CN1807987A - Detection distance determining method for flame detector of coal powder fired boiler burner - Google Patents

Abstract

The invention relates to a method for measuring the fire-detection detecting distance of coal-fired boiler burner. It uses the fire character of coal powder flow to measure the minimum detecting distance of fire detection; via the relation curve between the furnace passive pressure and the fire distance, measures the maximum detecting distance; and according to the burner type and the vibration of coal kind, measures the detecting distance between the maximum and the minimum detecting distances. The fire-detection actual detecting distance in said invention can confirm the detecting view of fire detection over the black-dragon area; confirm the right judge of fire detection, and the safe operation of boiler to limit the passive pressure vibration in allowed range. In addition, the invention designs the detection distance of fire detection according to the character of coal kind, to solve the defects of present methods which can not analyze the coal character inaccurately, to apply the correct design of detecting distance.

Description

Flame detector of coal powder fired boiler burner detects distance and determines method

Technical field

The present invention relates to the coal powder fired boiler burner flame detector system, be specifically related to definite method that a kind of flame detector of coal powder fired boiler burner detects distance.

Background technology

Burner flame detector (be designated hereinafter simply as fire inspection) is to be used for supervising the detecting instrument whether coal-burning boiler burner outlet breeze airflow catches fire, and whether whether the testing result of flame detector is correct rationally has very big related with its detection apart from (being the position that the flame detector optical element is accepted illumination).With the infrared ray fire inspection that most of boiler-burner was disposed is example.This kind fire inspection utilizes the radiation intensity of the flicker frequency of flame and light comprehensively to judge the power that has that it's too late of flame.When Hei Long district at breeze airflow of the detection distance of fire inspection, the semaphore that fire gets is smaller, and the indicated value that provides is just lower; When the observation sight line of fire inspection was in initial combustion district, combustion zone or burning-out zone, the semaphore that fire gets was just bigger, and the indicated value that provides is just than higher.Fire is arranged or do not have the setting that fire inspection critical value or background value are then depended in fiery judgement.Obviously, the more satisfactory detection distance of the fiery inspection of infrared ray should be in burning original area and combustion zone, and detection distance the poorest, easily generation erroneous judgement is the Hei Long district.

Present present situation is: 1) the detection distance of fire inspection does not have the method for well determining, is rule of thumb determined by the designer earlier usually, will detect distance earlier and decide.Carry out scene by the debugging unit again in the boiler startup debug process then and adjust, the content of adjustment mainly is critical value or the background value that fire is examined, sensitivity and whether peep etc.That is to say whether the detection distance no matter the boiler-burner fire is examined is reasonable, do not go to manage it; Fire is arranged or do not have fire and then adjust fire inspection critical value and determine by the commissioning staff.This way is actual to be very unsafe.Because if the detection distance of fire inspection is breeze airflow Hei Long district, the critical value of fire inspection is turned down shown fire in such cases, not only make the fire inspection lose its monitoring function, in fact also be danger close.The design of the detection distance of this explanation fire inspection at present, the on-the-spot method of operating of adjusting critical value are science not, its root be the fire inspection that provides detect distance may not be correct.Therefore, necessaryly set up the detection distance that a kind of method is correctly determined fire inspection, the detection distance of disposable definite fire inspection can adopt when the design for the designer, can detect distance to the fire inspection of the boiler that puts into operation again and adjust, and need not the field adjustable process; Can make simultaneously the detection distance of each burner fire inspection identical, avoid indivedual fire to detect existing indicated value problem on the low side (this is the present ubiquitous problem of boiler that puts into operation).2) present, recurrent fiery inspection erroneous judgement is disconnected improper caused by fire inspection detection distance just on coal burning boiler of power station, (breeze airflow catches fire stable the false fire extinguishing of the disconnected boiler that causes of erroneous judgement thus, it is fiery that the fire inspection is judged as nothing) happen occasionally, the newly-built unit boiler burner fire inspection of appropriate design detects distance or effectively adjusts the fiery detection distance of examining of active service boiler-burner is the very effective technical measures that solve the false fire-putting-out emergency of boiler.

Summary of the invention

At present present situation, the purpose of this invention is to provide a kind of computational methods that can correctly determine flame detection distance.

In order to realize above-mentioned task, the present invention is achieved by following computational methods:

The inspection of a kind of coal powder fired boiler burner fire detects definite method of distance, it is characterized in that, determines that according to the ignition distance of breeze airflow the minimum detection of fire inspection is apart from S ₁Determine that according to the relation curve of ignition distance and combustion chamber draft fluctuation the maximum of fire inspection detects apart from S ₂, detect apart from S in maximum ₂With minimum detection apart from S ₁Between determine that actual detected is apart from S;

Work as S ₂Compare S ₁Under the condition more than the big 1000mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₁+ 500mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S ₁

Work as S ₂Compare S ₁Under the condition more than the big 500mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₁+ 300mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1;

Work as S ₂Compare S ₁Under the condition more than the big 300mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₁+ 200mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1;

At S ₂Compare S ₁Under the condition more than the big 200mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₁+ 100mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1;

S ₂-S ₁Under the condition of＜200mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₂, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1.

The present invention can guarantee that by using the minimum detection distance that the coal ignition distance calculates definite fire inspection fire inspection observation sight line is at ignition zone.By the relational expression between ignition distance fluctuation and the combustion chamber draft before catching fire; the maximum of determining the fire inspection detects distance; form and structure according to burner determine that between this maximum and minimum of a value one reasonably detects distance; both can guarantee the correct judgement of fire inspection, can guarantee the safe operation of boiler again.What fire inspection detected distance determines both to have considered the correct judgement of fiery inspection, the safe operation of boiler, has also considered installation and maintenance simultaneously.Be convenient to install, can prevent peeping of fire inspection again.

The specific embodiment

Fire inspection of the present invention detects distance and determines that method realizes 1 by 3 steps) rate of heat addition in stove is determined the ignition distance of breeze airflow according to coal property and breeze airflow, this distance is the fire inspection and detects minimum value and value; 2) set up the relation curve of ignition distance fluctuation and combustion chamber draft, the maximum fluctuation value that allows according to combustion chamber draft is determined the maximum ignition distance that allows by its relation curve.This ultimate range is the maximum detection distance that the fire inspection is allowed; 3) according to burner form, structure, the stable case in power plant coal source etc. are selected a rational distance between above-mentioned maximum and minimum of a value, and this distance should be not more than maximum greater than minimum of a value, and is convenient to install.Now computational methods that the method is related to and selection principle are described below.

1) detects apart from minimum of a value S ₁Be the computational methods of ignition distance

If the ignition temperature of breeze airflow is T, the rate of heat addition in stove is R, and breeze airflow burner outlet speed is V, initial temperature T ₀The ignition temperature of concrete coal can be measured by trial furnace, the rate of heat addition in the stove can be tried to achieve by calculating according to burner form and combustion system, and the muzzle velocity of breeze airflow and initial temperature are design parameter, and therefore above-mentioned 4 parameters are datum for concrete research object.Therefore the fire inspection detects minimum value and value S ₁Or time t ₁For:

S ₁=V/ (T-T ₀) * Cp/R or t ₁=(T-T ₀) * Cp/R

Cp is the specific heat capacity of breeze airflow in the formula.

2) detect apart from maximum S ₂Determine

In the stove of station boiler in this special constant volume open system.When the stove internal combustion is stablized, air capacity and the pulverized coal flow sent in the stove by the wind powder system are constant, the flue gas volume flow of being discharged burner hearth by air-introduced machine is constant, the volume, the temperature and pressure that are trapped in the high-temperature flue gas in the stove can not change yet, do not have other pressure disturbance in the stove and produce except that combustion pulsation, its form of expression is that the combustion chamber draft fluctuation is stable.But when the fluctuation of stove internal combustion shakiness, breeze airflow ignition distance was big, when particularly breeze airflow took off fire, before breeze airflow catches fire or before the detonation, combustion chamber draft decline was being caught fire or after detonation moment, combustion chamber draft then increases.If before ignition distance changed, combustion chamber draft was 0, after ignition distance increases, combustion chamber draft will drop to negative value.

In stove in the system, gas can be regarded as by N+1 different gas component and mixes (ignoring the influence of pulverized coal particle), and one of them component is the furnace high-temperature flue gas, and N component is to spray into breeze airflow in the stove from each burner nozzle.

At first calculating ignition distance is 0, and the situation that S catches fire is postponed till because of certain reason in the back.In such cases, breeze airflow leaves behind the burner with fire burns, and its burning gases and high-temperature flue gas be mixed into one, and the temperature of mist is T in its stove _I0The back fire burns postponing till the S place because of certain reason when breeze airflow, before S place instancy of ignition, breeze airflow sprays into the heating that is subjected to high-temperature flue gas in the stove, and breeze gas flow temperature raises, high-temperature flue-gas descends, and the mixing temperature of its mist before instancy of ignition is T _iDo not take place owing in this process, there is the burning exothermic reaction, so both mixed mean temperatures can get according to original state and heat balance method separately.That is:

∑ Q _I0* t * C _Pm* (T _i-T ₀)=V _y* C _Py* (T _I0-T _i) (formula 1)

In the formula: Q _I0Be the initial flow of I thigh breeze airflow, m ³/ s;

T is for arriving preceding used time of ignition distance, the s of unit;

T ₀Be the initial temperature of breeze airflow, unit ℃;

T _I0Be the initial temperature of mixed flue gas in the stove, unit ℃;

T _iBe the mixing-cup temperature of mist before instancy of ignition, unit ℃;

C _PmBe the mean specific heat of breeze airflow, the kJ/m of unit ³. ℃;

C _PyBe the mean specific heat of high-temperature flue gas, the kJ/m of unit ³. ℃;

V _yBe the volume of high-temperature flue gas, the m of unit ³

The volume of burner hearth is V, so have:

V _y=V-∑ Q _I0* t, after the arrangement of substitution 1 formula:

T _i=(C _Py* T _I0+ ∑ (Q _I0* t/V) * (T ₀* C _Pm-T _I0* C _Py))/(C _Py+ ∑ (Q _I0* t/V) * (C _Pm-C _Py)) (formula 2)

Because the thermodynamic process in the stove is the constant volume open system of no combustion reaction before catching fire, and the mixing temperature of furnace gas is higher, thus mist visual be perfect gas, can draw the breeze airflow preceding state that do not catch fire by the desirable equation of gas state.

P _i=P _I0* T _i/ T _I0(formula 3)

The undulating value of combustion chamber draft then is:

Δ P _i=P _i-P _I0=P _I0* (T _i-T _I0)/T _I0(formula 4)

Can know by formula 2 and to find out: because T _i＜T _I0, so combustion chamber draft descends.

When breeze airflow at burner outlet S ₁The place catches fire, and (the used time is t ₁), the back postpones because of certain reason ignition distance, promptly at burner outlet S ₂The place catches fire, and (the used time is t ₂), as follows respectively at the variations in temperature and the combustion chamber draft undulating value at this 2 place:

T _I1=(C _Py1* T _I0+ ∑ (Q _I0* t ₁/ V) * (T ₀* C _Pm1-T _I0* C _Py1))/(C _Py1+ ∑ (Q _I0* t ₁/ V) * (C _Pm1-C _Py1)) (formula 5)

T _I2=(C _Py2* T _I0+ ∑ (Q _I0* t ₂/ V) * (T ₀* C _Pm2-T _I0* C _Py2))/(C _Py2+ ∑ (Q _I0* t ₂/ V) * (C _Pm2-C _Py2)) (formula 6)

Δ P _I1=P _I1-P _I10=P _I10* (T _I1-T _I10)/T _I10(formula 7)

Δ P _I2=P _I2-P _I20=P _I20* (T _I2-T _I20)/T _I20(formula 8)

In formula 7 and formula 8, the implication of subscript 1,2 respectively with ignition distance S ₁, S ₂Implication corresponding, when ignition distance fluctuation took place at this 2 place breeze airflow, the furnace pressure undulating value then was

Δ P ₁₂=Δ P _I2-Δ P _I1=P _I20* (T _I2-T _I20)/T _I20-P _I10* (T _I1-T _I10)/T _I10(formula 9)

By the derivation of formula 2 and formula 5 and formula 6 as can be known, P _I10And P _I20And T _I10And T _I20All corresponding to burner outlet place case of fire, therefore T is arranged _I20=T _I20=T _I0, P _I10=P _I20=P _I0So formula 9 is converted into:

Δ P ₁₂=Δ P _I2-Δ P _I1=P _I0* (T _I2-T _I1)/T _I0(formula 10)

The combustion chamber draft that breeze airflow catches fire after postponing be can calculate according to formula 5, formula 6 and formula 10 and its changing value and Δ S=S changed ₂-S ₁Be directly proportional, Δ s is big more, Δ P ₁₂Big more, vice versa.At S ₁=0 o'clock, formula 10 was reduced to formula 4.That is to say that formula 4 is a kind of special circumstances of formula 10.

Can draw combustion chamber draft and ignition distance S by formula 4, formula 9 and formula 10 ₁, S ₂Relation curve, according to the maximum fluctuation value of combustion chamber draft operation thus relation curve determine S ₂,

Below be the embodiment that the inventor provides.

Embodiment 1:

At first calculate maximum and minimum of a value that the inspection that fires detects distance, at S ₂Compare S ₁Under the condition more than the big 1000mm, if the permission of the mounting condition of burner is got actual detected apart from S=S ₁+ 500mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1.

Embodiment 2:

At first calculate maximum and minimum of a value that the inspection that fires detects distance, at S ₂Compare S ₁Under the condition more than the big 500mm, if the permission of the mounting condition of burner is got actual detected apart from S=S ₁+ 300mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1.

Embodiment 3:

At first calculate maximum and minimum of a value that the inspection that fires detects distance, at S ₂Compare S ₁Under the condition more than the big 300mm, if the permission of the mounting condition of burner is got actual detected apart from S=S ₁+ 200mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1.

Embodiment 4:

At first calculate maximum and minimum of a value that the inspection that fires detects distance, at S ₂Compare S ₁Under the condition more than the big 200mm, if the permission of the mounting condition of burner is got actual detected apart from S=S ₁+ 100mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1.

Embodiment 5:

At first calculate maximum and minimum of a value that the inspection that fires detects distance, at S ₂-S ₁Under the condition of＜200mm, if the permission of the mounting condition of burner is got actual detected apart from S=S ₂, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1.

Operation principle of the present invention is as follows:

The present invention determines the minimum detection distance of fire inspection according to the ignition distance of breeze airflow, can guarantee that the observation sight line of fire inspection can observe the ignition zone of breeze airflow; Determine and the maximum detection distance of the corresponding ignition distance of combustion chamber draft permission undulating value according to the relation of combustion chamber draft fluctuation and ignition distance, can guarantee to influence with preceding combustion chamber draft fluctuation the safe operation of boiler like this because of ignition distance fluctuation initiation at fire inspection viewing distance as the fire inspection.Between this maximum and minimum of a value, determine the actual detected distance of fire inspection, so both can guarantee detection correctness, the security of fire inspection according to burner form, structure and certain selection principle; The design and installation of being convenient to are arranged simultaneously.In addition, the inventive method has taken into full account the fire behaviour of coal, at concrete coal detection distance reasonable in design, solved existing fire inspection detect rule of thumb design of distance, with the characteristic of coal might unconformable intrinsic drawback.The of the present invention detection apart from the method for determining is adapted to monitor in the various combustion system boilers that the fire inspection of burner breeze airflow case of fire detects apart from determining.

Method of the present invention has following technical characterstic:

1, the present invention has pushed over out the corresponding relation formula between ignition distance fluctuation and the combustion chamber draft variation, is definite basis of having set up that the fire inspection detects distance.

2, the present invention waits the ignition distance that calculates breeze airflow according to the rate of heat addition in the ignition temperature of fire coal, the stove; the fire inspection that draws detects minimum value and value; the detection distance that can guarantee the fire inspection is beyond breeze airflow Hei Long district, and the erroneous judgement that the inspection of elimination fire takes place thus is disconnected.

3, the relational expression of ignition distance fluctuation and combustion chamber draft before basis is caught fire, calculate combustion chamber draft allow undulating value (such as ± 50Pa or ± 30Pa) pairing maximum ignition distance, with this maximum as fire inspection detection distance, in this detects distance range, fire inspection can not take place judge " fire is arranged " and the ignition distance excessive problem that influences combustion chamber draft and safe operation of the boiler that fluctuates, guarantee not and can under the situation that ignition distance is crossed late and fluctuation is bigger combustion case be judged as normal combustion in that the breeze airflow shakiness of catching fire takes place.

4, according to coal property (ignition temperature etc.) with detect distance determines to detect distance to the influence of combustion chamber draft maximum and minimum of a value.According to burner form and structure, the detection distance of selecting a suitable value to examine as fire between maximum and minimum of a value both can prevent to peep, and was convenient to again arrange, installed and maintenance.

5, this determines the method consideration comprehensively, calculates rationally, can accomplish the detection distance that disposable definite fire is examined, and flame detector system and boiler combustion system are not produced any other influence.

Claims (3)

1. coal powder fired boiler burner fire inspection detects definite method of distance, it is characterized in that, determines that according to the ignition distance of breeze airflow the minimum detection of fire inspection is apart from S ₁Determine that according to the relation curve of ignition distance and combustion chamber draft fluctuation the maximum of fire inspection detects apart from S ₂, detect apart from S in maximum ₂With minimum detection apart from S ₁Between determine that actual detected is apart from S;

Work as S ₂Compare S ₁Under the condition more than the big 1000mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₁+ 500mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S ₁

Work as S ₂Compare S ₁Under the condition more than the big 500mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₁+ 300mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1;

Work as S ₂Compare S ₁Under the condition more than the big 300mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₁+ 200mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1;

At S ₂Compare S ₁Under the condition more than the big 200mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₁+ 100mm, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1;

S ₂-S ₁Under the condition of＜200mm, under the situation that the mounting condition of burner is permitted, get actual detected apart from S=S ₂, otherwise determine S according to the mounting condition of burner, but must guarantee S＞S1.

2. the method for claim 1 is characterized in that, described minimum detection is apart from S ₁Computational methods be:

If the ignition temperature of breeze airflow is T, the rate of heat addition in stove is R, and breeze airflow burner outlet speed is V, initial temperature T ₀The ignition temperature of concrete coal is measured by trial furnace, the rate of heat addition in the stove is tried to achieve by calculating according to burner form and combustion system, the muzzle velocity of breeze airflow and initial temperature are design parameter, therefore above-mentioned 4 parameters are datum for concrete research object, and therefore the fire inspection detects minimum value and value S ₁Or time t ₁For:

S ₁=V/ (T-T ₀) * Cp/R or t ₁=(T-T ₀) * Cp/R

In the formula, Cp is the specific heat capacity of breeze airflow.

3. the method for claim 1 is characterized in that, the described maximum definite method that detects apart from S2 is:

When the stove internal combustion is stablized, air capacity and the pulverized coal flow sent in the stove by the wind powder system are constant, the flue gas volume flow of being discharged burner hearth by air-introduced machine is constant, be trapped in the volume of the high-temperature flue gas in the stove, temperature and pressure can not change yet, not having other pressure disturbance in the stove except that combustion pulsation produces, its form of expression is that the combustion chamber draft fluctuation is stable, but, when stove internal combustion shakiness, when the fluctuation of breeze airflow ignition distance is big, when particularly breeze airflow took off fire, before breeze airflow catches fire or before the detonation, combustion chamber draft descended, catching fire or after detonation moment, combustion chamber draft then increases; If before ignition distance changed, combustion chamber draft was 0, after ignition distance increases, combustion chamber draft will drop to negative value;

In stove in the system, gas is regarded as by N+1 different gas component and is mixed, and wherein ignores the influence of pulverized coal particle, and one of them component is the furnace high-temperature flue gas, and N component is to spray into breeze airflow in the stove from each burner nozzle;

At first calculating ignition distance is 0, and the situation that S catches fire is postponed till because of certain reason in the back, and in such cases, breeze airflow leaves behind the burner with fire burns, and its burning gases and high-temperature flue gas be mixed into one, and the temperature of mist is T in its stove _I0The back fire burns postponing till the S place because of certain reason when breeze airflow, before S place instancy of ignition, breeze airflow sprays into the heating that is subjected to high-temperature flue gas in the stove, and breeze gas flow temperature raises, high-temperature flue-gas descends, and the mixing temperature of its mist before instancy of ignition is T _iDo not take place owing in this process, there is the burning exothermic reaction, so both mixed mean temperatures can obtain according to original state and heat balance method separately, that is:

∑ Q _I0* t * C _Pm* (T _i-T ₀)=V _y* C _Py* (T _I0-T _i) (formula 1)

In the formula: Q _I0Be the initial flow of I thigh breeze airflow, the m of unit ³/ s;

T is for arriving preceding used time of ignition distance, the s of unit;

T ₀Be the initial temperature of breeze airflow, unit ℃;

T _I0Be the initial temperature of mixed flue gas in the stove, unit ℃;

T _iBe the mixing-cup temperature of mist before instancy of ignition, unit ℃;

C _PmBe the avergae specific heat of breeze airflow, the kJ/m of unit ³. ℃;

C _PyBe the avergae specific heat of high-temperature flue gas, the kJ/m of unit ³. ℃;

V _yBe the volume of high-temperature flue gas, the m of unit ³

The volume of burner hearth is V, so V is arranged _y=V-∑ Q _I0* t, after 1 arrangement of substitution formula:

T _i=(C _Py* T _I0+ ∑ (Q _I0* t/V) * (T ₀* C _Pm-T _I0* C _Py))/(C _Py+ ∑ (Q _I0* t/V) * (C _Pm-C _Py)) (formula 2)

Because the thermodynamic process in the stove is the constant volume open system of no combustion reaction before catching fire, and the mixing temperature of furnace gas is higher, thus mist visual be perfect gas, can draw the breeze airflow preceding state that do not catch fire by the desirable equation of gas state;

P _i=P _I0* T _i/ T _I0(formula 3)

The undulating value of combustion chamber draft then is:

Δ P _i=P _i-P _I0=P _I0* (T _i-T _I0)/T _I0(formula 4)

Can know by formula 2 and to find out: because T _i＜T _I0, so combustion chamber draft descends;

When breeze airflow at burner outlet S ₁The place catches fire, and its used time of catching fire is t ₁, the back postpones because of certain reason ignition distance, promptly at burner outlet S ₁The place catches fire, and its used time of catching fire is t ₂, variations in temperature herein and combustion chamber draft undulating value are as follows respectively:

T _I1=(C _Py1* T _I0+ ∑ (Q _I0* t ₁/ V) * (T ₀* C _Pm1-T _I0* C _Py1))/(C _Py1+ ∑ (Q _I0* t ₁/ V) * (C _Pm1-C _Py1)) (formula 5)

T _I2=(C _Py2* T _I0+ ∑ (Q _I0* t ₂/ V) * (T ₀* C _Pm2-T _I0* C _Py2))/(C _Py2+ ∑ (Q _I0* t ₂/ V) * (C _Pm2-C _Py2)) (formula 6)

Δ P _I1=P _I1-P _I10=P _I10* (T _I1-T _I10)/T _I10(formula 7)

Δ P _I2=P _I2-P _I20=P _I20* (T _I2-T _I20)/T _I20(formula 8)

In formula 7 and formula 8, the implication of subscript 1,2 respectively with ignition distance S ₁, S ₂Implication corresponding, when breeze airflow takes place by ignition distance when fluctuation herein, the furnace pressure undulating value then is

Δ P ₁₂=Δ P _I2-Δ P _I1=P _I20* (T _I2-T _I20)/T _I20-P _I10* (T _I1-T _I10)/T _I10(formula 9)

By the derivation of formula 2 and formula 5 and formula 6 as can be known, P _I10And P _I20And T _I10And T _I20All corresponding to burner outlet place case of fire, therefore T is arranged _I20=T _I20=T _I0, P _I10=P _I20=P _I0So formula 9 is converted into:

Δ P ₁₂=Δ P _I2-Δ P _I1=P _I0* (T _I2-T _I1)/T _I0(formula 10)

The combustion chamber draft that breeze airflow catches fire after postponing be can calculate according to formula 5, formula 6 and formula 10 and its changing value and Δ S=S changed ₂-S ₁Be directly proportional, Δ s is big more, Δ P ₁₂Big more, vice versa, at S ₁=0 o'clock, formula 10 was reduced to formula 4;

Can draw combustion chamber draft and ignition distance S by formula 4, formula 9 and formula 10 ₁, S ₂Relation curve, according to the maximum fluctuation value of combustion chamber draft operation thus relation curve determine S ₂