CN202001202U - Non-grid-connected wind-driven generating set used for hydrogen manufacturing - Google Patents

Abstract

The utility model relates to a non-grid-connected wind-driven generating set used for hydrogen manufacturing, which is characterized by comprising more than one non-grid-connected wind-driven generator and more than one AC/DC rectifier, wherein the output end of every non-grid-connected wind-driven generator is connected with the input end of each AC/DC rectifier; and the output ends of all the AC/DC rectifiers which are connected in parallel are connected with hydrogen manufacturing equipment. As more than one non-grid-connected wind-driven generator and more than one AC/DC rectifier are adopted, every non-grid-connected wind-driven generator is connected with one AC/DC rectifier, the output end of every non-grid-connected wind-driven generator is connected with the input end of each AC/DC rectifier, and the output ends of all the AC/DC rectifiers which are connected in parallel are connected with the hydrogen manufacturing equipment, the wind resource is sufficiently utilized, and the function of manufacturing hydrogen through clean energy is achieved. The non-grid-connected wind-driven generating set can be widely applied to the field of wind power generation research.

Description

A kind of non-parallel net type wind power generating set that is used for hydrogen manufacturing

Technical field

The utility model relates to a kind of wind power generating set, particularly about a kind of non-parallel net type wind power generating set that is used for hydrogen manufacturing.

Background technique

Because the wind technology development is ripe, portion is bigger in renewable energy sources, and greatly developing wind-power electricity generation is one of important development trend of China's energy system.But wind-powered electricity generation has randomness, and wayward and scheduling inserts the instability that electrical network will inevitably cause electrical network on a large scale, and electrical network must have corresponding standby power supply, thereby causes gross investment to increase.On the other hand, because the height unstability of wind causes wind-powered electricity generation to fluctuate widely, under the situation that does not have water power or fuel gas generation peak regulation, wind-powered electricity generation is difficult to surpass 10% to the contribution rate of electrical network, and therefore " difficulty is incorporated into the power networks " and " cost is higher " have become the bottleneck of wind-powered electricity generation development.

Non-grid connected wind power or be called from net type wind-power generating system, have investment little, use flexible characteristic, non-grid connected wind power is applied to hydrogen producer, carry out large-scale production hydrogen and oxygen, as part of raw materials in the coal preparing natural gas production technology.Wind-powered electricity generation is not subjected to the harsh requirement of electrical network frequency stabilization, voltage stabilizing, steady phase place in this route, in the time of with the effective utilization of wind energy, realizes energy-saving and cost-reducing, the environmental protection of production technology, and development local economy, the local sustainable development of promotion are had far reaching significance.Simultaneously, carry out extensive energy storage, will make the cheap unsettled energy become stable product with higher-value with the form of hydrogen.Simultaneously, network load has peak and low ebb characteristic, and the load of electric power system has the peak that paddy is arranged, and it is necessary to regulate electric load with the electric energy stocking system.Especially in wind power plant, because wind sometimes rises, sometimes stop, so efficient, safety, energy storage method and device that feasibility is high seem particularly important for wind power plant.

Summary of the invention

At the problems referred to above, the purpose of this utility model provides a kind of non-parallel net type wind power generating set that is used for hydrogen manufacturing that can realize utilizing clean energy resource hydrogen manufacturing, the extensive energy storage of realization.

For achieving the above object, the utility model is taked following technological scheme: a kind of non-parallel net type wind power generating set that is used for hydrogen manufacturing, it is characterized in that: it comprises more than one non-parallel net type wind-driven generator and more than one ac/dc rectifier, the output terminal of each described non-parallel net type wind-driven generator connects the input end of a described ac/dc rectifier, after the output terminal parallel connection of each described ac/dc rectifier, connect hydrogen producer.

Output terminal after each described ac/dc rectifier parallel connection connects a booster converter and a buck converter successively, converts direct current to described hydrogen producer required voltage.

The described non-parallel net type wind power generating set that is used for hydrogen manufacturing adopts " abandoning wind " structure that constitutes with grid connected wind power, output terminal after each described ac/dc rectifier parallel connection, a grid branch in parallel again connects described booster converter, buck converter and hydrogen producer more successively after the parallel connection.

Described grid branch comprises electrical network, switch and ac/dc rectifier, and the output terminal of described electrical network connects described switch and ac/dc rectifier successively.

The utility model is owing to take above technological scheme, it has the following advantages: 1, the utility model is owing to adopt more than one non-parallel net type wind-driven generator and more than one ac/dc rectifier, each non-parallel net type wind-driven generator connects an ac/dc rectifier, connects hydrogen producer after each ac/dc rectifier output end parallel connection.Make full use of wind resource like this, realized utilizing the function of clean energy resource hydrogen manufacturing.2, the utility model is owing to adopt after each ac/dc rectifier output end parallel connection, connect boost converter and step-down controller more successively, therefore, realized remote power-feeding hydrogen producer, simultaneously, satisfied the operating voltage requirement of different model hydrogen producer.3, therefore the utility model, has realized no matter abandoning the wind period or in " the non-wind of the abandoning " period, all can power for hydrogen producer owing to adopt " abandoning wind " structure that constitutes with grid connected wind power.The utility model can be widely used in the wind-power electricity generation research field.

Description of drawings

Fig. 1 is an overall structure schematic representation of the present utility model;

Fig. 2 is the structural representation of the utility model when being used to hydrogen producer remote power-feeding;

Fig. 3 is that the utility model adopts and grid connected wind power formation " abandoning wind " structural representation.

Embodiment

The utility model adopts the off-net type power generation system, and non-parallel net type blower fan is applied in the hydrogen producer, below in conjunction with drawings and Examples the utility model is described in detail.

As shown in Figure 1, the utility model comprises more than one non-parallel net type wind-driven generator 1 and more than one AC/DC rectifier (ac/dc rectifier) 2, the output terminal of each non-parallel net type wind-driven generator 1 connects the input end of an AC/DC rectifier 2, after the output terminal parallel connection of each AC/DC rectifier 2, be connected with hydrogen producer 3 of the prior art.Like this, the AC energy of each non-parallel net type wind-driven generator 1 output is embodied as hydrogen producer 3 power supplies after each AC/DC rectifier 2 is converted into direct current energy.

As shown in Figure 2, in the foregoing description, difference according to the 3 work power reguirements of different model hydrogen producer in the prior art, can also adopt the output terminal after each AC/DC rectifier 2 parallel connection, connect a booster converter 4, convert the direct current of each AC/DC rectifier 2 output to high voltage direct current, to realize remote power-feeding transmission to hydrogen producer 3.High voltage direct current converts thereof into hydrogen producer 3 needed voltages through a buck converter 5 again, is embodied as hydrogen producer 3 power supplies.

As described in Figure 3, in the various embodiments described above, the utility model can also adopt " abandoning wind " structure that constitutes with grid connected wind power, i.e. output terminal after each AC/DC rectifier 2 parallel connection, a grid branch 6 in parallel again, connect booster converter 4, buck converter 5 and hydrogen producer 3 after the parallel connection more successively, be embodied as hydrogen producer 3 power supplies.

Wherein, grid branch 6 comprises electrical network 7, and the output terminal of electrical network 7 connects switch 8 and AC/DC rectifier 9 successively.Abandoning the wind period, switch 8 closures adopt the grid type wind-powered electricity generation to give hydrogen producer 3 power supplies; In " the non-wind of the abandoning " period, switch 8 disconnects, and adopts non-grid type wind-powered electricity generation to give hydrogen producer 3 power supplies.

In the various embodiments described above; it only is preferred embodiment of the present utility model; be not that the utility model is done any pro forma qualification; every based on technical solutions of the utility model to any simple change, improvement and modification that above embodiment did, all should not get rid of outside protection domain of the present utility model.

Claims (4)

1. non-parallel net type wind power generating set that is used for hydrogen manufacturing, it is characterized in that: it comprises more than one non-parallel net type wind-driven generator and more than one ac/dc rectifier, the output terminal of each described non-parallel net type wind-driven generator connects the input end of a described ac/dc rectifier, after the output terminal parallel connection of each described ac/dc rectifier, connect hydrogen producer.

2. a kind of non-parallel net type wind power generating set that is used for hydrogen manufacturing as claimed in claim 1, it is characterized in that: the output terminal after each described ac/dc rectifier parallel connection, connect a booster converter and a buck converter successively, convert direct current to described hydrogen producer required voltage.

3. a kind of non-parallel net type wind power generating set that is used for hydrogen manufacturing as claimed in claim 1 or 2, it is characterized in that: the described non-parallel net type wind power generating set that is used for hydrogen manufacturing adopts " abandoning wind " structure that constitutes with grid connected wind power, output terminal after each described ac/dc rectifier parallel connection, a grid branch in parallel again connects described booster converter, buck converter and hydrogen producer more successively after the parallel connection.

4. a kind of non-parallel net type wind power generating set that is used for hydrogen manufacturing as claimed in claim 3, it is characterized in that: described grid branch comprises electrical network, switch and ac/dc rectifier, and the output terminal of described electrical network connects described switch and ac/dc rectifier successively.

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