CN108110282A - Fuel battery engines Poewr control method - Google Patents

Abstract

The invention discloses a kind of fuel battery engines Poewr control method, including：S10, fuel cell engine power response characteristic, M power interval is divided by power bracket from small to large, and wherein M is natural number；I-th of power interval is set in, unit period maximum load amplitude is K_i；I-th of power interval is set in, unit period maximum off-load amplitude is J_i；S20, when the demand power of fuel battery engines changes, by the supply strategy for identifying air mass flow needed for changed power amplitude adjusted.The present invention combines fuel battery engines own characteristic, take into full account electrochemical reaction of fuel battery mechanism, air compressor machine and pipeline lag characteristic, it is supplied in advance by the power interval, the variable load of adjusting power cycle, the control air compressor machine that divide fuel battery engines, it can be on the premise of fuel battery engines quick response be met, the generation for phenomena such as effectively avoiding owing gas improves the service life of vehicle fuel battery engine.

Description

Fuel battery engines Poewr control method

Technical field

The present invention relates to vehicle fuel battery more particularly to a kind of fuel battery engines Poewr control methods.

Background technology

Fuel cell car is with its zero-emission, high efficiency, long the advantages that continuing a journey, it is considered to be future automobile developing direction it One.At present, the service life is to restrict the commercialized important bottleneck of fuel cell car.

Fuel battery engines are a set of devices that electrochemical energy can be converted into electric energy with auxiliary fuel cell, include combustion Battery pile, air supply subsystem, hydrogen supply subsystem and hydro-thermal management subsystem are expected, to maintain fuel cell electric The reaction environments such as rational pressure, flow, temperature, humidity inside heap.Air supply subsystem passes through the components such as air compressor machine, control Fuel cell charge flow rate, hydrogen supply subsystem do servo antrol.

Difference lies in need to carry out frequent variable load to meet vehicle operating mode need with other purposes maximum for vehicle fuel battery It asks, and variable load operating mode, particularly influence proportion of the loading condition to fuel battery service life are larger.Therefore, it is necessary to a kind of fuel electricity Pond engine control in the case where meeting the loading demand of automobile quick response to greatest extent, considers fuel cell Electrochemical reaction characteristic and supply delay, extend fuel cell service life.

Fuel cell is in loading procedure, excessive since the response speed of gas can be more more slowly than electrochemical reaction rates Coefficient, pressure, temperature, humidity, loading amplitude, loading speed, initial power etc., cease manner of breathing with fuel cell responding ability It closes.After normal load, the factors such as water redistribution are influenced in by the aquation and film of fuel battery gas diffusion layer, and voltage has The process that one section of undershoot to minimum point is recovered again.It is worth noting that under the conditions of smaller initial power, voltage undershoot is with recovering Time it is relatively short, can be carried to carry out drawing by a larger margin.

At present, the fuel battery engines Poewr control method of mainstream is as follows：

A kind of air supplying method when fuel cell quickly loads in patent document 1 (CN103915637A) is provided, is adopted Control corresponding air mass flow rate V with electric current I, characterization of the invention using electric current and non-power as fuel cell, and lead to It crosses and controls air delivery rate using step length, fuel cell is made to ensure that fuel cell pile is anti-in the state of quick loading That answers is normally carried out.

A kind of plus-minus for power generation system of automobile fuel cell is provided in patent document 2 (CN102522581A) and carries control Method processed, this method include：A maximum power increment is set during loading, according to vehicle demand power and current fuel cell The difference for loading power is compared to determine loading capacity with it, and calculates the permission that fuel cell generation prepares output Power allows loading power according to what is calculated, adjusts corresponding fuel cell generation parameter, return complete letter after finishing Number, loading, iterative cycles are loaded onto vehicle power and are equal to permission power, and so on, power subtracts needed for CYCLIC LOADING to vehicle During load；Then direct off-load, off-load adjust corresponding fuel cell generation parameter after finishing.

For the power load method of patent document 1, based on electric current, non-power is characterized as fuel cell, more convenient Air delivery rate is controlled, but does not account for supplying delay caused by air compressor machine, pipeline, pile reaction, air metering ratio fails It accurately controls；, patent document 2 power regulating method, by according to the maximum allowable loading power of different capacity interval division, having Effect, which reduces, owes gas risk, but plus-minus load process is not finely controlled, and variable load rate is simultaneously non-optimal.

The content of the invention

The present invention seeks to propose a kind of fuel battery engines Poewr control method, fuel cell initial power is being considered On the basis of electrochemical reaction characteristic, air compressor operating lag and circuit design delay, Power Control is carried out, optimization is each While the variable load rate of power interval, the possibility for owing gas is reduced, extends fuel cell service life.

The present invention solves technical problem and adopts the following technical scheme that：A kind of fuel battery engines Poewr control method, Including：

S10, fuel cell engine power response characteristic, M work(is divided by power bracket by it from small to large Rate section, wherein M are natural number；I-th of power interval is set in, unit period maximum load amplitude is K_i, i be less than or equal to The natural number of M；And with the increase of i, K_iIt is gradually reduced；I-th of power interval is set in, unit period maximum off-load amplitude is J_i, and J_i≤J_i-1, wherein i is not equal to 1；

S20, when the demand power of fuel battery engines changes, by identifying air needed for changed power amplitude The supply strategy of flow；

Wherein, S20 is：

S201, the maximum capacity according to air compressor machine response and circuit design, set the unit most short cycle, and keep pre- supply Time is the unit most short cycle；

S202, when from initial power P_aIt is loaded onto target power P_bWhen, perform S203 to S206；

S203, identification initial power P_aWith target power P_bPlace power interval and from initial power P_aTo target power P_bDuring between the power interval crossed over, and confirm in each power interval, the maximum load amplitude K in unit period_i； And according to initial power P_a, confirm the desired value in next cycle of the power of fuel battery engines；

The corresponding air compressor machine target of desired value in next cycle of the power of S204, setting and fuel battery engines into Tolerance；

S205, by 1 cycle, detect that the actual charge flow rate of fuel battery engines is equal to air compressor machine target inlet air The power of fuel battery engines is loaded onto the desired value in next cycle by amount from currency；Loading amplitude is sent out for fuel cell The permitted maximum load amplitude K of power interval where the currency of the power of motivation_a, wherein K_a∈K_i；

S206, after the completion of the power adjustment of fuel battery engines, the power of fuel cell engine it is current Value confirms the desired value in next cycle of the power of fuel battery engines；

S207, S204 and S206 are repeated, until air compressor machine target inlet air amount is Q_b=f (P_b) when, keep gas supply flow It is constant, after 1 cycle, the power of fuel battery engines is promoted to target power P_b, complete entire power loading procedure；

S208, when from initial power P_aOff-load is to target power P_bWhen, perform S209 to S212；

S209, identification initial power P_aWith target power P_bPlace power interval and from initial power P_aTo target power P_bDuring between the power interval crossed over, confirm in each power interval, the maximum off-load amplitude J in unit period_i；

S210, the desired value that the power of fuel battery engines is reduced to next cycle from currency, off-load amplitude are The permitted maximum off-load amplitude of power interval where the currency of the power of fuel battery engines；And according to off-load after The currency of the power of fuel battery engines sets air compressor machine target inlet air amount

S211, by 1 cycle, detect that the actual charge flow rate of fuel cell is equal to air compressor machine target induction flow；Root The desired value in next cycle of fuel battery engines is calculated according to the currency of the power of fuel battery engines；

S212, S210 and S211 are repeated, until confirming that the currency of the power of fuel battery engines reaches target Power P_aWhen, it is Q to set air compressor machine target inlet air amount_a=f (P_a), complete entire power off-load process.

The present invention has the advantages that：The present invention combines fuel battery engines own characteristic, takes into full account fuel Cell electrochemical reaction mechanism, air compressor machine and pipeline lag characteristic, by dividing the power interval of fuel battery engines, adjusting Power cycle variable load, control air compressor machine supply in advance, can have on the premise of fuel battery engines quick response is met The generation for phenomena such as effect avoids owing gas improves the service life of vehicle fuel battery engine.

Description of the drawings

Fig. 1 is the Periodic decomposition schematic diagram that power loads in the present invention.

Fig. 2 is the Periodic decomposition schematic diagram of power off-load in the present invention.

Specific embodiment

Technical scheme is further elaborated with reference to embodiment and attached drawing.

Embodiment 1

A kind of fuel battery engines Poewr control method is present embodiments provided, including：

S10, fuel cell engine initial power response characteristic, by it by power bracket by being divided into from small to large M power interval, it is K to be set in i-th of power interval unit period maximum load amplitude_i, i is the natural number less than or equal to M； And with the increase of i, K_iIt is gradually reduced.

It is J to be set in i-th of power interval unit period maximum off-load amplitude_i, and J_i≤J_i-1, wherein i is not equal to 1.

S20, when the demand power of fuel battery engines changes, according to Q_x=f (P_x), institute is controlled by power P The air supply flow rate Q needed.

In the present embodiment, the S20 is specifically：

S201, the maximum capacity according to air compressor machine response and circuit design, set the unit most short cycle, and keep pre- supply Time is the unit most short cycle, and the actual charge flow rate of fuel battery engines is made to promote/be reduced to desired value from currency；With Meet the condition needed for the power from currency loading/off-load to desired value of fuel battery engines.

S202, when from initial power P_aIt is loaded onto target power P_bWhen, perform S203 to S206；

S203, identification initial power P_aWith target power P_bPlace power interval and from initial power P_aTo target power P_bDuring between the power interval crossed over, in each power interval for confirmation, the maximum load amplitude in unit period K_i.And according to initial power P_a, confirm desired value (the initial power P in next cycle of the power of fuel battery engines_aIn addition Initial power P_aCorresponding maximum load amplitude)；

The corresponding air compressor machine target of desired value in next cycle of the power of S204, setting and fuel battery engines into Tolerance.

S205, by 1 cycle, detect that the actual charge flow rate of fuel battery engines is equal to air compressor machine target inlet air The power of fuel battery engines, is loaded onto the desired value in next cycle by amount from currency, and loading amplitude is sent out for fuel cell The permitted maximum load amplitude K of power interval where the currency of the power of motivation_a, wherein K_a∈K_i；

S206, after the completion of the power adjustment of fuel battery engines, the power of fuel cell engine it is current Value confirms the desired value in next cycle of the power of fuel battery engines；

S207, S204 and S206 are repeated, until air compressor machine target inlet air amount is Q_b=f (P_b) when, keep gas supply flow It is constant, after 1 cycle, the power of fuel battery engines is promoted to target power P_b, complete entire power loading procedure.

S208, when from initial power P_aOff-load is to target power P_bWhen, perform S209 to S212；

S209, identification initial power P_aWith target power P_bPlace power interval and from initial power P_aTo target power P_bDuring between the power interval crossed over.In each power interval for confirmation, the maximum off-load amplitude in unit period J_i。

S210, the desired value that the power of fuel battery engines is reduced to next cycle from currency, off-load amplitude are The permitted maximum off-load amplitude of power interval where the currency of the power of fuel battery engines；And according to off-load after The currency of the power of fuel battery engines sets air compressor machine target inlet air amount.

S211, by 1 cycle, detect that the actual charge flow rate of fuel cell is equal to air compressor machine target induction flow；Root Desired value (the fuel cell hair in next cycle of fuel battery engines is calculated according to the currency of the power of fuel battery engines The currency of the power of motivation subtracts the maximum off-load amplitude corresponding to the currency of the power of fuel battery engines)；

S212, S210 and S211 are repeated, until confirming that the currency of the power of fuel battery engines reaches target Power P_aWhen, it is Q to set air compressor machine target inlet air amount_a=f (P_a), complete entire power off-load process.

Embodiment 2

By taking the fuel battery engines of rated power 60kW as an example, a kind of fuel battery engines work(is present embodiments provided Rate control method, including：

Power interval is divided into four：M₁：0kW-15kW, M₂：15kW-30kW, M₃：30kW-45kW, M₄：45kW- 60kW。

Fuel battery air metering ratio is set to 2.0.By analyzing air compressor machine supply and circuit design characteristic, pre- supply is set Time, i.e. the unit most short cycle are 0.3s.

In each power interval, a cycle maximum power loading amplitude is respectively：K₁:3kW, K₂:2.5kW, K₃: 1.5kW, K₄:1kW.In each power interval, a cycle maximum power off-load amplitude is respectively J₁:15kW, J₂:15kW, J₃: 5kW, J₄:5kW。

Rated power is loaded onto from idling：

During fuel battery engines idling, external output power is 0kW, is placed in M at this time₁Section, unit period is most greatly Load amplitude is 3kW.

Start air compressor machine supply first, it is fuel cell P to set air compressor machine air mass flow₀₊₁Air mass flow needed for=3kW 2.7g/s。

By 1 cycle, that is, 0.3s, detection fuel cell air inflow reaches 2.7g/s, starts the starting fluid power of battery and adds It is loaded onto P₁=3kW.Continue to increase air compressor machine gas supply flow, it is fuel cell P to set air compressor machine air mass flow₁₊₁It is required during=6kW Air mass flow 5.4g/s, according to said method continue to load.

By 5 cycle, that is, 1.5s, it is externally defeated can to promote fuel cell up to 14.1g/s for detection fuel cell air inflow Go out power to P₅=15kW.Continue to increase air compressor machine gas supply flow, it is fuel cell P to set air compressor machine air mass flow₅₊₁= Required air mass flow 16.8g/s during 17.5kW, according to said method continues to load.

By 36 cycle, that is, 10.8s, detection fuel cell air inflow reaches 65.9g/s, meet fuel cell 60kW into Tolerance demand starts the starting fluid power of battery and is loaded onto P₃₆=60kW completes loading of the idling to rated power.

From rated power off-load to idling：

When fuel battery engines are in rated power, externally output is 60kW, is now in M₄Power interval, unit week Phase maximum off-load amplitude is 5kW.

Fuel battery power off-load is to P₁=55kW, then by air compressor machine flow from fuel cell 60kW when required air stream 65.9g/s is measured, is adjusted to air mass flow 58.5g/s required during fuel cell 55kW.

By 1 cycle, that is, 0.3s, detection fuel cell air inflow reaches 58.5g/s, continues off-load fuel battery power To P₂=50kW, then by air compressor machine flow from fuel cell 55kW when required air mass flow 58.5g/s, be adjusted to fuel cell Required air mass flow 52.8g/s, according to said method continues off-load during 50kW.

By 7 cycle, that is, 2.1s, detection fuel cell air inflow reaches 13.7g/s, continues off-load fuel battery power To P₇=0kW, then by air compressor machine flow from fuel cell 15kW when required air mass flow 13.7g/s, be adjusted to 0g/s, complete Rated power to idling off-load.

The sequencing of above example only for ease of description, does not represent the quality of embodiment.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although The present invention is described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that：It still may be used To modify to the technical solution recorded in foregoing embodiments or carry out equivalent substitution to which part technical characteristic； And these modification or replace, do not make appropriate technical solution essence depart from various embodiments of the present invention technical solution spirit and Scope.

Claims (1)

1. a kind of fuel battery engines Poewr control method, which is characterized in that including：

It, is divided into M power area by S10, fuel cell engine power response characteristic from small to large by power bracket Between, wherein M is natural number；I-th of power interval is set in, unit period maximum load amplitude is K_i, i is less than or equal to M's Natural number；And with the increase of i, K_iIt is gradually reduced；I-th of power interval is set in, unit period maximum off-load amplitude is J_i, And J_i≤J_i-1, wherein i is not equal to 1；

S20, when the demand power of fuel battery engines changes, by identifying air needed for changed power amplitude adjusted The supply strategy of flow；

Wherein, S20 is：

S201, the maximum capacity according to air compressor machine response and circuit design, set the unit most short cycle, and keep pre- service life For the unit most short cycle；

S202, when from initial power P_aIt is loaded onto target power P_bWhen, perform S203 to S206；

S203, identification initial power P_aWith target power P_bPlace power interval and from initial power P_aTo target power P_b's The power interval crossed among process, and confirm in each power interval, the maximum load amplitude K in unit period_i；And root According to initial power P_a, confirm the desired value in next cycle of the power of fuel battery engines；

The corresponding air compressor machine target inlet air of desired value in next cycle of the power of S204, setting and fuel battery engines Amount；

S205, by 1 cycle, detect that the actual charge flow rate of fuel battery engines is equal to air compressor machine target inlet air amount, The power of fuel battery engines is loaded onto to the desired value in next cycle from currency；Loading amplitude is fuel battery engines Power currency where power interval permitted maximum load amplitude K_a, wherein K_a∈K_i；

S206, after the completion of the power adjustment of fuel battery engines, the currency of the power of fuel cell engine, really Recognize the desired value in next cycle of the power of fuel battery engines；

S207, S204 and S206 are repeated, until air compressor machine target inlet air amount is Q_b=f (P_b) when, keep gas supply flow not Become, after 1 cycle, promote the power of fuel battery engines to target power P_b, complete entire power loading procedure；

S208, when from initial power P_aOff-load is to target power P_bWhen, perform S209 to S212；

S209, identification initial power P_aWith target power P_bPlace power interval and from initial power P_aTo target power P_b's The power interval crossed among process, confirms in each power interval, the maximum off-load amplitude J in unit period_i；

S210, the desired value that the power of fuel battery engines is reduced to next cycle from currency, off-load amplitude are fuel The permitted maximum off-load amplitude of power interval where the currency of the power of battery engine；And according to the fuel after off-load The currency of the power of battery engine sets air compressor machine target inlet air amount

S211, by 1 cycle, detect that the actual charge flow rate of fuel cell is equal to air compressor machine target induction flow；According to combustion Expect that the currency of the power of battery engine calculates the desired value in next cycle of fuel battery engines；

S212, S210 and S211 are repeated, until confirming that the currency of the power of fuel battery engines reaches target power P_a When, it is Q to set air compressor machine target inlet air amount_a=f (P_a), complete entire power off-load process.