CN106444562B - Coordinate system and method based on the more energy storage devices of scene-electric heating gas shift module - Google Patents

Abstract

Coordinate system and method based on the more energy storage devices of scene-electric heating gas shift module, belongs to energy technology field；The system mainly includes that scene-electric heating gas shift module, control module, Absorption Refrigerator, absorption heat pump, compression refrigerating machine, compression heat pump, heat-storing device, accumulator are set and pipe electromagnetic valve group；This method includes that computing system exports input power ratio in real time；It obtains and stores up cold, the current reserves of heat-storing device and hydrogen-storing device prediction generated energy；According to real-time input/output relation parameter ratio, the storage situation of heat accumulation, Chu Leng, hydrogen-storing device carries out system call interception by control relay group and scene-electric heating gas shift module；Energy storage state control pipe electromagnetic valve, compression refrigerating machine and compression type heat pump work are set according to heat-storing device and accumulator；The present invention can provide various working method according to different demands；It can guarantee that energy rationally utilizes, system is made to keep higher efficiency and flexibility.

Description

Coordinate system and method based on the more energy storage devices of scene-electric heating gas shift module

Technical field

The invention belongs to energy technology fields, and in particular to be assisted based on the more energy storage devices of scene-electric heating gas shift module Adjusting system and method.

Background technique

The energy plays important role during the social and economic development of the mankind always.Currently, petroleum, coal and The non-renewable fossil energy such as natural gas is still the main energy sources that human society is depended on for existence.Due to global economy and population Quantity is in constantly rapid growth, and demand of the world to the energy is also growing.But due to these fossil energies can not Reproducibility, with the exhaustive exploitation of the mankind, non-renewable fossil energy will face exhaustion.This makes problem of energy crisis day Benefit is prominent.At the same time, serious negative effect also largely is produced to earth environment using fossil fuel.For example, big quantization The substance that stone fuel generates after use can cause serious environmental pollution, lead to global warming, destroy the Nature ecology Balance etc..In order to cope with energy crisis and mitigate influence of the fossil energy to environment, people constantly explore the use of new energy Method, such as energy notch is made up using wind energy, solar energy, tide energy or geothermal energy green energy resource, improve environment.

Traditional economy and social development mode characterized by fossil energy centralization utilizes gradually are being changed, and It is being risen using new energy technology and Internet technology as the third time industrial revolution of representative.Energy internet is with electric system For core, based on internet and other Latest Information technologies, renewable energy is main non-renewable energy in a distributed manner, with day The other systems close-coupleds such as right gas network, transportation network and the more network flow systems of complexity formed.As the third time industrial revolution Core technology, energy internet try hard to push distribution type renewable energy it is extensive using and share, it is final to realize change Using energy source mode pushes the purpose of economy and society sustainable development.The final goal that energy industry is changed is to establish more Efficiently, safety and sustainable using energy source mode, to solve the great difficult problem that using energy source this human society faces.

As the base unit under the big system in energy internet, micro-grid system is received significant attention, it is by distributed energy The part such as (such as wind-power electricity generation, photovoltaic power generation, energy storage device) and load forms, and has grid-connected, two kinds of operational modes of isolated island, A kind of New Scheme for efficiently managing and utilizing as distributed power generation.Utilize energy compatibility optimization and administrative skill, microgrid energy Effective technological means enough is provided for the scale access of renewable energy, efficiently utilizing and be for comprehensive energy may be implemented The safe and stable operation of system.With and system safe and stable operation.

In microgrid operational process, control is the key problem and key technology that microgrid is capable of normal table operation, correctly Control strategy can make microgrid operate in optimum state, can reliablely and stablely supply load and reduce loss and save the energy Consumption.When the method for operation of microgrid changes, i.e., the structure of load or system in system changes, in order to guarantee Microgrid is able to maintain to the stable power-supplying in specific electric load, at this time must in microgrid micro- source and switch controlled and adjusted, Just it is able to satisfy the electricity needs of load.When power grid breaks down or power quality cannot reach requirement, it is also desirable to have corresponding Networking operation or isolated operation of the control strategy to realize microgrid between switching.

The distributed triple-generation system and clean reproducible energy energy supply technology being distributed near user side gradually at For the research hotspot in global energy field, even more micro-grid system another core technology for being capable of stable operation.Wind-force, solar energy etc. By effect of natural conditions, output power has the characteristics that intermittent, randomness, and this kind of renewable energy scale is grid-connected to electricity The stable operation of net brings huge challenge.In many cases, the demand of load side and distributed clean reproducible energy Energy supply is difficult to match, and brings extensive abandonment, abandons the phenomenon that energy wastes such as electricity.

Summary of the invention

In view of the deficiency of the prior art, the present invention is provided based on the more energy storage of scene-electric heating gas shift module Device coordinates system and method.

Technical solution of the present invention:

Coordinate system based on the more energy storage devices of scene-electric heating gas shift module characterized by comprising

It is scene-electric heating gas shift module, control module, biomass gasification device, gas turbine, waste heat boiler, absorption Refrigeration machine, absorption heat pump, compression refrigerating machine, compression heat pump, heat-storing device, accumulator are set, generating set, exchange mother Line, cutting-in control switch, AC converter, other hydrogen utilization devices and pipe electromagnetic valve group；

The pipe electromagnetic valve group includes the 1st pipe electromagnetic valve, the 2nd pipe electromagnetic valve and the 3rd pipe electromagnetic valve；

The scene-electric heating gas shift module, comprising: wind-driven generator, photovoltaic battery array, photoelectrocatalysis hydrogen manufacturing dress It sets, vacuum collector, rectifier, inverter, DC bus, PEM fuel cell, gas tank, two-way stream controller, hydrogen storage dress It sets, luminous energy transform mode selective relay and hydrogen storage output solenoid valve；

The control module includes: arm processor, honourable condition detector, electrical power monitoring device, cold heat power detection Device, input power detector, relay group, keyboard input module and display screen；

The output end of the wind power generating set connects the 1st input terminal of DC bus, luminous energy transform mode by rectifier The 1st output end of selective relay connects photovoltaic battery array input terminal, and it is defeated that photovoltaic battery array output end connects DC bus the 2nd Enter end, DC bus output end connects the 1st input terminal of ac bus, luminous energy transform mode selective relay the 2nd by inverter Output end connects photoelectrocatalysis device for producing hydrogen input terminal, and photoelectrocatalysis device for producing hydrogen connects gas tank, and gas tank connects bidirectional flow Controller input terminal, bidirectional flow controller output end are separately connected hydrogen-storing device input terminal and hydrogen output channel, hydrogen output Pipeline connects other hydrogen utilization devices；Hydrogen-storing device output end connects hydrogen storage output solenoid valve, the connection of hydrogen storage output solenoid valve Fuel cell, fuel cell are separately connected the 3rd input terminal of biomass gasification device input port and DC bus.

The biomass gasification device gas outlet connects the 1st fuel air mouth of gas turbine, the 1st pipe electromagnetic valve air gate Connect the 2nd fuel air mouth of gas turbine, gas turbine gas outlet connect waste heat boiler air inlet, gas turbine by mandrel with Generating set is connected, and generating set connects AC converter input terminal, and AC converter output end connects ac bus input terminal； The steam (vapor) outlet of waste heat boiler connects the steam inlet of heat-storing device, Absorption Refrigerator steam inlet and absorption heat pump, storage Thermal outlet connects thermic load by the 2nd pipe electromagnetic valve, and Absorption Refrigerator output end connects accumulator posting port, Chu Leng Device outlet connects refrigeration duty by the 3rd pipe electromagnetic valve, and ac bus switchs connection electricity network, exchange by cutting-in control Bus output end connects electric load；Ac bus output end is separately connected compression heat pump, compression refrigerating machine, absorption refrigeration Machine and absorption heat pump, compression refrigerating machine and Absorption Refrigerator output end are all connected with refrigeration duty, compression heat pump and absorption Formula heat pump output end is all connected with thermic load；

The scene condition detector connects the 1st input terminal of arm processor, and hydrogen-storing device connects arm processor the 2nd and inputs End, heat-storing device connect the 3rd input terminal of arm processor, and accumulator sets connection the 4th input terminal of arm processor, electrical power monitoring device Input terminal connects electric load, and electrical power monitoring device output end connects the 5th input terminal of arm processor, the input of cold heat power detector End is separately connected refrigeration duty and thermic load, and cold heat power detector output end connects the 6th input terminal of arm processor, input power Detector input terminal connects biomass gasification device, and input power detector output end connects the 7th input terminal of arm processor, key Disk input module connects the 8th input terminal of arm processor, and relay group one end connects the 1st output end of arm processor, relay The group other end is separately connected cutting-in control switch, compression refrigerating machine, compression heat pump and pipe electromagnetic valve group, luminous energy conversion side Formula selective relay and hydrogen storage output solenoid valve are separately connected the 2nd output end and the 3rd output end of arm processor；Display screen connects Connect the 4th output end of arm processor.

Using based on the more energy storage devices of scene-electric heating gas shift module coordinate system based on scene-electric heating gas shift More energy storage device coordination approach of module, include the following steps:

Step 1: aweather optical-electronic hot gas conversion module input wind energy and solar energy are inputted to biomass gasification device and are fixed The biomass energy of power inputs fossil fuel to the 1st electromagnetic valve entrance, and arm processor starts timer T0；

Step 2: input power detector real-time detection biomass energy input powerAnd it is sent to ARM processing Device storage；

Step 3: honourable condition detector acquires locality wind speed ω and locality light intensity ξ respectively and is sent to arm processor；

Step 4:ARM processor calculates wind turbine power generation power according to local wind speed ω and locality light intensity ξWith photovoltaic battery array generated output

Step 5: electrical power monitoring device real-time detection electric load power consumptionCold heat power detector real-time detection Thermic load powerWith refrigeration duty power

Step 6:ARM processor calculates powerMesh power P_need, and calculate defeated in real time Input power ratio γ out_real-time:

Step 6-1: the mesh power P of outlet side output power is calculated_need:

Wherein, λ_e、λ_h、λ_cRespectively electricity, heat, the corresponding equivalence factor of cold output, u_e、u_h、u_cIt is respectively electric, hot, cold defeated The value of corresponding differential sampling parameter out, equivalence factor and differential sampling parameter by energy conversion device each in micro-grid system operating mode and Efficiency determines；

Step 6-2: input side input power is calculated

Step 6-3: output input power ratio γ in real time is calculated_real-time:

Step 7:ARM processor obtains accumulator respectively and sets current reservesThe current reserves of heat-storing deviceThe n group temperature and pressure of hydrogen-storing device；

Step 8:ARM processor calculates hydrogen-storing device and predicts generated energy

Step 8-1:ARM processor utilizes the n group temperature and pressure data of hydrogen-storing device, calculates temperature arrayWith pressure array

The operating temperature of step 8-2:ARM processor calculating hydrogen-storing deviceAnd operating pressure

Step 8-3: density of hydrogen in hydrogen-storing device is calculatedIn present embodiment, specific equation of gas state model Are as follows:

In formula, a, b, c are the parameter of equation of gas state model,For the concentration of hydrogen in hydrogen-storing device.

Step 8-4: and calculate current hydrogen-storing device and generated energy is predicted by fuel cell

Wherein, η_{fuel cell}For fuel cells convert efficiency,For the preset capacity of hydrogen-storing device；Exist for hydrogen Corresponding low enthalpy value under hydrogen-storing device, due in hydrogen-storing device hydrogen there are phase transition process,According to the side Hoff Van ' t Journey obtains:

Wherein,Hydrogen balance decomposition pressure, according to the data obtainedIn balancing each other for hydrogen bearing alloy and hydrogen It can be looked into figure；ΔS^oValue is mainly the loss of gaseous hydrogen entropy.

Step 9:ARM processor sends display screen for system running state index and shows；

Step 10:ARM processor is according to real-time output input power ratio γ_real-time, heat-storing device, accumulator set and store up The storage situation of hydrogen production device is carried out by control relay group, luminous energy transform mode selective relay and hydrogen storage output solenoid valve System call interception:

Step 10-1:ARM processor is according to real-time output input power ratio γ_real-timePlace section, it is grid-connected by controlling Control switch and pipe electromagnetic valve realize the input and utilization of control wind energy, solar energy, fossil fuel and electricity network；

Step 10-2: judge that hydrogen-storing device predicts generated energyWhether it is lower than hydrogen-storing device generated energy lower limit, is, Execute step 10-3；Otherwise, step 10-4 is executed；

Step 10-3:ARM processor increases pipe electromagnetic valve opening, increases the fossil fuel inputted in gas turbine, together When, arm processor controls luminous energy transform mode selective relay and is converted into photoelectrocatalysis hydrogen manufacturing dress by photovoltaic battery array work Work is set, hydrogen is provided for hydrogen-storing device, executes step 10-5；

Step 10-4:ARM processor controls the selection photovoltaic battery array work of luminous energy transform mode selective relay, executes Step 10-7；

Step 10-5: judge that hydrogen-storing device predicts generated energyWhether it is higher than the hydrogen-storing device generated energy upper limit, is, Execute step 10-6；Otherwise, step 10-7 is executed；

Step 10-6:ARM processor reduces pipe electromagnetic valve opening；

Step 10-7:ARM processor judges that accumulator sets current reserves respectivelyOr the current reserves of heat-storing deviceWhether set or heat-storing device energy storage lower limit value lower than accumulator, be, executes step 10-8；Otherwise, step 11 is executed；

Step 10-8:ARM processor opens hydrogen storage output solenoid valve, discharges hydrogen, combustion to fuel cell with certain flow rate Expect battery functions, is that electric load and biomass gasification device energize；

Step 10-9:ARM processor starts timer T1 and records fuel cell operating time；Timer timing starting point is t₀, when timer reaches t₀It is 10 timing node t by 60S points when+60S₁To t₁₀, and to calculate hydrogen-storing device critical reference Wear rate Γ:

And judge Γ and wear rate threshold value Γ_bRelationship: if (1) Γ≤Γ_b, timer T1 resets to t₀；

(2) if Γ > Γ_b, timer T1 clearing, execution step 10-10.

Step 10-10: closure cutting-in control switch closes hydrogen output solenoid valve, fuel cell.

Step 11: and the time status of real-time judge timer T0, if the clocking value of timer T0 is not up to timer Timing cycle T_check, execute step 13；Otherwise, sentence and execute step 12.

Step 12: judge that heat-storing device and accumulator set energy storage state:

IfArm processor controls the 2nd solenoid valve and closes, and compression refrigerating machine is opened It closes and closes, increase cooling supply for refrigeration duty；IfArm processor controls the 3rd solenoid valve and closes It closes, control compression heat pump closes the switch, and increases heat supply for thermic load；Wherein,For heat-storing device energy storage upper limit value, Energy storage upper limit value is set for accumulator；IfExecute step 13。

Step 13: having detected whether keyboard input instruction, had, preferential to execute keyboard input instruction, nothing executes step 14.

Step 14: executing step 3 repeatedly and arrive step 13.

The utility model has the advantages that it is a kind of based on the more energy storage devices of scene-electric heating gas shift module coordinate system and method with it is existing Technology is compared, and is had the advantage that

(1) applied widely, flexile cold and heat supply mode can be provided according to different hot-cool demands；

(2) supplying heat source has absorption heat pump, compression heat pump, heat-storing device, solar vacuum heat-collecting pipe, PEM fuel electricity Five kinds of pond has Absorption Refrigerator, compression refrigerating machine, accumulator to set etc. three kinds for cold source, and cold and hot amount outlet side has greatly Section is adjusted, the hot-cool demand situation of various complexity is adapted to；

(3) it can guarantee that energy is utilized by the principle of " cascade utilization, temperature counterpart ", and the cold of cold and hot electric system can be made Amount, heat and power energy allocation more rationally, so that system is kept higher efficiency and flexibility.

Detailed description of the invention

Fig. 1 is one embodiment of the present invention based on scene-electric heating gas shift module more energy storage devices coordination system Structural schematic diagram；

Fig. 2 is the scene-electric heating gas shift modular structure schematic diagram of one embodiment of the present invention；

Fig. 3 is the control module structure and connection relationship diagram of one embodiment of the present invention；

Fig. 4 is one embodiment of the present invention based on the more energy storage device coordination approach of scene-electric heating gas shift module Flow chart

Fig. 5 is that the arm processor of one embodiment of the present invention is filled according to real-time input/output relation parameter ratio, heat accumulation It sets, accumulator sets the method flow diagram that system call interception is carried out with the storage situation of hydrogen-storing device.

Specific embodiment

It elaborates with reference to the accompanying drawing to one embodiment of the present invention.

It is as described in Figure 1, a kind of to coordinate system based on the more energy storage devices of scene-electric heating gas shift module, comprising:

It is scene-electric heating gas shift module, control module, biomass gasification device, gas turbine, waste heat boiler, absorption Refrigeration machine, absorption heat pump, compression refrigerating machine, compression heat pump, heat-storing device, accumulator are set, generating set, exchange mother Line, cutting-in control switch, AC converter, other hydrogen utilization devices and pipe electromagnetic valve group；

The pipe electromagnetic valve group includes the 1st pipe electromagnetic valve, the 2nd pipe electromagnetic valve and the 3rd pipe electromagnetic valve；

As described in Figure 2, the scene-electric heating gas shift module, comprising: wind-driven generator, photovoltaic battery array, photoelectricity are urged Change device for producing hydrogen, vacuum collector, rectifier, inverter, DC bus, PEM fuel cell, gas tank, two-way stream controller, Hydrogen-storing device, luminous energy transform mode selective relay and hydrogen storage output solenoid valve；

As shown in figure 3, the control module include: arm processor, honourable condition detector, electrical power monitoring device, it is cold/ Thermal power detector, input power detector, relay group, keyboard input module and display screen；

The model of core component is as follows in system: gas turbine model is the C200 type combustion gas of Capstone company 200kW Unit is taken turns, compression refrigerating machine uses long-range company BS150 BrLi chiller, and compression heat pump uses long-range company's bromination Lithium Hot water units, hydrogen-storing device are TAE/EVO-121 model hydrogen high pressure storage tank, and heat-storing device is the steam accumulation of heat of CHCR6 model Device,

Accumulator is set to coiled pipe type ice storing device, and the model of arm processor is AT91RM9200.

The output end of the wind power generating set connects the 1st input terminal of DC bus, luminous energy transform mode by rectifier The 1st output end of selective relay connects photovoltaic battery array input terminal, and it is defeated that photovoltaic battery array output end connects DC bus the 2nd Enter end, DC bus output end connects the 1st input terminal of ac bus, luminous energy transform mode selective relay the 2nd by inverter Output end connects photoelectrocatalysis device for producing hydrogen input terminal, and photoelectrocatalysis device for producing hydrogen connects gas tank, and gas tank connects bidirectional flow Controller input terminal, bidirectional flow controller output end are separately connected hydrogen-storing device input terminal and hydrogen output channel, hydrogen output Pipeline connects other hydrogen utilization devices；Hydrogen-storing device output end connects hydrogen storage output solenoid valve, the connection of hydrogen storage output solenoid valve Fuel cell, fuel cell are separately connected the 3rd input terminal of biomass gasification device input port and DC bus.

The biomass gasification device gas outlet connects the 1st fuel air mouth of gas turbine, the 1st pipe electromagnetic valve air gate Connect the 2nd fuel air mouth of gas turbine, gas turbine gas outlet connect waste heat boiler air inlet, gas turbine by mandrel with Generating set is connected, and generating set connects AC converter input terminal, and AC converter output end connects ac bus input terminal； The steam (vapor) outlet of waste heat boiler connects the steam inlet of heat-storing device, Absorption Refrigerator steam inlet and absorption heat pump, storage Thermal outlet connects thermic load by the 2nd pipe electromagnetic valve, and Absorption Refrigerator output end connects accumulator posting port, Chu Leng Device outlet connects refrigeration duty by the 3rd pipe electromagnetic valve, and ac bus switchs connection electricity network, exchange by cutting-in control Bus output end connects electric load；Ac bus output end is separately connected compression heat pump, compression refrigerating machine, absorption refrigeration Machine and absorption heat pump, compression refrigerating machine and Absorption Refrigerator output end are all connected with refrigeration duty, compression heat pump and absorption Formula heat pump output end is all connected with thermic load；

The scene condition detector connects the 1st input terminal of arm processor, and hydrogen-storing device connects arm processor the 2nd and inputs End, heat-storing device connect the 3rd input terminal of arm processor, and accumulator sets connection the 4th input terminal of arm processor, electrical power monitoring device Input terminal connects electric load, and electrical power monitoring device output end connects the 5th input terminal of arm processor, the input of cold heat power detector End is separately connected refrigeration duty and thermic load, and cold heat power detector output end connects the 6th input terminal of arm processor, input power Detector input terminal connects biomass gasification device, and input power detector output end connects the 7th input terminal of arm processor, key Disk input module connects the 8th input terminal of arm processor, and relay group one end connects the 1st output end of arm processor, relay The group other end is separately connected cutting-in control switch, compression refrigerating machine, compression heat pump and pipe electromagnetic valve group, luminous energy conversion side Formula selective relay and hydrogen storage output solenoid valve are separately connected the 2nd output end and the 3rd output end of arm processor；Display screen connects Connect the 4th output end of arm processor.

As shown in figure 4, using based on the more energy storage devices of scene-electric heating gas shift module coordinate system based on scene- More energy storage device coordination approach of electric heating gas shift module, include the following steps:

Step 1: aweather optical-electronic hot gas conversion module input wind energy and solar energy are inputted to biomass gasification device and are fixed The biomass energy of power inputs fossil fuel to the 1st electromagnetic valve entrance, and arm processor starts timer T0；

Step 2: input power detector real-time detection biomass energy input powerAnd it is sent to ARM processing Device storage；

Step 3: honourable condition detector acquires locality wind speed ω and locality light intensity ξ respectively and is sent to arm processor；

Step 4:ARM processor calculates wind turbine power generation power according to local wind speed ω and locality light intensity ξWith photovoltaic battery array generated output

Step 5: electrical power monitoring device real-time detection electric load power consumptionCold heat power detector real-time detection Thermic load powerWith refrigeration duty power

Step 6:ARM processor calculates powerMesh power P_need, and calculate defeated in real time Input power ratio γ out_real-time:

Step 6-1: the mesh power P of outlet side output power is calculated_need:

Wherein, λ_e、λ_h、λ_cRespectively electricity, heat, the corresponding equivalence factor of cold output, u_e、u_h、u_cIt is respectively electric, hot, cold defeated The value of corresponding differential sampling parameter out, equivalence factor and differential sampling parameter by energy conversion device each in micro-grid system operating mode and Efficiency determines；

Step 6-2: input side input power is calculated

Step 6-3: output input power ratio γ in real time is calculated_real-time:

In present embodiment, t ' moment, the mesh power and input side input power of outlet side output power is respectively as follows:

Output input power ratio in real time

Step 7:ARM processor obtains accumulator respectively and sets current reservesThe current reserves of heat-storing deviceThe n group temperature and pressure of hydrogen-storing device；

In present embodiment, t ' moment, accumulator sets current reservesHeat-storing device Current reserves

Step 8:ARM processor calculates hydrogen-storing device and predicts generated energy

Step 8-1:ARM processor utilizes the n group temperature and pressure data of hydrogen-storing device, calculates temperature arrayWith pressure array

The operating temperature of step 8-2:ARM processor calculating hydrogen-storing deviceAnd operating pressure

Step 8-3: density of hydrogen in hydrogen-storing device is calculatedIn present embodiment, specific equation of gas state model Are as follows:

In formula, a, b, c are the parameter of equation of gas state model, a=0.02452Pa.m⁶/mol², b= 0.0000265m³/ mol, c=8.9113 × 10^-14m³/ (Pamol),For the concentration of hydrogen in hydrogen-storing device.

Step 8-4: and calculate current hydrogen-storing device and generated energy is predicted by fuel cell

Wherein, η_{fuel cell}For fuel cells convert efficiency, η_{fuel cell}Value is 53%,For hydrogen storage dress The preset capacity set；For hydrogen under hydrogen-storing device corresponding low enthalpy value, since there are phase transformations for hydrogen in hydrogen-storing device Process,It is obtained according to Van ' t Hoff equation:

Wherein,Hydrogen balance decomposition pressure, according to the data obtainedIn balancing each other for hydrogen bearing alloy and hydrogen It can be looked into figure；ΔS^oValue is mainly the loss of gaseous hydrogen entropy, at room temperature, Δ S^oValue be approximately 130.5J/ (mol K)。

In present embodiment, the t ' moment, the prediction generated energy of hydrogen-storing device

Step 9:ARM processor sends display screen for system running state index and shows；

Step 10: as shown in figure 5, arm processor is according to real-time input/output relation parameter ratio γ_real-time, heat accumulation dress Set, accumulator sets storage situation with hydrogen-storing device, pass through control relay group, luminous energy transform mode selective relay and hydrogen storage Output solenoid valve carries out system call interception:

The judgement of step 10-1:ARM processor exports input power ratio γ in real time_real-timePlace section:

(1) if γ_real-time∈ (0,0.96), arm processor are respectively closed cutting-in control switch and close the 1st pipeline electricity Magnet valve, wind energy and solar energy are converted into electricity output, are that electric load and electricity network are powered；

(2) if γ_real-time∈ [0.96,1.07), arm processor closes the 1st pipe electromagnetic valve and disconnects cutting-in control and opens It closes, wind energy and solar energy is converted into electricity output, powers for electric load；

(3) if γ_real-time∈ [1.07,1.22), arm processor is closed cutting-in control switch, wind energy and solar energy conversion Alternating current is the power supply of city's electric load；

(4) if γ_real-time∈ [1.22, ∞), arm processor disconnects cutting-in control switch, and wind energy and solar energy is converted into Alternating current, meanwhile, increase the 1st pipe electromagnetic valve opening, increases the input of fossil fuel in gas turbine；

In present embodiment, the t ' moment, γ_real-time∈ [0.96,1.07), therefore, arm processor closes the 1st pipeline Shen Magnet valve, and disconnect cutting-in control switch.

Step 10-2: judge that hydrogen-storing device predicts generated energyWhether it is lower than hydrogen-storing device generated energy lower limit, is, Execute step 10-3；Otherwise, step 10-4 is executed；

In present embodiment, hydrogen-storing device generated energy lower limit isT ' moment, hydrogen storage Device predicts generated energyNot less than hydrogen-storing device generated energy lower limit, step 10-4 is then directly executed；

Step 10-3:ARM processor increases the 1st pipe electromagnetic valve opening, increases the fossil fuel inputted in gas turbine, Meanwhile arm processor control luminous energy transform mode selective relay is converted into photoelectrocatalysis hydrogen manufacturing by photovoltaic battery array work Device work provides hydrogen for hydrogen-storing device, executes step 10-5；

Step 10-4:ARM processor controls the selection photovoltaic battery array work of luminous energy transform mode selective relay, executes Step 10-7；

Step 10-5: judge that hydrogen-storing device predicts generated energyWhether it is higher than the hydrogen-storing device generated energy upper limit, is, Execute step 10-6；Otherwise, step 10-7 is executed；

In present embodiment, the hydrogen-storing device generated energy upper limit isAt the t ' moment, execute step Rapid 10-7.

Step 10-6:ARM processor reduces the 1st pipe electromagnetic valve opening；

Step 10-7:ARM processor judges that accumulator sets current reserves respectivelyOr the current reserves of heat-storing deviceWhether set or heat-storing device energy storage lower limit value lower than accumulator, be, executes step 10-8；Otherwise, step 11 is executed；

In present embodiment, accumulator sets energy storage lower limit valueHeat-storing device energy storage Lower limit valueT ' moment, the current reserves of heat-storing device are lower than heat-storing device energy storage lower limit Value executes step 10-9.

Step 10-8:ARM processor opens hydrogen storage output solenoid valve, discharges hydrogen, combustion to fuel cell with certain flow rate Expect battery functions, is that electric load and biomass gasification device energize；

Step 10-9:ARM processor starts timer T1 and records fuel cell operating time；Timer timing starting point is t₀, when timer reaches t₀It is 10 timing node t by 60S points when+60S₁To t₁₀, and to calculate hydrogen-storing device critical reference Wear rate Γ:

And judge Γ and wear rate threshold value Γ_bRelationship: if (1) Γ≤Γ_b, timer T1 resets to t₀；

(3) if Γ > Γ_b, timer T1 clearing, execution 10-10.

In present embodiment, wear rate threshold value Γ_b=50KW, t₀In+60S the period, Γ=32KW, Γ≤Γ_b, fixed When device T1 reset to t₀。

Step 10-10: closure cutting-in control switch closes hydrogen output solenoid valve, fuel cell.

Step 11: and the time status of real-time judge timer T0, if the clocking value of timer T0 is not up to timer Timing cycle T_check, execute step 13；Otherwise, sentence and execute step 12；Wherein, T_check=1h.

Step 12: judge that heat-storing device and accumulator set energy storage state:

IfArm processor controls the 2nd pipe electromagnetic valve and closes, and controls compression Refrigeration machine closes the switch, and increases cooling supply for refrigeration duty；IfArm processor control the 3rd Pipe electromagnetic valve is closed, and control compression heat pump closes the switch, and increases heat supply for thermic load.

IfExecute step 13.

In present embodiment, it is 0.5~0.6 that heat-storing device energy storage upper limit value and accumulator, which set energy storage upper limit value, when t ' It carves,Arm processor controls the 2nd pipe electromagnetic valve and closes, and control compression refrigerating machine is opened It closes and closes, increase cooling supply for refrigeration duty；

Step 13: having detected whether keyboard input instruction, had, preferential to execute keyboard input instruction, nothing executes step 14.

Step 14: executing step 3 repeatedly and arrive step 13；

In present embodiment, at the t " moment, working state of system is as follows:

The mesh power and input side input power of outlet side output power are respectively as follows:

Output input power ratio in real time

Due to γ_real-time∈ [1.22, ∞), arm processor opens the 1st pipe electromagnetic valve, and disconnects cutting-in control and open It closes.

Calculate the prediction generated energy of hydrogen-storing device:Hydrogen-storing device predicts generated energyNot less than hydrogen-storing device generated energy lower limit.Without carrying out energy storage supplement to hydrogen-storing device.The selection of luminous energy transform mode Relay selects photovoltaic battery array work.

Accumulator sets current reservesThe current reserves of heat-storing deviceAccumulator is set or heat-storing device energy storage lower limit value is respectivelyHeat-storing device and the current reserves of Chu Leng are equal Lower than energy storage lower limit value, arm processor opens hydrogen storage output solenoid valve, operation of fuel cells.

t₀In+60S the period, Γ=114KW, Γ > Γ_b；The hydrogen consumption rate of hydrogen-storing device is greater than critical speed, closes Close hydrogen output solenoid valve, fuel cell.

Judge that the time status of timer T0, the clocking value of timer T0 reach timer timing cycle T_check, at this point, storage Thermal and accumulator set energy storage state are as follows: The 2nd solenoid valve of arm processor control, the closing of the 3rd solenoid valve, compression heat pump and compression refrigerating machine close the switch, to storage Thermal and accumulator set carry out energy storage.

Claims (6)

1. coordinating system based on the more energy storage devices of scene-electric heating gas shift module characterized by comprising

Scene-electric heating gas shift module, control module, biomass gasification device, gas turbine, waste heat boiler, absorption refrigeration Machine, heat-storing device, accumulator are set, ac bus, cutting-in control switch and pipe electromagnetic valve；

The scene-electric heating gas shift module, comprising: wind-driven generator, photovoltaic battery array, photoelectrocatalysis device for producing hydrogen, whole It flows device, inverter, DC bus, fuel cell, hydrogen-storing device, luminous energy transform mode selective relay and hydrogen storage and exports electromagnetism Valve；

The control module includes: arm processor, honourable condition detector, electrical power monitoring device, cold heat power detector, defeated Enter power detector and relay group；

The output end of the wind-driven generator by rectifier connect the 1st input terminal of DC bus, luminous energy transform mode selection after The 1st output end of electric appliance connects photovoltaic battery array input terminal, and photovoltaic battery array output end connects the 2nd input terminal of DC bus, DC bus output end connects the 1st input terminal of ac bus, the 2nd output end of luminous energy transform mode selective relay by inverter Photoelectrocatalysis device for producing hydrogen input terminal is connected, photoelectrocatalysis device for producing hydrogen output end connects hydrogen-storing device input terminal, hydrogen-storing device Output end connects hydrogen storage output solenoid valve, and hydrogen storage output solenoid valve connects fuel cell, and fuel cell is separately connected biogas The 3rd input terminal of input port and DC bus is set in makeup；

The biomass gasification device gas outlet connects the 1st fuel air mouth of gas turbine, the connection combustion of pipe electromagnetic valve air gate The 2nd fuel air mouth of gas-turbine, gas turbine gas outlet connect waste heat boiler air inlet, and the steam (vapor) outlet of waste heat boiler connects storage Thermal and Absorption Refrigerator steam inlet, heat-storing device outlet connection thermic load, the connection storage of Absorption Refrigerator output end Cold charge posting port, accumulator set outlet connection refrigeration duty, and ac bus switchs connection electricity network by cutting-in control, and exchange is female Line output terminal connects electric load；

The scene condition detector connects the 1st input terminal of arm processor, and hydrogen-storing device connects the 2nd input terminal of arm processor, Heat-storing device connects the 3rd input terminal of arm processor, and accumulator sets connection the 4th input terminal of arm processor, and electrical power monitoring device is defeated Enter end connection electric load, electrical power monitoring device output end connects the 5th input terminal of arm processor, cold heat power detector input terminal It is separately connected refrigeration duty and thermic load, cold heat power detector output end connects the 6th input terminal of arm processor, input power inspection It surveys device input terminal and connects biomass gasification device, input power detector output end connects the 7th input terminal of arm processor, relay Device group one end connects the 1st output end of arm processor, and the relay group other end is separately connected cutting-in control switch and pipe electromagnetic Valve, luminous energy transform mode selective relay and hydrogen storage output solenoid valve are separately connected the 2nd output end of arm processor and the 3rd defeated Outlet.

2. according to claim 1 coordinate system based on the more energy storage devices of scene-electric heating gas shift module, feature exists In, further includes: generating set, AC converter, absorption heat pump, compression refrigerating machine and compression heat pump；

The gas turbine is connected by mandrel with generating set, and generating set connects AC converter input terminal, exchange conversion Device output end connects ac bus input terminal；The steam inlet of the waste heat boiler steam (vapor) outlet connection absorption heat pump, exchange Bus output end is separately connected compression heat pump, compression refrigerating machine, Absorption Refrigerator and absorption heat pump, compression-type refrigeration Machine and Absorption Refrigerator output end are all connected with refrigeration duty, and compression heat pump and absorption type heat pump output terminal are all connected with thermic load； Compression refrigerating machine and compression heat pump pass through relay group and are connected with arm processor.

3. according to claim 1 coordinate system based on the more energy storage devices of scene-electric heating gas shift module, feature exists In, further includes: gas tank, two-way stream controller and other hydrogen utilization devices；

Photoelectrocatalysis device for producing hydrogen connects gas tank, and gas tank connects two-way stream controller input terminal, two-way stream controller output End is separately connected hydrogen-storing device input terminal and hydrogen output channel, and hydrogen output channel connects other hydrogen utilization devices.

4. using it is described in claim 1 based on the more energy storage devices of scene-electric heating gas shift module coordinate system based on wind More energy storage device coordination approach of optical-electronic hot gas conversion module, which comprises the steps of:

Step 1: aweather optical-electronic hot gas conversion module input wind energy and solar energy input constant power to biomass gasification device Biomass energy, to pipe electromagnetic valve inlet input fossil fuel；

Step 2: input power detector real-time detection biomass energy input powerAnd it is sent to arm processor and deposits Storage；

Step 3: honourable condition detector acquires locality wind speed ω and locality light intensity ξ respectively and is sent to arm processor；

Step 4:ARM processor calculates wind turbine power generation power according to local wind speed ω and locality light intensity ξAnd light Lie prostrate cell array generated output

Step 5: electrical power monitoring device real-time detection electric load power consumptionCold heat power detector real-time detection heat is negative Lotus powerWith refrigeration duty power

Step 6:ARM processor calculates powerMesh power P_need, and calculate export in real time it is defeated Enter power ratio

Step 7:ARM processor obtains accumulator respectively and sets current reservesThe current reserves of heat-storing device Generated energy is predicted with hydrogen-storing device

Step 8:ARM processor is according to real-time output input power ratio γ_real-time, heat-storing device, accumulator is set and hydrogen-storing device Storage situation, pass through control relay group, luminous energy transform mode selective relay and hydrogen storage output solenoid valve carry out system tune It is whole；

Step 9: repeating step 3 to step 8.

5. according to claim 4 based on the more energy storage device coordination approach of scene-electric heating gas shift module, feature exists In step 8 specifically includes:

Step 8-1:ARM processor is according to real-time output input power ratio γ_real-timePlace section, by controlling cutting-in control Switch and pipe electromagnetic valve realize the input and utilization of control wind energy, solar energy, fossil fuel and electricity network；

Step 8-2: judge that hydrogen-storing device predicts generated energyWhether it is lower than hydrogen-storing device generated energy lower limit, is, executes Step 8-3；Otherwise, step 8-4 is executed；

Step 8-3:ARM processor increases pipe electromagnetic valve opening, increases the fossil fuel inputted in gas turbine, meanwhile, ARM Processor controls luminous energy transform mode selective relay and is converted into the work of photoelectrocatalysis device for producing hydrogen by photovoltaic battery array work, Hydrogen is provided for hydrogen-storing device, executes step 8-5；

Step 8-4:ARM processor controls the selection photovoltaic battery array work of luminous energy transform mode selective relay, executes step 8-7；

Step 8-5: judge that hydrogen-storing device predicts generated energyWhether it is higher than the hydrogen-storing device generated energy upper limit, is, executes Step 8-6；Otherwise, step 8-7 is executed；

Step 8-6:ARM processor reduces pipe electromagnetic valve opening；

Step 8-7:ARM processor judges that accumulator sets current reserves respectivelyOr the current reserves of heat-storing deviceWhether set or heat-storing device energy storage lower limit value lower than accumulator, be, executes step 8-8；Otherwise, step 9 is executed；

Step 8-8:ARM processor opens hydrogen storage output solenoid valve, discharges hydrogen, fuel cell to fuel cell with certain flow rate It starts to work, is that electric load and biomass gasification device energize；

Step 8-9:ARM processor judges whether hydrogen-storing device wear rate is greater than wear rate threshold value, is, executes step 8- 10, otherwise, execute step 9；

Step 8-10: closure cutting-in control switch closes hydrogen output solenoid valve, fuel cell.

6. according to claim 5 based on the more energy storage device coordination approach of scene-electric heating gas shift module, feature exists In step 8-9 specifically:

Arm processor starts timer T1 and records fuel cell operating time；Timer timing starting point is t₀, when timer reaches t₀It is 10 timing node t by 60S points when+60S₁To t₁₀, calculate hydrogen-storing device wear rate Γ:

Judge Γ and wear rate threshold value Γ_bRelationship: if (1) Γ≤Γ_b, timer T1 resets to t₀, execute step 9；

(2) if Γ > Γ_b, timer T1 clearing, execution step 8-10.