force was strong, the pressure that satisfies predefined tachometer value or hydraulic pressure hydraulic pressure topping-up pump as the main shaft of hydro-pump reached set(ting)value, and then seawater directly pumps into the desalination of reverse osmosis seawater desalting facility and exports for fresh water; When the speed of mainshaft of the insufficient pressure of hydraulic pressure hydraulic pressure topping-up pump or hydro-pump was not enough, electric control gear was controlled the pressurization of electric water pump secondary automatically, to guarantee reverse osmosis pressure; When calm, electric control gear is controlled electric water pump automatically directly to low pressure seawater pressurization generation high pressure water as required, enters the reverse osmosis seawater desalting facility, finishes wind energy driving, electric energy driving or two kinds of power complementary drive patterns with this.

The beneficial effect of this programme:

1, the utility model is that high-pressure oil drives hydraulic pressure hydraulic pressure topping-up pump with wind energy transformation, with respect to the device based on the driven by power high-pressure pump of wind-power electricity generation, has reduced the energy and has transformed and lose, and has the efficient height, the advantage that the sea water desaltination cost is low;

2, the utility model adopts the wind-electricity complementary function, has improved the practicality of wind drive, when wind-force is not enough or calm, can suitably enables the electric energy drive unit and guarantee facility work;

3, the utility model is owing to adopt wind-force as power, total system work environmental protection and energy saving, meet the low-carbon economy demand for development, reduced dependence, be particularly suitable for wind resource and enrich and the island use of electric power resource shortage Nonrenewable energy resources such as oil, coals.

Description of drawings

Below in conjunction with accompanying drawing embodiment of the present utility model is described in further detail.

Fig. 1 is the embodiment structural representation of the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the utility model;

Fig. 2 is the electric control gear control synoptic diagram of the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the utility model.

At Fig. 1, among Fig. 2: 1, wind turbine impeller, 2, the impeller spindle pedestal bearing, 3, accelerating gearbox, 4, the electric control hydraulic braking device, 5, shaft coupling, 6, tachogenerator, 7, hydro-pump, 8, the cabin, 9 check valves, 10, yaw device, 11, engine room foundation, 12, pylon, 13, the low pressure transition pipeline, 14, high-pressure pipeline, 15, tensimeter, 16, surplus valve, 17, the compensator or trimmer pressure container, 18, control valve, 19, flowrate control valve, 20, hydraulic pressure hydraulic pressure topping-up pump, 21, the seawater water-in, 22, electrically-controlled valve, 23, fuel tank, 24, hydraulic pressure hydraulic pressure topping-up pump water outlet, 25, the first discharge pressure transmitter, 26, automatically controlled T-valve, 27, T-valve second water outlet, 28, T-valve first water outlet, 29, the second discharge pressure transmitter, 30, the reverse osmosis seawater desalting facility, 31, electric water pump, 32, electric motor, 33, belt, 34, purifier, 35, low pressure fuel pump, 36, check valve, 37, flowrate control valve, 38, total water outlet.

Embodiment

As depicted in figs. 1 and 2, a kind of hydraulic drive sea water desalinating plant of wind-electricity complementary comprises the hydraulic booster system of seawater supercharging system and wind drive.

Described seawater supercharging system comprises hydraulic pressure hydraulic pressure topping-up pump 20 and electric water pump 31, the water-in of described hydraulic pressure hydraulic pressure topping-up pump 20 is communicated with low pressure seawaterline 21, and be connected with hydraulic pressure hydraulic pressure topping-up pump water outlet 24 by electrically-controlled valve 22, hydraulic pressure hydraulic pressure topping-up pump water outlet 24 is connected with the inlet of automatically controlled T-valve 26, first water outlet 28 of automatically controlled T-valve is connected with the water-in of described electric water pump 31, second water outlet 27 of automatically controlled T-valve 26 is connected with the water outlet of total water outlet 38 and described electric water pump 31, and described total water outlet 38 connects reverse osmosis seawater desalting facility 30.

Described hydraulic booster system comprises fuel tank 23, low pressure fuel pump 35,

transition pipeline

13,14, and the hydraulic booster unit of wind drive, the hydraulic booster unit of described wind drive comprises cabin 8, be installed on cabin 7 forward wind turbine impellers 1 and be installed on the impeller spindle of engine room inside, impeller spindle pedestal bearing 2, accelerating gearbox 3, shaft coupling 5 and hydro-pump 7, described impeller spindle is fixedlyed connected with the input shaft of described accelerating gearbox 3, the output shaft of described accelerating gearbox 3 is connected with the main shaft of described hydro-pump 7 by shaft coupling 5, the surface of described shaft coupling 5 is provided with electric control hydraulic braking device 4, the main shaft of described hydro-pump 7 is provided with tachogenerator 6, the output high-pressure oil of described hydro-pump 7 drives described hydraulic pressure hydraulic pressure topping-up pump 20 by high-pressure pipeline 14, the input terminus of described low pressure fuel pump 35 communicates with fuel tank 23, and the output terminal of described low pressure fuel pump 35 is connected with the oil inlet end of described hydro-pump 7 by low pressure transition pipeline 13.

In the present embodiment, what the hydraulic booster system of described wind drive adopted is horizontal-shaft wind turbine, and according to the regulatory demand of horizontal-shaft wind turbine, 8 bottom is provided with and regulates the yaw device 10 that impeller facings the wind in the cabin.When adopting vertical axis windmill to implement the utility model scheme, except that need not yaw device 10, all the other configurations are basic identical with present embodiment.

Further, the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model, can also comprise the hydraulic booster unit that is connected in described wind drive and compensator or trimmer pressure container 17, surplus valve 16,

flowrate control valve

19,37, the

check valve

9,36 between the described hydraulic pressure hydraulic pressure topping-up pump 20, and the purifier 34 that is connected in low pressure fuel pump 35 primes.Inlet at described compensator or trimmer pressure container 17 is provided with control valve 18 and tensimeter 15.

Further, the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model also comprises the pylon 12 that supports described cabin 8, and described pylon 12 is tubular column structure or truss-frame structure, pylon 12 upper ends are connected with cabin 8 by engine room foundation 11, and pylon 12 lower ends are fixed on the tower mount.

The hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model also comprises electric control gear, specifically comprises PLC controller, frequency transformer, electric control hydraulic braking device 4, tachogenerator 6,

discharge pressure transmitter

25,29 and yaw device 10.

The PLC controller is according to the transducing signal of tachogenerator 6 and

discharge pressure transmitter

25,29, the action of control electrically-controlled valve 22 and automatically controlled T-valve 26 and starting and stopping and speed governing by Frequency Converter Control electric water pump 31, finish wind energy driving, electric energy driving or two kinds of power complementary drive patterns with this, according to the direction of facining the wind of wind direction control yaw device 10 adjustment impellers, and according to the action of wind-force size control electric control hydraulic braking device 4 and the working order of hydro-pump 7.Low pressure fuel pump 35 is by electric control gear control operation.

The hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the present utility model also comprises reverse osmosis seawater desalting facility 30.

The concrete working process of the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary of the utility model is as follows:

When wind was arranged, the low pressure seawater directly entered hydraulic pressure hydraulic pressure topping-up pump 20, and hydraulic pressure hydraulic pressure topping-up pump 20 by water outlet 24 outputs, enters automatically controlled T-valve 26 to seawater pressurization back; Force value according to the first discharge pressure transmitter 25, if be less than 5MPa, electric control gear is controlled automatically controlled T-valve 26, close T-valve second water outlet 27, open T-valve first water outlet 28, the seawater that boosts enters electric water pump 31, simultaneously by variable frequency control actuating motor 32, under the drive of electric water pump belt 33 boost in pressure to prescribed value.

If the pressure of the first discharge pressure transmitter 25 is greater than 5MPa, electric control gear is controlled automatically controlled T-valve 26, open T-valve second water outlet 27, close T-valve first water outlet 28, the seawater that boosts through hydraulic pressure hydraulic pressure topping-up pump 20 does not enter electric water pump 31, and electric motor 32 stops simultaneously, and high pressure sea water directly enters

total water outlet

38,29 pairs of final outflow water of the second discharge pressure transmitter are carried out pressure monitor, feed back signal to electric control gear.

When a little less than calm or the wind during state, force value according to the first discharge pressure transmitter 25 is opened electrically-controlled valve 22 by electric control gear, the seawater hydraulic pressure hydraulic pressure topping-up pump 20 of not flowing through, and directly enter hydraulic pressure hydraulic pressure topping-up pump water outlet 24, and entering automatically controlled T-valve 26, electric control gear is controlled automatically controlled T-valve 26, close T-valve second water outlet 27, open T-valve first water outlet 28, electric motor starting, under the drive of electric water pump belt 33 boost in pressure to prescribed value.

Above embodiment is described preferred implementation of the present utility model; be not that scope of the present utility model is limited; under the prerequisite that does not break away from the utility model design spirit; various distortion that the common engineering technical personnel in this area make the technical solution of the utility model or be equal to replacement all should fall in the protection domain that claims of the present utility model determine.

Claims

1. the hydraulic drive sea water desalinating plant of a wind-electricity complementary, comprise the seawater supercharging system, described seawater supercharging system comprises hydraulic pressure hydraulic pressure topping-up pump (20) and electric water pump (31), the water-in of described hydraulic pressure hydraulic pressure topping-up pump (20) is communicated with low pressure seawaterline (21) and is connected with hydraulic pressure hydraulic pressure topping-up pump water outlet (24) by electrically-controlled valve (22), hydraulic pressure hydraulic pressure topping-up pump water outlet (24) is connected with the inlet of automatically controlled T-valve (26), first water outlet (28) of automatically controlled T-valve is connected with the water-in of described electric water pump (31), second water outlet (27) of automatically controlled T-valve is connected with the water outlet of total water outlet (38) and described electric water pump (31), described total water outlet (38) connects reverse osmosis seawater desalting facility (30), it is characterized in that: the hydraulic booster system that also comprises wind drive;

The hydraulic booster system of described wind drive comprises fuel tank (23), low pressure fuel pump (35), transition pipeline (13,14) and the hydraulic booster unit of wind drive, the hydraulic booster unit of described wind drive comprises cabin (8), be installed on cabin (8) forward wind turbine impeller (1) and be installed on the impeller spindle of engine room inside, accelerating gearbox (3), shaft coupling (5) and hydro-pump (7), described impeller spindle is fixedlyed connected with the input shaft of described accelerating gearbox (3), the output shaft of described accelerating gearbox (3) is connected with the main shaft of described hydro-pump (7) by shaft coupling (5), the surface of described shaft coupling (5) is provided with electric control hydraulic braking device (4), the main shaft of described hydro-pump (7) is provided with tachogenerator (6), the output high-pressure oil of described hydro-pump (7) drives described hydraulic pressure hydraulic pressure topping-up pump (20) by described transition pipeline (14), the input terminus of described low pressure fuel pump (35) communicates with described fuel tank (23), and the output terminal of described low pressure fuel pump (35) is connected with the oil inlet end of described hydro-pump (7) by described transition pipeline (13).

2. the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary according to claim 1 is characterized in that: also comprise compensator or trimmer pressure container (17), surplus valve (16), flowrate control valve (19,37) and check valve (9,36) on the oil circuit between the hydraulic booster unit that is connected in described wind drive and the described hydraulic pressure hydraulic pressure topping-up pump (20).

3. the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary according to claim 1 and 2, it is characterized in that: also comprise the pylon (12) that supports described cabin (8), described pylon (12) is tubular column structure or truss-frame structure, pylon (12) upper end is connected with cabin (8) by engine room foundation (11), and pylon (12) lower end is fixed on the tower mount.

4. the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary according to claim 1 and 2, it is characterized in that: also comprise electric control gear, specifically comprise PLC controller, frequency transformer, electric control hydraulic braking device (4), tachogenerator (6) and discharge pressure transmitter (25,29);

The PLC controller is according to the transducing signal of tachogenerator (6) and discharge pressure transmitter (25,29), the action of control electrically-controlled valve (22) and automatically controlled T-valve (26) and starting and stopping and speed governing by Frequency Converter Control electric water pump (31), finish wind energy driving, electric energy driving or two kinds of power complementary drive patterns with this, according to the action of wind-force size control electric control hydraulic braking device (4) and the working order of hydro-pump (7).

5. the hydraulic drive sea water desalinating plant of a kind of wind-electricity complementary according to claim 1 and 2 is characterized in that: also comprise reverse osmosis seawater desalting facility (30).