CN205428351U - Little electric wire netting energy storage of intelligence and load simulation platform - Google Patents

Abstract

The utility model relates to a little electric wire netting energy storage of intelligence and load simulation platform, this little electric wire netting energy storage of intelligence and load simulation platform include wind power generation module, anemograph, photovoltaic power generation module, detection module, display module, control module, energy storage module and load module, and control module is connected to the input of wind power generation module, photovoltaic power generation module, and the output of wind power generation module, photovoltaic power generation module is connected to the energy storage module, the load module includes inductive load, the load of capacitive load varistor nature, and the input of inductive load, the load of capacitive load varistor nature links to each other with the energy storage module for simulate the behaviour in service of electric energy under the different load forms, inductive load, the load of capacitive load varistor nature with control module links to each other for the change of conditioning load value, adopt the modularized design, simple structure, be liable to change and maintenance.

Description

A kind of intelligent micro-grid energy storage and load simulation platform

Technical field

This utility model relates to instruments used for education field, especially a kind of intelligent micro-grid energy storage and load simulation platform.

Background technology

Along with Fossil fuel reduces, the continuous rise of price, and use causes problem of environmental pollution to be on the rise, solar energy, wind energy etc. are reproducible, free of contamination clean energy resource, more and more paid attention to by the mankind, for realizing the sustainable development of the energy and environment, countries in the world all using solar energy power generating, wind-power electricity generation as the emphasis of new forms of energy Yu Renewable Energy Development.

Intelligent micro-grid (MicroSmartGrid) is just by novel power grid highly integrated to renewable energy power generation technology (wind-power electricity generation, photovoltaic generation, biomass energy, tide energy etc.), energy management system (EMS) and power transmission and distribution infrastructure, and it has improves energy efficiency, the safety and reliability of raising power supply, the electric energy loss of minimizing electrical network, the minimizing impact on environment.Strengthening scientific research technology, deeply develops and builds the extensive access that micro-capacitance sensor is conducive to expanding distributed power source with regenerative resource, provide supply reliably for load area, it is achieved effective active power distribution network mode, promote that intelligent micro-grid is changed.Most countries electrical network specifies, photovoltaic distributed generating ratio, not can exceed that the 10% of electrical network, having exceeded and will add energy-storage system, if not using energy-storage system when photovoltaic system generates electricity by way of merging two or more grid systems, photovoltaic system can bring some bad impacts to electrical network, and, along with constantly expanding of photovoltaic generating system scale and being continuously increased of photo-voltaic power supply proportion in systems, these impacts become very important, it can thus be appreciated that energy storage is the indispensable link in intelligent micro-grid.

In order to meet the training and learning demand of new forms of energy professional technician, allow student analogue technique can be utilized to grasp the operation conditions of intelligent micro-grid in school during training and learning, a kind of simple in construction, it is prone to energy storage, loads adjustable intelligent micro-grid energy storage and load simulation platform, be indispensable modernizing teaching equipment in training and teaching.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of simple in construction, is prone to energy storage, loads adjustable intelligent micro-grid energy storage and load simulation platform.

In order to solve the problems referred to above, this utility model provides a kind of intelligent micro-grid energy storage and load simulation platform, including wind power generation module, for measuring the anemometer of wind speed, photovoltaic generating module, detection module, display module, control module, energy-storage module and load blocks, described control module is connected to the input of described wind power generation module, photovoltaic generating module, for the electric energy controlling wind power generation module, photovoltaic generating module produces.Described wind power generation module, the outfan of photovoltaic generating module are connected to energy-storage module through direct current conflux case, DC power distribution cabinet, wind power generation module, photovoltaic generating module the electric energy produced is stored in energy-storage module；Described load blocks includes that inductive load, capacitive load, variable resistive load, described inductive load, capacitive load, the input of variable resistive load are connected with energy-storage module respectively, for simulating the behaviour in service of electric energy under different loads form；Described inductive load, capacitive load, variable resistive load are connected with described control module respectively, for the change of regulating load value.

Described detection module is connected with wind power generation module, photovoltaic generating module and load blocks, for detecting the voltage of each module, current value；Described detection module is connected with described display module, will record voltage, current value is respectively displayed on display module.

Described anemometer is connected with control module and display module, and the air speed value recorded inputs to control module and display module, it is simple to control module adjusts the running speed of wind power generation module.

Further, described wind power generation module includes wind power generating set, for the aerator driving wind power generating set to rotate, described aerator rotates and produces wind power generating set generation electric energy described in air stream drives, is delivered to energy-storage module through direct current conflux case, DC power distribution cabinet；Described control module is connected with the motor of aerator, controls the rotating speed of aerator, adjusts the electric energy that wind power generating set produces.

Further, described photovoltaic generating module includes solar panel and illuminator, and described illuminator drives solar panel to produce electric energy, and is delivered to energy-storage module；Described control module is connected with the input of illuminator, the brightness of regulation illuminator, can control the electric energy that solar panel produces.

Further, described inductive load, capacitive load, variable resistive load are connected with detection module, for detecting inductive load, capacitive load, the real-time current of variable resistive load and voltage.

Described detection module includes voltage detecting circuit, current detection circuit, for detecting the electricity that wind power generating set, the electricity of solar panel output and load blocks consume.

Further, described inductive load is at least one in high-pressure mercury lamp, mercury lamp, metal halide lamp, and described variable resistive load is at least one in iodine-tungsten lamp, electric filament lamp, and described capacitive load is for compensating electric capacity, the simulation device selected is the most conventional, it is easy to understand；Each load change, system operation situation during the different power consumption of simulation is adjusted by control module.

The technique effect of utility model: (1) intelligent micro-grid of the present utility model energy storage and load simulation platform, relative to prior art, regulates the change of each load value by control module, can effectively simulate system operation situation during different power consumption；(2) wind power generating set is provided with anemometer, can measure wind-force size, it is simple to be adjusted aerator；(3) modularized design, simple in construction, it is easy to change and safeguard are used.

Accompanying drawing explanation

Below in conjunction with Figure of description, this utility model is described in further detail:

Fig. 1 is this utility model intelligent micro-grid energy storage and the electrical schematic diagram of load simulation platform；

Fig. 2 is structural representation of the present utility model.

In figure: platform body 1, aerator 2, air-out passage 3, anemometer 4, air outlet 5, wind power generating set 6, blade 7, illuminator 8, solar panel 9, rotating shaft 10, light source bracket 11, display module 12, control module 13.

Detailed description of the invention

nullEmbodiment 1 is as shown in Figure 1 to Figure 2，The intelligent micro-grid energy storage of the present embodiment and load simulation platform，Including platform body 1、Wind power generation module、For measuring the anemometer 4 of wind speed、Photovoltaic generating module、Detection module、Display module 12、Control module 13、Energy-storage module and load blocks，Wind power generation module includes that the aerator 2 being located in platform body 1 and 2 groups of other embodiments of vertical axis aerogenerator group 6(being vertically set on platform body 1 can be horizontal axis wind-driven generator groups)，Air-out passage 3 it is provided with outside the outlet air end of aerator 2，The diapire of air-out passage 3 and the curved setting of roof，Air outlet 5 it is provided with on the downside of the roof of air-out passage 3，Vertical axis aerogenerator group 6 is by support、Head and blade are constituted，Support is perpendicular to platform body 1，It is provided with in head as magneto，Blade 7 is fixedly connected in the rotary shaft of magneto by wheel hub and connecting rod，When wind moving vane rotates，Wheel hub and rotary shaft is driven to rotate，Thus drive permanent magnet generator to generate electricity.The roof of blade 7 not higher than air-out passage 3, platform body 1 is additionally provided with display device 12 and control module 13, and the frequency conversion motor of aerator 2 is connected with control module 13, is used for controlling aerator 2 rotating speed.Photovoltaic generating module includes solar panel 9 and illuminator 8, the middle part of solar panel 9 is rotatably assorted on platform body 1 by rotating shaft 10, the top of solar panel 9 is located at by illuminator 8, it is connected by light source bracket 11 between this illuminator 8 with platform body 1, irradiate solar panel by illuminator, synchronize to realize simulation photovoltaic generation.

The electric energy that wind power generating set 6, solar panel 9 produce arrives energy-storage module through direct current conflux case, DC power distribution cabinet (being not drawn in figure) storage, load blocks includes high-pressure mercury lamp, electric filament lamp and compensation electric capacity, high-pressure mercury lamp, electric filament lamp are connected with energy-storage module with the input of compensation electric capacity, for simulating the electric energy behaviour in service of different loads situation.Control module is connected with high-pressure mercury lamp, electric filament lamp and compensation electric capacity respectively, the system operation situation for the change of regulating load value, during the different power consumption of simulation.

Air outlet 5 is provided with flase floor (other embodiments can be mesh plate or shutter board), is provided with anemometer 4 between air outlet 5 and vertical axis aerogenerator group 6, and anemometer 4 is connected with control device 13 and display device 12, and the wind speed recorded shows on the display apparatus.

Detection module includes voltage test module, testing current module, vertical axis aerogenerator group 6, solar panel 9 are connected with voltage test module, testing current module respectively, for measuring wind power generating set 6 and the voltage and current value of solar panel 9 generation, voltage test module, the outfan of testing current module are connected with display device 12, and the voltage and current value recorded shows on the display apparatus.

Obviously, above-described embodiment is only for clearly demonstrating this utility model example, and is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here without also cannot all of embodiment be given exhaustive.And these belong to obvious change or variation that spirit of the present utility model extended out still in protection domain of the present utility model among.

Claims (9)

1. an intelligent micro-grid energy storage and load simulation platform, it is characterized in that, including: wind power generation module, photovoltaic generating module, detection module, display module, control module, energy-storage module and load blocks, described control module is connected to the input of described wind power generation module, photovoltaic generating module, and described wind power generation module, the outfan of photovoltaic generating module are connected to energy-storage module through direct current conflux case, DC power distribution cabinet；

Described load blocks includes that inductive load, capacitive load, variable resistive load, described inductive load, capacitive load, the input of variable resistive load are connected with energy-storage module respectively；

Described inductive load, capacitive load, variable resistive load are connected with described control module respectively.

Intelligent micro-grid energy storage the most according to claim 1 and load simulation platform, it is characterised in that described detection module is connected with wind power generation module, photovoltaic generating module and load blocks, for detecting the voltage of each module, current value.

Intelligent micro-grid energy storage the most according to claim 1 and load simulation platform, it is characterised in that also include the anemometer (4) for measuring wind speed, described anemometer (4) is connected with control module and display module.

Intelligent micro-grid energy storage the most according to claim 1 and load simulation platform, it is characterized in that, described wind power generation module includes wind power generating set (6), for the aerator (2) that drives wind power generating set to rotate, described aerator (2) rotates and produces wind power generating set (6) generation electric energy described in air stream drives.

Intelligent micro-grid energy storage the most according to claim 4 and load simulation platform, it is characterised in that described control module (13) is connected with the motor of aerator (2).

Intelligent micro-grid energy storage the most according to claim 1 and load simulation platform, it is characterized in that, described photovoltaic generating module includes solar panel (9) and illuminator (8), and described illuminator (8) drives solar panel (9) to produce electric energy.

Intelligent micro-grid energy storage the most according to claim 6 and load simulation platform, it is characterised in that described control module (13) is connected with the input of illuminator (8).

Intelligent micro-grid energy storage the most according to claim 1 and load simulation platform, it is characterised in that described inductive load, capacitive load, variable resistive load are connected with detection module.

9. according to the intelligent micro-grid energy storage described in claim 1 or 8 and load simulation platform, it is characterized in that, described inductive load is at least one in high-pressure mercury lamp, mercury lamp, metal halide lamp, described variable resistive load is at least one in iodine-tungsten lamp, electric filament lamp, and described capacitive load is for compensating electric capacity.