CN101101995A

CN101101995A - Auxiliary energy storage control device of fuel battery

Info

Publication number: CN101101995A
Application number: CNA2007100690914A
Authority: CN
Inventors: 朱选才; 徐德鸿; 吴屏; 曹陆萍; 沈国桥
Original assignee: Zhejiang University ZJU
Current assignee: Zhejiang University ZJU
Priority date: 2007-06-12
Filing date: 2007-06-12
Publication date: 2008-01-09
Anticipated expiration: 2027-06-12
Also published as: CN100463272C

Abstract

The invention is concerned with the fuel cell energy storing controlling assistance equipment, includes: the super capacitor bank, the double direction direct-direct current convertor, the current detective element, the current flow control element, and the voltage control element. It is: the super capacitor bank connects to the direct current busbar of the fuel cell through the double direction direct-direct current convertor; the current detective element passes the sampling loading current to the current control element by filtering, the voltage control element pass the sampling the voltage of the super capacitor bank to the current control element by adjusting, and the current control element conducts charging or discharging to the super capacitor bank after generates the algebraic sum of the two signal mentioned earlier, as the reference current control double direction direct-direct current convertor. The invention insures the operation security and the product life cycle of the fuel cell by changing the current of the fuel cell slowly when the loading disturbing, under the requirement of loading; and it improves the utilance of the super capacitor bank through charging or discharging by the double direction direct-direct current convertor.

Description

The auxiliary energy storage control device of fuel cell

Technical field

The present invention relates to the energy amount control device of fuel cell generation, relate to the auxiliary energy storage control device of fuel cell specifically.

Background technology

In the fuel cell generation, some Control Parameter such as the air pressure in close relations with fuel cell operation, gas flow and humidity etc. are all controlled by mechanical device, cause the fuel cell dynamic response very slow, demand when can not satisfy load disturbance, the disturbance of load simultaneously also can make in the fuel cell and local temperature or humidity exceeds normal range (NR) to threaten the work safety of fuel cell.And the many outputs that are directly parallel in fuel cell with bank of super capacitors of the auxiliary energy storage control device of present fuel cell, in the time of load disturbance, make the high frequency negative live flow to and do not enter fuel cell, guarantee the work safety of fuel cell into bank of super capacitors.In this structure, because the discharge range of bank of super capacitors is very wide, and be subjected to the restriction of DC bus-bar voltage in the fuel cell generation here, the utilance of its super capacitor is often not high, the poor controllability of the energy in the super capacitor simultaneously can not guarantee the work safety of super capacitor.

Summary of the invention

The purpose of this invention is to provide a kind of auxiliary energy storage control device that can in load disturbance, can guarantee the fuel cell of fuel cell safety, reliably working.

The auxiliary energy storage control device of fuel cell of the present invention, it is characterized in that comprising: the bank of super capacitors that is used for energy storage, two-way DC-DC converter, the current detecting link, Current Control link and voltage control link, wherein the current detecting link comprises the current filter and the first current limitation controller, and the Current Control link comprises first subtracter, current controller and pulse width modulator, and the voltage control link comprises second subtracter, voltage controller and the second current limitation controller; One end of two-way DC-DC converter links to each other with bank of super capacitors, the other end of two-way DC-DC converter links to each other with dc bus in the fuel cell generation, the input of the current filter in the current detecting link connects the load current sampling, the output of current filter is connected with the input of the first current limitation controller, an input of first subtracter in the output of the first current limitation controller and the Current Control link links to each other, second input of first subtracter connects the output current sampling of two-way DC-DC converter in the fuel cell generation side, the output of the second current limitation controller in the 3rd input of first subtracter and the voltage control link links to each other, the output of first subtracter links to each other with the input of current controller, the output of current controller links to each other with the input of pulse width modulator, pulse width modulator is output as drive pulse signal, link to each other with the drive circuit of two-way DC-DC converter, a level signal that input is connected and fixed of second subtracter in the voltage control link, another input connects the voltage sample of bank of super capacitors, the output of second subtracter links to each other with the input of voltage controller, and the output of voltage controller links to each other with the input of the second current limitation controller.

The auxiliary energy storage control device of fuel cell of the present invention is by the radio-frequency component in the current detecting link extraction load current, output current reference value as two-way DC-DC converter, output current follow current reference value by Current Control link control two-way DC-DC converter is carried out charge and discharge to super capacitor, realization is to the compensation of load current radio-frequency component, in the time of load disturbance, make and satisfying under the prerequisite of loading demand, make the electric current of fuel cell to change slowly, guarantee the work safety and the working life of fuel cell; Obtain keeping the needed charge and discharge current reference value of bank of super capacitors voltage by the voltage control link simultaneously and deliver to the Current Control link, the control two-way DC-DC converter discharges and recharges bank of super capacitors, makes bank of super capacitors voltage not maintain a state of charge and discharge fast when load has disturbance or disturbance little.

Beneficial effect of the present invention is:

The work of the auxiliary energy storage control device by fuel cell can help guaranteeing the work safety and the working life of fuel cell so that fuel cell obtains the condition of work of safety and reliability, guarantees the utilance of fuel cell.Simultaneously, bank of super capacitors is by the two-way DC-DC converter charge and discharge, can not be subjected to that DC bus-bar voltage limits in the fuel cell generation, can improve the utilance of ultracapacitor.The auxiliary energy storage control device of fuel cell of the present invention can be used in the various fuel cell generations.

Description of drawings

Fig. 1 is a formation block diagram of the present invention.

Embodiment

With reference to Fig. 1, the auxiliary energy storage control device of fuel cell of the present invention comprises: the bank of super capacitors 1 that is used for energy storage, two-way DC-DC converter 2, current detecting link 3, Current Control link 4 and voltage control link 5, wherein current detecting link 3 comprises the current filter 6 and the first current limitation controller 7, Current Control link 4 comprises first subtracter 8, current controller 9 and pulse width modulator 10, and voltage control link 5 comprises second subtracter 11, voltage controller 12 and the second current limitation controller 13; One end of two-way DC-DC converter 2 links to each other with bank of super capacitors 1, and the other end of two-way DC-DC converter links to each other with the dc bus of fuel cell generation 14; The input of the current filter 6 in the current detecting link 3 connects load current io sampling, the output of current filter 6 is connected with the input of the first current limitation controller 7, an input of first subtracter 8 in the output of the first current limitation controller 7 and the Current Control link 4 links to each other, second input of first subtracter 8 connects two-way DC-DC converter 2 in the output current iBi of fuel cell generation side sampling, the output of the second current limitation controller 13 in the 3rd input of first subtracter 8 and the voltage control link 5 links to each other, the output of first subtracter 8 links to each other with the input of current controller 9, the output of current controller 9 links to each other with the input of pulse width modulator 10, pulse width modulator 10 is output as drive pulse signal, link to each other with the drive circuit of two-way DC-DC converter 2, a level signal Vref_SC that input is connected and fixed of second subtracter 11 in the voltage control link 5, another input is connected to the voltage vSC sampling of bank of super capacitors 1, the output of second subtracter 11 links to each other with the input of voltage controller 12, and the output of voltage controller 12 links to each other with the input of the second current limitation controller 13.

In apparatus of the present invention, bank of super capacitors can be realized by suitable connection in series-parallel by super capacitor, two-way DC-DC converter can adopt Buck-Boost converter commonly used, pulse width modulator can adopt pulse-width modulation (PWM) control chip UC3525, current filter, first, the second current limitation controller, first, second subtracter, the circuit commonly used that current controller and voltage controller can adopt corresponding operational amplifier to constitute is realized, here, pulse width modulator, current filter, first, the second current limitation controller, first, second subtracter, current controller and voltage controller also can adopt digital signal processor (DSP) or single-chip microcomputer (MCU) to realize in software.

The operation principle of the auxiliary energy storage control device of fuel cell: the current filter 6 in the current detecting link 3 obtains load current sampled signal io, current sampling signal io is through the composition of current filter 6 elimination low frequencies, again through the first current limitation controller, 7 current limlitings, deliver to first subtracter 8 as two-way DC-DC converter 2 at fuel cell generation side output reference current value iref_Bi, second subtracter 11 in the voltage control link 5 subtracts each other the voltage sampling signal vSC and the fixing level signal Vref_SC of bank of super capacitors 1, difference is sent into voltage controller 12, obtain keeping that super capacitor voltage is needed fills again through the second Current limited Control device through the value that calculates of voltage controller 12, discharging current reference value icharge delivers to first subtracter 8, first subtracter 8 subtracts each other algebraical sum and the two-way DC-DC converter 2 of two current reference value iref_Bi and icharge at the output current sampled signal iBi of fuel cell generation side, error is sent into current controller 9, through current controller 9 controlled duty cycle signals D, this control signal is through PWM (pulse width control) signal of the controlled two-way DC-DC converter 2 in pulse width controller 10 modulation backs, deliver to the drive circuit of two-way DC-DC converter 2, the work by two-way DC-DC converter 2 is achieved as follows function:

In the time of load disturbance, radio-frequency component among the load current io can detect reference current iref_Bi as Current Control link 4 by current detecting link 3, Current Control link 4 control two-way DC-DC converters 2 carry out charge and discharge at the output current iBi of fuel cell generation side track reference current i ref_Bi to super capacitor, make the radio-frequency component in the load current to provide by bank of super capacitors 1, fuel cell only needs to provide a slowly electric current of variation, has guaranteed the work safety of fuel cell.

When load does not have disturbance, the reference current iref_Bi that current detecting link 3 is defeated by Current Control link 4 is 0, voltage control link 4 obtains keeping the needed charge and discharge current reference value of bank of super capacitors 1 voltage icharge, reference current as Current Control link 4, the charge and discharge of 2 pairs of bank of super capacitors 1 of Control current controlling unit 4 control two-way DC-DC converters make the voltage of bank of super capacitors maintain a fixed value vref_SC, and bank of super capacitors 1 can be carried out charge and discharge fast under this voltage.

Because apparatus of the present invention are to carry out charge and discharge by 2 pairs of bank of super capacitors of two-way DC-DC converter 1, the voltage utilization of bank of super capacitors 1 is improved, the charge and discharge controllability increases.

Apparatus of the present invention are applicable to various fuel cell generations, this fuel cell generation with load can be common energy consumption type load, it also can be electrical network, or contain the load of energy consumption type or the electrical network of one or more levels power inverter, the power inverter here is a DC-DC converter, or is direct-current-alternating-current converter or is their combination.

Claims

1. the auxiliary energy storage control device of fuel cell, it is characterized in that comprising: the bank of super capacitors (1) that is used for energy storage, two-way DC-DC converter (2), current detecting link (3), Current Control link (4) and voltage control link (5), wherein current detecting link (3) comprises the current filter (6) and the first current limitation controller (7), Current Control link (4) comprises first subtracter (8), current controller (9) and pulse width modulator (10), voltage control link (5) comprises second subtracter (11), the voltage controller (12) and the second current limitation controller (13); One end of two-way DC-DC converter (2) links to each other with bank of super capacitors (1), the other end of two-way DC-DC converter (2) links to each other with the dc bus in the fuel cell generation, the input of the current filter (6) in the current detecting link (3) connects the load current sampling, the output of current filter (6) is connected with the input of the first current limitation controller (7), an input of first subtracter (8) in the output of the first current limitation controller (7) and the Current Control link (4) links to each other, second input of first subtracter (8) connects the output current sampling of two-way DC-DC converter (2) in the fuel cell generation side, the output of the second current limitation controller (13) in the 3rd input of first subtracter (8) and the voltage control link (5) links to each other, the output of first subtracter (8) links to each other with the input of current controller (9), the output of current controller (9) links to each other with the input of pulse width modulator (10), pulse width modulator (10) is output as drive pulse signal, link to each other with the drive circuit of two-way DC-DC converter (2), the level signal (Vref_SC) that an input of second subtracter (11) in the voltage control link (5) is connected and fixed, another input connects the voltage sample of bank of super capacitors (1), the output of second subtracter (11) links to each other with the input of voltage controller (12), and the output of voltage controller (12) links to each other with the input of the second current limitation controller (13).

2. the auxiliary energy storage control device of fuel cell according to claim 1, it is characterized in that load is load of energy consumption type or electrical network, or contain the load of energy consumption type or the electrical network of one or more levels power inverter, the power inverter here is a DC-DC converter, or is direct-current-alternating-current converter or is their combination.