CN104313306B - The measuring method of a kind of sintering deposit solid fuel specific consumption and device - Google Patents
The measuring method of a kind of sintering deposit solid fuel specific consumption and device Download PDFInfo
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- CN104313306B CN104313306B CN201410545154.9A CN201410545154A CN104313306B CN 104313306 B CN104313306 B CN 104313306B CN 201410545154 A CN201410545154 A CN 201410545154A CN 104313306 B CN104313306 B CN 104313306B
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- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
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Abstract
The embodiment of the present invention discloses measuring method and the device of a kind of sintering deposit solid fuel specific consumption, the solid fuel amount that in sintering process, output unit sintering deposit is consumed is measured in real time, utilize the solid fuel consumption amount in preset time period, and the sintering deposit quantum of output corresponding with the solid fuel consumption amount in preset time period, it is calculated solid fuel specific consumption, i.e. every required amount consuming solid fuel of production unit sintering deposit.The measuring method of embodiment of the present invention offer and device, the solid fuel specific consumption in any time period can not only be measured in real time, and by resting in the specific consumption of solid fuel in sintering process, the optimization of sintering deposit can be instructed to produce, reduce the consumption of solid fuel.
Description
Technical field
The present invention relates to sintering technology field, particularly relate to the measuring method of a kind of sintering deposit solid fuel specific consumption
And device.
Background technology
In steel and iron industry produces, sintering deposit is the primary raw material of iron and steel smelting product, and the sintering process producing sintering deposit is
Indispensable important step in whole steel and iron industry production process, sintering process specifically includes that dispensing, mixing, feed bin
Blanking, sinter, cool down and finished product conveying six stages, first the sintering feeds such as iron-bearing material, flux and solid fuel are existed
The dispensing stage mates in proportion, and adds water in the mixer of mix stages and be mixed into that moisture is suitable, composition is the most spherical
Sinter mixture, deposits in feed bin in the feed bin stage by spherical sinter mixture, then makes the spherical sintering in feed bin mix
Close material to be distributed on sintering machine, the spherical sinter mixture on sintering stage burning sintering machine, form sintering deposit, finally
At cooling stage by sintering deposit cooling screening, produce sintering deposit finished product and be delivered to sintering deposit finished product in finished product delivery phase
Storehouse.In sintering process, the consumption of solid fuel accounts for the 80% of whole sintering process total energy consumption, therefore, reduces solid combustion
The consumption of material is to reduce sintering process energy consumption and the key of iron and steel energy consumption.
On the premise of sintering stage demand in meeting sintering process, reduce solid fuel proportioning in sintering feed, be fall
The effective ways of low solid fuel consumption amount, and the proportioning that solid fuel to be reduced is in sintering feed, it is necessary to rest in sintering
The specific consumption of solid fuel in technique, the solid fuel amount that i.e. one unit sintering deposit of output is consumed.Existing measurement
The method of solid fuel specific consumption typically obtains the solid fuel consumption in the time period by statistical data estimation
Amount, and the quantum of output of sintering deposit product in this period, and utilize both to obtain the unit of solid fuel in this period
Consumption.Such as, in staff adds up one month, the consumption of solid fuel is about 150000000Kg, in one month
The quantum of output of sintering deposit is about 3000000t, show that the solid fuel producing 1t sintering deposit consumption is about 50Kg according to both.
In the actual production process of sintering deposit, the consumption of solid fuel is relatively big, if frequently statistics is solid in sintering process
Fluid fuel consumption and sintering deposit quantum of output, be necessarily required to expend certain manpower and materials and production time, reduces and produces
The efficiency of sintering deposit, therefore, in the method for existing measurement solid fuel specific consumption, typically with " moon " or " year "
Expenditure Levels and the output situation of sintering deposit of solid fuel is added up for the cycle, but, by the ripple of sintering process pilot process
Move many impacts such as property, and sintering feed composition, appointed condition and production environment, the solid fuel warp of fixed qty
After oversintering technique, the sintering deposit quantity of output does not have stability, thus, according to the consumption of long-time interior solid fuel
The solid fuel specific consumption obtained with the quantum of output of sintering deposit, produces sintering deposit in necessarily can not reflecting this period
The truth of consumed solid fuel, and, the method for existing measurement solid fuel specific consumption must be at statistics knot
Shu Caineng obtains measurement result, it is impossible to enough unit consumption situations obtaining solid fuel in real time.
Summary of the invention
The embodiment of the present invention provides measuring method and the device of a kind of sintering deposit solid fuel specific consumption, to solve
The problem that can not measure sintering deposit solid fuel specific consumption accurately and real-time in prior art.
In order to solve above-mentioned technical problem, the embodiment of the invention discloses following technical scheme:
The measuring method of a kind of sintering deposit solid fuel specific consumption, burns for measuring output unit in sintering process in real time
The solid fuel amount that knot ore deposit is consumed, including:
Obtain the solid fuel consumption amount in preset time period;
Obtain the sintering deposit quantum of output corresponding with the solid fuel consumption amount in described preset time period;
The ratio utilizing described sintering deposit quantum of output and described solid fuel consumption amount is worth to solid fuel specific consumption.
Alternatively, obtain the solid fuel consumption amount in preset time period, including:
Obtain the initial time T of described preset time periodfbWith end time Tfe;
Detect the instantaneous consumption of solid fuel in described preset time period;
According to described initial time TfbWith described end time Tfe, and the instantaneous consumption of described solid fuel obtains pre-
If the solid fuel consumption amount in the time period.
Alternatively, obtain the sintering deposit quantum of output corresponding with the solid fuel amount in described preset time period, including:
Obtain described initial time TfbThe first of correspondence produced after described sintering process by the first solid fuel consumed
The very first time T that sintering deposit needsα;
Obtain described end time TfeThe second of correspondence produced after described sintering process by the second solid fuel consumed
The second time T that sintering deposit needsβ;
According to described initial time TfbWith described very first time Tα, obtain described first solid fuel and produce described first
The initial output moment T of sintering depositsb, described Tsb=Tfb+Tα;
According to described end time TfeWith described second time Tβ, obtain described second solid fuel and produce described second
The termination output moment T of sintering depositse, described Tse=Tfe+Tβ;
Detect described initial output moment TsbTo described termination output moment TseTime period in, the instantaneous output of sintering deposit
Amount;
Utilize described initial output moment TsbWith described termination output moment Tse, and the instantaneous quantum of output of described sintering deposit
Obtain the sintering deposit quantum of output corresponding with the solid fuel amount in described preset time period.
Alternatively, described initial time T is obtainedfbIt is right that the first solid fuel consumed is produced after described sintering process
The very first time T that the first sintering deposit answered needsα, including:
Obtain the described first solid fuel time T that dispensing section is run in described sintering processpα, run at mixing section
Time Tmα, at the time T that feed bin section is runmbα, at the time T that sintering stage runssα, at the time T that cooling section runsc α, and the time T run in finished product transport sectioncpα;
The time T that described dispensing section is runpα, mixing section run time Tmα, feed bin section run time Tmbα, burn
The time T that knot section is runsα, cooling section run time TcαThe time T run with finished product transport sectioncpαIt is added, it is thus achieved that institute
State very first time Tα, described Tα=Tpα+Tmα+Tmbα+Tsα+Tcα+Tcpα。
Alternatively, described end time T is obtainedfeIt is right that the second solid fuel consumed is produced after described sintering process
The second time T that the second sintering deposit answered needsβ, including:
Obtain the described second solid fuel time T that dispensing section is run in described sintering processpβ, run at mixing section
Time Tmβ, at the time T that feed bin section is runmbβ, at the time T that sintering stage runssβ, in the running time T of cooling sectionc β, and the time T run in finished product transport sectioncpβ;
The time T that described dispensing section is runpβ, mixing section run time Tmβ, feed bin section run time Tmbβ, burn
The time T that knot section is runsβ, cooling section run time TcβThe time T run with finished product transport sectioncpβIt is added, it is thus achieved that institute
State the second time Tβ, described Tβ=Tpβ+Tmβ+Tmbβ+Tsβ+Tcβ+Tcpβ。
Alternatively, the described first solid fuel time T that dispensing section is run in described sintering process is obtainedpα, or, obtain
Take the described second solid fuel time T that dispensing section is run in described sintering processpβ, including:
Detect the described first solid fuel instantaneous speed of service in dispensing section, or, described second solid fuel is in dispensing section
The instantaneous speed of service;
According to described first solid fuel in the instantaneous speed of service of dispensing section, or, described second solid fuel is in dispensing section
The instantaneous speed of service, and the length of default dispensing section, obtain what described first solid fuel ran in described dispensing section
Time Tpα, or, the time T that described second solid fuel runs in described dispensing sectionpβ。
Alternatively, the described first solid fuel time T that mixing section runs in described sintering process is obtainedmα, or, obtain
Take the described second solid fuel time T that mixing section runs in described sintering processmβ, including:
Obtain described first solid fuel or described second solid fuel runs in each mixer of described mixing section
Time;
The time that cumulative described first solid fuel or described second solid fuel run in described each mixer, obtain
Described first solid fuel is at the time T that described mixing section runsmα, or, described second solid fuel is transported at described mixing section
The time T of rowmβ。
Alternatively, the described first solid fuel time T that feed bin section is run in described sintering process is obtainedmbα, or, obtain
Take the described second solid fuel time T that feed bin section is run in described sintering processmbβ, including:
When obtaining described first solid fuel or the described second solid fuel described feed bin section of entrance, the first position of expecting of feed bin is high
Degree;
Detect described first solid fuel or the described second solid fuel instantaneous controlling level at described feed bin;
According to described first solid fuel or described second solid fuel at the instantaneous controlling level of described feed bin and described
Initial controlling level, obtains the time T that described first solid fuel runs in described feed bin sectionmbα, or, described second is solid
The time T that fluid fuel runs in described feed bin sectionmbβ。
Alternatively, the described first solid fuel time T that sintering stage runs in described sintering process is obtainedsα, or, obtain
Take the described second solid fuel time T that sintering stage runs in described sintering processsβ, including:
Detect described first solid fuel or the described second solid fuel instantaneous speed of service at described sintering stage;
According to described first solid fuel or described second solid fuel in the instantaneous speed of service of described sintering stage, and in advance
If the length of sintering stage, obtain described first solid fuel at the time T that described sintering stage runssα, or, described second is solid
Fluid fuel is at the time T that described sintering stage runssβ。
Alternatively, the described first solid fuel time T that cooling section runs in described sintering process is obtainedcα, or, obtain
Take the described second solid fuel time T that cooling section runs in described sintering processcβ, including:
Detect described first solid fuel or the described second solid fuel instantaneous speed of service at described cooling section;
According to described first solid fuel or described second solid fuel in the instantaneous speed of service of described cooling section, and in advance
If the length of cooling section, obtain described first solid fuel at the time T that described cooling section runscα, or, described second is solid
Fluid fuel is at the time T that described cooling section runscβ。
Alternatively, the described first solid fuel time T that finished product transport section is run in described sintering process is obtainedcpα, or,
Obtain the described second solid fuel time T that finished product transport section is run in described sintering processcpβ, including:
Detect described first solid fuel or the described second solid fuel instantaneous speed of service in finished product transport section;
According to described first solid fuel or described second solid fuel in the instantaneous speed of service of finished product transport section, and in advance
It is set as the length of product transport section, obtains the time T that described first solid fuel runs in described finished product transport sectioncpα, or,
The time T that described second solid fuel runs in described finished product transport sectioncpβ。
The measurement apparatus of a kind of sintering deposit solid fuel specific consumption, burns for measuring output unit in sintering process in real time
The solid fuel amount that knot ore deposit is consumed, including:
Solid fuel consumption amount acquiring unit, for obtaining the solid fuel consumption amount in preset time period;
Sintering deposit quantum of output acquiring unit, for obtaining the burning corresponding with the solid fuel consumption amount in described preset time period
Knot mineral products output;
Solid fuel specific consumption computing unit, is used for utilizing described sintering deposit quantum of output and described solid fuel consumption
The ratio of amount is worth to solid fuel specific consumption.
Alternatively, solid fuel consumption amount acquiring unit, including:
Measure time period acquiring unit, for obtaining the initial time T of described preset time periodfbWith end time Tfe;
Instantaneous consumption acquiring unit, the instantaneous consumption of solid fuel in detecting described preset time period;
Consumption acquiring unit, for according to described initial time TfbWith described end time Tfe, and the combustion of described solid
The instantaneous consumption of material obtains the solid fuel consumption amount in preset time period.
Alternatively, sintering deposit quantum of output acquiring unit, including:
First sintering time acquiring unit, is used for obtaining described initial time TfbThe first solid fuel consumed is through described
The very first time T that the first sintering deposit of correspondence needs is produced after sintering processα;
Second sintering time acquiring unit, is used for obtaining described end time TfeThe second solid fuel consumed is through described
The second time T that the second sintering deposit of correspondence needs is produced after sintering processβ;
Initial output moment acquiring unit, for according to described initial time TfbWith described very first time Tα, obtain described
The initial output moment T of described first sintering deposit produced by first solid fuelsb, described Tsb=Tfb+Tα;
Terminate output moment acquiring unit, for according to described end time TfeWith described second time Tβ, obtain described
The termination output moment T of described second sintering deposit produced by second solid fuelse, described Tse=Tfe+Tβ;
Instantaneous quantum of output acquiring unit, is used for detecting described initial output moment TsbTo described termination output moment TseTime
Between in section, the instantaneous quantum of output of sintering deposit;
Quantum of output acquiring unit, is used for utilizing described initial output moment TsbWith described termination output moment Tse, Yi Jisuo
The instantaneous quantum of output stating sintering deposit obtains the sintering deposit quantum of output corresponding with the solid fuel amount in described preset time period.
Alternatively, described first sintering time acquiring unit, including:
Very first time segmentation acquiring unit, is used for obtaining described first solid fuel dispensing section in described sintering process and runs
Time Tpα, at the time T that mixing section runsmα, at the time T that feed bin section is runmbα, in the time that sintering stage runs
Tsα, at the time T that cooling section runssα, and the time T run in finished product transport sectioncpα;
Very first time acquiring unit, for the time T described dispensing section runpα, mixing section run time Tmα, material
The time T that storehouse section is runmbα, sintering stage run time Tsα, cooling section run time TcαRun with finished product transport section
Time TcpαIt is added, it is thus achieved that described very first time Tα, described Tα=Tpα+Tmα+Tmbα+Tsα+Tcα+Tcpα。
Alternatively, the second sintering time acquiring unit, including:
Second time slice acquiring unit, is used for obtaining described second solid fuel dispensing section in described sintering process and runs
Time Tpβ, at the time T that mixing section runsmβ, at the time T that feed bin section is runmbβ, in the time that sintering stage runs
Tsβ, in the running time T of cooling sectioncβ, and the time T run in finished product transport sectioncpβ;
Second time acquisition unit, for the time T described dispensing section runpβ, mixing section run time Tmβ, material
The time T that storehouse section is runmbβ, sintering stage run time Tsβ, cooling section run time TcβRun with finished product transport section
Time TcpβIt is added, it is thus achieved that described second time Tβ, described Tβ=Tpβ+Tmβ+Tmbβ+Tsβ+Tcβ+Tcpβ。
Alternatively, very first time segmentation acquiring unit, or, described second time slice acquiring unit, including:
Dispensing section velometer, for detecting the described first solid fuel instantaneous speed of service in dispensing section, or, described the
Two solid fuels are in the instantaneous speed of service of dispensing section;
Dispensing section time acquisition unit, for according to described first solid fuel in the instantaneous speed of service of dispensing section, or,
Described second solid fuel is in the instantaneous speed of service of dispensing section, and the length of default dispensing section, obtains described first solid
The time T that fluid fuel runs in described dispensing sectionpα, or, the time that described second solid fuel runs in described dispensing section
Tpβ。
Alternatively, the first split time acquiring unit, or, described second split time acquiring unit, also include:
Mixer timer, for obtaining every at described mixing section of described first solid fuel or described second solid fuel
The time run in individual mixer;
Mixing section time acquisition unit, be used for adding up described first solid fuel or described second solid fuel are described each
The time run in mixer, obtain described first solid fuel at the time T that described mixing section runsmα, or, described
Two solid fuels are at the time T that described mixing section runsmβ。
Alternatively, the first split time acquiring unit, or, described second split time acquiring unit, also include:
Bin-level metering instrument, is used for obtaining described first solid fuel or described second solid fuel enters described feed bin section
Time the initial controlling level of feed bin and blanking process in instantaneous controlling level;
According to the material position falling head in the difference unit of account time that bin-level measures the instantaneous controlling level that instrument is surveyed;
Feed bin section time acquisition unit, for according to described first solid fuel or described second solid fuel described instantaneous
Controlling level, and described initial controlling level, obtain the time T that described first solid fuel runs in described feed bin sectionmb α, or, the time T that described second solid fuel runs in described feed bin sectionmbβ。
Alternatively, the first split time acquiring unit, or, described second split time acquiring unit, also include:
Pallet velometer, for detecting described first solid fuel or described second solid fuel at described sintering stage
The instantaneous speed of service;
Sintering stage time acquisition unit, for according to described first solid fuel or described second solid fuel at described sintering
The instantaneous speed of service of section, and the length of default sintering stage, obtain described first solid fuel and run at described sintering stage
Time Tsα, or, described second solid fuel is at the time T that described sintering stage runssβ。
Alternatively, the first split time acquiring unit, or, described second split time acquiring unit, also include:
Cooler velometer, for detecting described first solid fuel or the described second solid fuel wink at described cooling section
Time the speed of service;
Cooling section time acquisition unit, for according to described first solid fuel or described second solid fuel in described cooling
The instantaneous speed of service of section, and the length of default cooling section, obtain described first solid fuel and run at described cooling section
Time Tcα, or, described second solid fuel is at the time T that described cooling section runscβ。
Alternatively, the first split time acquiring unit, or, described second split time acquiring unit, also include:
Finished product transport section velometer, is used for detecting described first solid fuel or described second solid fuel in the finished product section of transport
The instantaneous speed of service;
Finished product transport section time acquisition unit, for according to described first solid fuel or described second solid fuel at finished product
The instantaneous speed of service of transport section, and the length of default finished product transport section, obtain described first solid fuel at described one-tenth
The time T that product transport section is runcpα, or, the time T that described second solid fuel runs in described finished product transport sectioncpβ。
From above technical scheme, the embodiment of the present invention provides the measurement side of a kind of sintering deposit solid fuel specific consumption
Method and device, by obtaining the consumption of solid fuel in preset time period, and with the solid fuel in preset time period
The sintering deposit quantum of output that consumption is corresponding, the solid fuel specific consumption being calculated in preset time period.The present invention is real
Execute measuring method and the device of the sintering deposit solid fuel specific consumption that example provides, can not only accurately measure arbitrary measurement
Solid fuel consumption amount in time period, and can terminate and after output sintering deposit at the solid fuel that this time period consumes
Obtain the described solid fuel specific consumption measured in the time period in real time, consume solid required for i.e. every production unit sintering deposit
The amount of fluid fuel.
It addition, the measuring method of the sintering deposit solid fuel specific consumption of inventive embodiments offer and device, by grasping
The specific consumption of solid fuel in sintering process, can instruct the optimization of sintering deposit to produce, and reduces disappearing of solid fuel
Consumption.Further, the measuring method provided in the present invention and device, can automatically measure sintering deposit solid fuel unit consumption
Amount, saves in production sintering deposit technique, manpower required for the manual measurement sintering deposit solid fuel specific consumption,
Material resources and time, and then improve efficiency.
Accompanying drawing explanation
In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
In technology description, the required accompanying drawing used is briefly described, it should be apparent that, for those of ordinary skill in the art
Speech, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.
The flow process signal of the measuring method of a kind of sintering deposit solid fuel specific consumption that Fig. 1 provides for the embodiment of the present invention
Figure;
The schematic flow sheet of solid fuel consumption amount in the acquisition preset time period that Fig. 2 provides for the embodiment of the present invention;
The sintering deposit output that the acquisition that Fig. 3 provides for the embodiment of the present invention is corresponding with solid fuel consumption amount in preset time period
The schematic flow sheet of amount;
The structural representation of the measurement apparatus of a kind of sintering deposit solid fuel specific consumption that Fig. 4 provides for the embodiment of the present invention
Figure;
The structural representation of the solid fuel consumption amount acquiring unit that Fig. 5 provides for the embodiment of the present invention;
The structural representation of the sintering deposit quantum of output acquiring unit that Fig. 6 provides for the embodiment of the present invention.
Detailed description of the invention
For the technical scheme making those skilled in the art be more fully understood that in the present invention, implement below in conjunction with the present invention
Accompanying drawing in example, is clearly and completely described the technical scheme in the embodiment of the present invention, it is clear that described reality
Executing example is only a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, ability
The every other embodiment that territory those of ordinary skill is obtained under not making creative work premise, all should belong to this
The scope of invention protection.
The flow process signal of the measuring method of a kind of sintering deposit solid fuel specific consumption that Fig. 1 provides for the embodiment of the present invention
Figure, as it is shown in figure 1, comprise the following steps:
Step S101: obtain the solid fuel consumption amount in preset time period;
Sintering process consume solid fuel the dispensing stage, preset time period is set, such as: the morning one day 10:00 extremely
Between morning 11:00 one hour, obtains the solid fuel total amount of this internal consumption of one hour.
Step S102: obtain the sintering deposit quantum of output corresponding with the solid fuel consumption amount in preset time period;
Solid fuel at the internal consumption of hour participates in sintering process output sintering deposit, obtains this internal diabetes of one hour
The sintering process that participated in of solid fuel of consumption can the sintering deposit total amount of output.
Step S103: obtain solid fuel specific consumption;
Utilize solid fuel total amount that step S101 obtains and the ratio of the sintering deposit quantum of output that step S102 obtains,
Obtain the solid fuel specific consumption within presetting hour.
In another embodiment, as in figure 2 it is shown, above-mentioned steps S101 may comprise steps of:
Step S110: obtain the initial time T of preset time periodfbWith end time Tfe;
Obtain the initial time T of preset time periodfbWith end time Tfe, as above in example, preset time period is the morning of one day
Between 10:00 to morning 11:00 one hour, initial time TfbFor the 10:00 in the morning of one day, end time Tfe
11:00 in the morning for this day.
Step S120: the instantaneous consumption of solid fuel in detection preset time period;
Detect the instantaneous consumption of solid fuel in the dispensing stage of sintering process, such as, instantaneous time is set to 1 minute,
Then each minute interior solid fuel consumption amount in detection preset time period.
Step S130: obtain the solid fuel consumption amount in preset time period;
Initial time T according to preset time periodfbWith end time Tfe, and the instantaneous consumption integration of solid fuel obtains
Solid fuel consumption amount in preset time period.Such as, to the consumption of interior solid fuel per minute in preset time period
Inside it is integrated, i.e. adds up the consumption of interior solid fuel per minute, obtain the consumption of solid fuel in preset time period,
Integral formula is as follows:
In formula: FConsume is the consumption of solid fuel, W in preset time periodfFor solid fuel in preset time period
Instantaneous consumption, dt is instantaneous time, TfbFor the initial time of preset time period, TfeDuring for the termination of preset time period
Carve.
In another embodiment, as it is shown on figure 3, above-mentioned steps S102 may comprise steps of:
Step S210: obtain very first time Tα;
Obtain initial time TfbThe first solid fuel consumed is produced the first sintering deposit of correspondence after sintering process and is needed
The very first time T wantedα, such as, the solid fuel that initial time 10:00 consumes, after each stage of sintering process,
Producing sintering deposit, the solid fuel of this initial time consumption is the very first time in the time of each stage running of sintering process
Tα。
Step S220: obtain the second time Tβ;
Obtain described end time TfeThe second of correspondence produced after described sintering process by the second solid fuel consumed
The second time T that sintering deposit needsβ, such as, the solid fuel that end time 11:00 consumes, each through sintering process
After the individual stage, producing sintering deposit, the solid fuel that this end time consumes is in the time of each stage running of sintering process
It is the second time Tβ。
Step S230: obtain initial output moment Tsb;
According to initial time TfbThe very first time T obtained with step S210α, it is calculated the first solid fuel and produces
The initial output moment T of one sintering depositsb, i.e. Tsb=Tfb+Tα, such as, the very first time T that step S210 obtainsαFor
2 hours, initial time TfbFor 10:00, it is calculated initial output moment TsbFor 12:00.
Step S240: obtain terminating output moment Tse;
According to end time TfeThe the second time T obtained with step S220β, it is calculated the second solid fuel and produces
The termination output moment T of two sintering depositsse, i.e. Tse=Tfe+Tβ, such as, the second time T that step S220 obtainsβFor
2.5 hours, end time TfeFor 11:00, it is calculated termination output moment TseFor 13:30.
Step S250: the instantaneous quantum of output of detection sintering deposit;
The initial output moment T of detectionsbTo terminating output moment TseTime period in, the instantaneous quantum of output of sintering deposit, such as,
Instantaneous time is set to 1 minute, then the quantum of output of each minute interior sintering deposit in detection preset time period.
Step S260: obtain the sintering deposit quantum of output corresponding with the solid fuel amount in preset time period;
Utilize described initial output moment TsbWith described termination output moment Tse, and the instantaneous quantum of output of described sintering deposit
Obtain the sintering deposit quantum of output corresponding with the solid fuel amount in described preset time period.
Initial output moment T according to preset time periodsbWith termination output moment Tse, and the instantaneous quantum of output of sintering deposit
Integration obtains the sintering deposit quantum of output corresponding with the solid fuel amount in preset time period.Such as, to interior sintering deposit per minute
Quantum of output at initial output moment TsbWith termination output moment TseBetween time period in be integrated, i.e. add up every point
The quantum of output of sintering deposit in clock, obtains the sintering deposit quantum of output corresponding with the solid fuel amount in preset time period, and integration is public
Formula is as follows:
In formula: SProduct is the sintering deposit quantum of output corresponding with the solid fuel amount in preset time period, WsFor sintering
The instantaneous quantum of output in ore deposit, dt is instantaneous time, TsbFor the initial output moment of sintering deposit, TseTermination output for sintering deposit
Moment.
In another embodiment, segmentation obtains very first time Tα;
Obtain the first solid fuel time T that dispensing section is run in sintering processpα, at the time T that mixing section runsmα,
At the time T that feed bin section is runmbα, at the time T that sintering stage runssα, at the time T that cooling section runscα, Yi Ji
The time T that finished product transport section is runcpα;
The time T that dispensing section is runpα, mixing section run time Tmα, feed bin section run time Tmbα, sintering stage
The time T runsα, cooling section run time TcαThe time T run with finished product transport sectioncpαIt is added, it is thus achieved that when first
Between Tα。
In another embodiment, segmentation obtains the second time Tβ;
Obtain the second solid fuel time T that dispensing section is run in sintering processpβ, at the time T that mixing section runsmβ,
At the time T that feed bin section is runmbβ, at the time T that sintering stage runssβ, in the running time T of cooling sectioncβ, Yi Ji
The time T that finished product transport section is runcpβ;
The time T that dispensing section is runpβ, mixing section run time Tmβ, feed bin section run time Tmbβ, sintering stage
The time T runsβ, cooling section run time TcβThe time T run with finished product transport sectioncpβIt is added, it is thus achieved that when second
Between Tβ。
In another embodiment, the first solid fuel time T that dispensing section is run in sintering process is obtainedpα,
Or, obtain the second solid fuel time T that dispensing section is run in described sintering processpβ;
Dispensing section is transported solid fuel by multiple belts, detects the length of every belt and the instantaneous velocity of belt-conveying, when
When the time integral of the instantaneous velocity of certain belt-conveying is equal to the length of this belt, obtain solid fuel on this belt
The operation time, the accumulative solid fuel operation time on all belts, solid fuel dispensing in sintering process can be drawn
The time of Duan Yunhang, such as, utilize the product of instantaneous time and certain belt-conveying instantaneous velocity, it can be deduced that instantaneous time
Interior solid fuel range ability on this belt, accumulative range ability, during until range ability is equal to the length of this belt,
Stop accumulative, obtain now accumulative instantaneous time, be the time that solid fuel runs on this belt, according to above-mentioned
Mode adds up the time that solid fuel runs on all belts, and i.e. solid fuel is at the time of the operation of dispensing section, integration
Formula is as follows:
In formula, i is dispensing section i-th belt, LP[i] is the transportation lengths of i-th belt, VP[i] is i-th skin
The instantaneous velocity of band transport, tp[i] is solid fuel haulage time on i-th belt, NpFor the quantity of belt, Tp
The time that the total time run on dispensing section belt for solid fuel, i.e. dispensing section are run;
According to above formula, it is calculated the first solid fuel time T that dispensing section is run in sintering processpα, or, second
The solid fuel time T that dispensing section is run in sintering processpβ。
In another embodiment, the first solid fuel time T that mixing section runs in sintering process is obtainedmα,
Or, obtain the second solid fuel time T that mixing section runs in sintering processmβ;
The sintering feed including solid fuel that mixing section is transported by multiple mixer mix sections, detects solid fuel
The operation time in each mixer, it is calculated by equation below:
In formula, i is i-th mixer, tmFor solid fuel in the operation time of i-th mixer, L is mixing
The effective length of machine, π is pi, DeFor effective internal diameter of mixer, η is rotating speed in mixing machine barrel, and β is for advancing
Angle, NmFor the quantity of mixer, TmThe total time run in mixer for solid fuel, i.e. mixing section run time
Between;
According to above formula, it is calculated the first solid fuel time T that mixing section runs in sintering processmα, or, obtain
The second solid fuel time T that mixing section runs in sintering processmβ。
In another embodiment, the first solid fuel time T that feed bin section is run in sintering process is obtainedsα,
Or, obtain the second solid fuel time T that feed bin section is run in sintering processsβ;
Feed bin is a duplex channel, and solid fuel, after mixing section mixes, enters feed bin, and be input in feed bin is mixed
Close the material feeding filling as feed bin;Compound is delivered to next sintering stage by feed bin, makees from the compound of feed bin output
Blanking consumption for feed bin;
The controlling level of feed bin when detection solid fuel enters feed bin, solid fuel enters initial controlling level during feed bin
For solid fuel at the running length of feed bin, obtain the compound instantaneous blanking height in feed bin, when accumulative instantaneous under
When material height sum enters material position during feed bin equal to solid fuel, solid fuel end of run in feed bin is described,
Accumulative instantaneous time is the solid fuel operation time in feed bin, and, according to conservation of matter principle, upper one
The controlling level of instantaneous time and upper doses sum are equal to current controlling level and discharge quantity sum, such as following formula:
ML[1]+Win=ML [2]+Wout
Wout=Win+(ML[1]-ML[2])
In formula, MlinitBeing the first position of expecting when the first solid fuel or the second solid fuel entrance feed bin, ML [1] is upper
The controlling level of one instantaneous time, ML [2] is current controlling level, WinFor upper doses, WinRead by belt conveyer scale
Instantaneous value, for known quantity, WoutFor discharge quantity, TmbIt is initial when entering feed bin of the first solid fuel or the second solid fuel
The material position operation time in feed bin;
According to above formula, it is calculated the time T that the first solid fuel runs in feed bin sectionmbα, or, the second solid fuel exists
The time T that feed bin section is runmbβ。
In another embodiment of the present invention, the time T that the first solid fuel runs is obtained at sintering process sintering stagesα,
Or, obtain the second solid fuel time T that sintering stage runs in sintering processsβ;
At sintering stage, feed bin the compound uniform spreading exported carries out sintering work, detection sintering platform on sintering pallet
Distance between upper shots and the blanking point of car, and the instantaneous speed of service of pallet, when the instantaneous speed of service
Between integration equal on pallet during distance between shots and blanking point, available solid fuel is when the operation of sintering stage
Between, such as, utilize the instantaneous speed of service of pallet and the product of instantaneous time, sintering platform in available instantaneous time
The range ability of car, the range ability of pallet in accumulative instantaneous time, until range ability is equal to pallet feeding
When putting the distance between blanking point, obtain now accumulative instantaneous time, be solid fuel when the operation of sintering stage
Between, integral formula is as follows:
In formula, LsFor distance between shots and blanking point on pallet, VsFor the instantaneous speed of service of pallet,
TsFor solid fuel in operation time of sintering stage;
It is calculated the first solid fuel at the time T that sintering stage runs according to above formulasα, or, the second solid fuel is burning
The time T that knot section is runsβ。
In another embodiment of the present invention, the time T that the first solid fuel runs is obtained at sintering process cooling sectioncα,
Or, obtain the second solid fuel time T that cooling section runs in sintering processcβ;
The sintering deposit temperature produced through sintering process is higher, needs to cool down in central cooler, and detection sintering deposit is at ring
The length run in cold and the instantaneous speed of service of central cooler, when the time integral of the instantaneous speed of service is equal to sintering deposit
During the length run in central cooler, the sintering deposit operation time at cooling section can be obtained, such as, utilize central cooler
The instantaneous speed of service and the product of instantaneous time, can get sintering deposit range ability in central cooler in instantaneous time, tired
Sintering deposit range ability in central cooler in meter instantaneous time, until range ability runs in central cooler equal to sintering deposit
Length time, obtain now accumulative instantaneous time, be the sintering deposit operation time at cooling section, integral formula is as follows:
In formula, LcFor distance between shots and blanking point on pallet, VcFor the instantaneous speed of service of pallet,
TcFor solid fuel in operation time of sintering stage;
It is calculated the time T that the first solid fuel runs at sintering process cooling section according to above formulacα, or, obtain second
The solid fuel time T that cooling section runs in sintering processcβ。
In another embodiment of the present invention, obtain the first solid fuel in sintering process finished product transport section run time
Between Tcpα, or, obtain the second solid fuel time T that finished product transport section is run in sintering processcpβ;
Sintering deposit after cooling is transported to sintering deposit finished bin in finished product transport section by a plurality of belt, detects the length of every belt
Degree and the instantaneous velocity of belt-conveying, when the time integral of certain belt-conveying instantaneous velocity is equal to the length of belt,
To the sintering deposit finished product operation time on this belt, the accumulative sintering deposit finished product operation time on all belts, can obtain
Go out the sintering deposit finished product time that finished product transport section is run in sintering process, such as, utilize instantaneous time and certain belt-conveying
The product of instantaneous velocity, it can be deduced that sintering deposit finished product range ability on this belt in instantaneous time, accumulative run away from
From, during until range ability is equal to the length of this belt, stops accumulative, obtain now accumulative instantaneous time, be burning
The time that knot ore deposit finished product runs on this belt, add up that sintering deposit finished product runs on all belts in the manner described above time
Between, i.e. sintering deposit finished product is in the time of the operation of finished product transport section, and integral formula is as follows:
In formula, i is that finished product transports section i-th belt, Lcp[i] is the transportation lengths of i-th belt, Vcp[i] is
The instantaneous velocity of i belt-conveying, tcp[i] is sintering deposit finished product haulage time on i-th belt, NcpFor belt
Quantity, TcpThe total time run on finished product transport section belt for sintering deposit finished product, the time that i.e. finished product transport section is run;
It is calculated the first solid fuel time T that finished product transport section is run in sintering process according to above formulacpα, or, obtain
Take the second solid fuel time T that finished product transport section is run in sintering processcpβ。
The structural representation of the measurement apparatus of a kind of sintering deposit solid fuel specific consumption that Fig. 4 provides for the embodiment of the present invention
Figure, measures the solid fuel amount that in sintering process, output unit sintering deposit is consumed in real time, and this device includes:
Solid fuel consumption amount acquiring unit 410, for obtaining the solid fuel consumption amount in preset time period;
Sintering deposit quantum of output acquiring unit 420 is corresponding with the solid fuel consumption amount in described preset time period for obtaining
Sintering deposit quantum of output;
Solid fuel specific consumption computing unit 430, is used for utilizing described sintering deposit quantum of output and described solid fuel
The ratio of consumption is worth to solid fuel specific consumption.
In another embodiment, as it is shown in figure 5, above-mentioned solid fuel consumption amount acquiring unit 410 includes:
Measure time period acquiring unit 510, for obtaining the initial time T of described preset time periodfbWith end time Tfe;
Instantaneous consumption acquiring unit 520, the instantaneous consumption of solid fuel in detecting described preset time period;
Consumption acquiring unit 530, for according to described initial time TfbWith described end time Tfe, and described solid
The instantaneous consumption of fluid fuel obtains the solid fuel consumption amount in preset time period.
In another embodiment, as shown in Figure 6, above-mentioned sintering deposit quantum of output acquiring unit 420 includes:
First sintering time acquiring unit 610, is used for obtaining described initial time TfbThe first solid fuel consumed is through institute
The very first time T that the first sintering deposit of correspondence needs is produced after stating sintering processα;
Second sintering time acquiring unit 620, is used for obtaining described end time TfeThe second solid fuel consumed is through institute
The second time T that the second sintering deposit of correspondence needs is produced after stating sintering processβ;
Initial output moment acquiring unit 630, for according to described initial time TfbWith described very first time Tα, obtain
The initial output moment T of described first sintering deposit produced by described first solid fuelsb;
Terminate output moment acquiring unit 640, for according to described end time TfeWith described second time Tβ, obtain
The termination output moment T of described second sintering deposit produced by described second solid fuelse;
Instantaneous quantum of output acquiring unit 650, is used for detecting described initial output moment TsbTo described termination output moment Tse
Time period in, the instantaneous quantum of output of sintering deposit;
Quantum of output acquiring unit 660, is used for utilizing described initial output moment TsbWith described termination output moment Tse, with
And the instantaneous quantum of output of described sintering deposit obtains the sintering deposit output corresponding with the solid fuel amount in described preset time period
Amount.
In another embodiment, above-mentioned first sintering time acquiring unit 610 includes:
Very first time segmentation acquiring unit, is used for obtaining described first solid fuel dispensing section in described sintering process and runs
Time Tpα, at the time T that mixing section runsmα, at the time T that feed bin section is runmbα, in the time that sintering stage runs
Tsα, at the time T that cooling section runscα, and the time T run in finished product transport sectioncpα;
Very first time acquiring unit, for the time T described dispensing section runpα, mixing section run time Tmα, material
The time T that storehouse section is runmbα, sintering stage run time Tsα, cooling section run time TcαRun with finished product transport section
Time TcpαIt is added, it is thus achieved that described very first time Tα, Tα=Tpα+Tmα+Tmbα+Tsα+Tcα+Tcpα。
In another embodiment, above-mentioned second sintering time acquiring unit 620 includes:
Second time slice acquiring unit, is used for obtaining described second solid fuel dispensing section in described sintering process and runs
Time Tpβ, at the time T that mixing section runsmβ, at the time T that feed bin section is runmbβ, in the time that sintering stage runs
Tsβ, in the running time T of cooling sectioncβ, and the time T run in finished product transport sectioncpβ;
Second time acquisition unit, for the time T described dispensing section runpβ, mixing section run time Tmβ, material
The time T that storehouse section is runmbβ, sintering stage run time Tsβ, cooling section run time TcβRun with finished product transport section
Time TcpβIt is added, it is thus achieved that described second time Tβ, Tβ=Tpβ+Tmβ+Tmbβ+Tsβ+Tcβ+Tcpβ。
In another embodiment, above-mentioned very first time segmentation acquiring unit, or, the second time slice obtains single
Unit, including:
Dispensing section velometer, for detecting the described first solid fuel instantaneous speed of service in dispensing section, or, described the
Two solid fuels are in the instantaneous speed of service of dispensing section;
Dispensing section time acquisition unit, for according to described first solid fuel in the instantaneous speed of service of dispensing section, or,
Described second solid fuel is in the instantaneous speed of service of dispensing section, and the length of default dispensing section, obtains described first solid
The time T that fluid fuel runs in described dispensing sectionpα, or, the time that described second solid fuel runs in described dispensing section
Tpβ。
In another embodiment, above-mentioned first split time acquiring unit, or, described second split time obtains
Take unit, also include:
Mixer timer, for obtaining every at described mixing section of described first solid fuel or described second solid fuel
The time run in individual mixer;
Mixing section time acquisition unit, be used for adding up described first solid fuel or described second solid fuel are described each
The time run in mixer, obtain described first solid fuel at the time T that described mixing section runsmα, or, described
Two solid fuels are at the time T that described mixing section runsmβ。
In another embodiment, above-mentioned first split time acquiring unit, or, described second split time obtains
Take unit, also include:
Bin-level metering instrument, is used for obtaining described first solid fuel or described second solid fuel enters described feed bin section
Time feed bin controlling level;
According to the material position falling head in the difference unit of account time that bin-level measures the instantaneous controlling level that instrument is surveyed;
Feed bin section time acquisition unit, for according to described first solid fuel or described second solid fuel described instantaneous
Controlling level, and described initial controlling level, obtain the time T that described first solid fuel runs in described feed bin sectionmb α, or, the time T that described second solid fuel runs in described feed bin sectionmbβ。
In another embodiment, above-mentioned second split time acquiring unit, also include:
Pallet velometer, for detecting described first solid fuel or described second solid fuel at described sintering stage
The instantaneous speed of service;
Sintering stage time acquisition unit, for according to described first solid fuel or described second solid fuel at described sintering
The instantaneous speed of service of section, and the length of default sintering stage, obtain described first solid fuel and run at described sintering stage
Time Tsα, or, described second solid fuel is at the time T that described sintering stage runssβ。
In another embodiment, above-mentioned first split time acquiring unit, or, described second split time obtains
Take unit, also include:
Cooler velometer, for detecting described first solid fuel or the described second solid fuel wink at described cooling section
Time the speed of service;
Cooling section time acquisition unit, for according to described first solid fuel or described second solid fuel in described cooling
The instantaneous speed of service of section, and the length of default cooling section, obtain described first solid fuel and run at described cooling section
Time Tcα, or, described second solid fuel is at the time T that described cooling section runscβ。
In another embodiment, above-mentioned first split time acquiring unit, or, described second split time obtains
Take unit, also include:
Finished product transport velometer, for detecting described first solid fuel or described second solid fuel in finished product transport section
The instantaneous speed of service;
Finished product haulage time acquiring unit, for transporting at finished product according to described first solid fuel or described second solid fuel
The instantaneous speed of service of defeated section, and the length of default finished product transport section, obtain described first solid fuel at described finished product
The time T that transport section is runcpα, or, the time T that described second solid fuel runs in described finished product transport sectioncpβ。
It should be noted that in this article, such as the relational terms of " first " and " second " or the like be used merely to by
One entity or operation separate with another entity or operating space, and not necessarily require or imply these entities or behaviour
Relation or the order of any this reality is there is between work.And, term " includes ", " comprising " or its any other become
Body is intended to comprising of nonexcludability, so that include the process of a series of key element, method, article or equipment not
Only include those key elements, but also include other key elements being not expressly set out, or also include for this process, side
The key element that method, article or equipment are intrinsic.In the case of there is no more restriction, by statement " including ... "
The key element limited, it is not excluded that there is also other phase in including the process of described key element, method, article or equipment
Same key element.
The above is only the detailed description of the invention of the present invention, makes to skilled artisans appreciate that or realize the present invention.
Multiple amendment to these embodiments will be apparent to one skilled in the art, and as defined herein one
As principle can realize in other embodiments without departing from the spirit or scope of the present invention.Therefore, this
The bright the embodiments shown herein that is not intended to be limited to, and be to fit to and principles disclosed herein and features of novelty
The widest consistent scope.
Claims (18)
1. a measuring method for sintering deposit solid fuel specific consumption, measures output unit in sintering process in real time
The solid fuel amount that sintering deposit is consumed, it is characterised in that including:
Obtain the solid fuel consumption amount in preset time period;
Obtain the sintering deposit quantum of output corresponding with the solid fuel consumption amount in described preset time period;
The ratio utilizing described sintering deposit quantum of output and described solid fuel consumption amount is worth to solid fuel specific consumption;
Obtain the solid fuel consumption amount in preset time period, including:
Obtain the initial time T of described preset time periodfbWith end time Tfe;
Detect the instantaneous consumption of solid fuel in described preset time period;
According to described initial time TfbWith described end time Tfe, and the instantaneous consumption of described solid fuel obtains pre-
If the solid fuel consumption amount in the time period;
Obtain the sintering deposit quantum of output corresponding with the solid fuel amount in described preset time period, including:
Obtain described initial time TfbThe first of correspondence produced after described sintering process by the first solid fuel consumed
The very first time T that sintering deposit needsα;
Obtain described end time TfeThe second of correspondence produced after described sintering process by the second solid fuel consumed
The second time T that sintering deposit needsβ;
According to described initial time TfbWith described very first time Tα, obtain described first solid fuel and produce described first
The initial output moment T of sintering depositsb, described Tsb=Tfb+Tα;
According to described end time TfeWith described second time Tβ, obtain described second solid fuel and produce described second
The termination output moment T of sintering depositse, described Tse=Tfe+Tβ;
Detect described initial output moment TsbTo described termination output moment TseTime period in the instantaneous quantum of output of sintering deposit;
Utilize described initial output moment TsbWith described termination output moment Tse, and the instantaneous quantum of output of described sintering deposit
Obtain the sintering deposit quantum of output corresponding with the solid fuel amount in described preset time period.
Method the most according to claim 1, it is characterised in that obtain described initial time TfbFirst consumed is solid
Fluid fuel produces the very first time T that the first sintering deposit of correspondence needs after described sintering processα, including:
Obtain the described first solid fuel time T that dispensing section is run in described sintering processpα, when mixing section runs
Between Tmα, at the time T that feed bin section is runmbα, at the time T that sintering stage runssα, at the time T that cooling section runscα,
And the time T in finished product transport section operationcpα;
The time T that described dispensing section is runpα, mixing section run time Tmα, feed bin section run time Tmbα, burn
The time T that knot section is runsα, cooling section run time TcαThe time T run with finished product transport sectioncpαIt is added, it is thus achieved that institute
State very first time Tα, described Tα=Tpα+Tmα+Tmbα+Tsα+Tcα+Tcpα。
Method the most according to claim 1, it is characterised in that obtain described end time TfeSecond consumed is solid
Fluid fuel produces the second time T that the second sintering deposit of correspondence needs after described sintering processβ, including:
Obtain the described second solid fuel time T that dispensing section is run in described sintering processpβ, when mixing section runs
Between Tmβ, at the time T that feed bin section is runmbβ, at the time T that sintering stage runssβ, in the running time T of cooling sectioncβ,
And the time T in finished product transport section operationcpβ;
The time T that described dispensing section is runpβ, mixing section run time Tmβ, feed bin section run time Tmbβ, burn
The time T that knot section is runsβ, cooling section run time TcβThe time T run with finished product transport sectioncpβIt is added, it is thus achieved that institute
State the second time Tβ, described Tβ=Tpβ+Tmβ+Tmbβ+Tsβ+Tcβ+Tcpβ。
The most according to the method in claim 2 or 3, it is characterised in that obtain described first solid fuel in described burning
The time T that in knot technique, dispensing section is runpα, or, obtain described second solid fuel dispensing Duan Yun in described sintering process
The time T of rowpβ, including:
Detect the described first solid fuel instantaneous speed of service in dispensing section, or, described second solid fuel is in dispensing section
The instantaneous speed of service;
According to described first solid fuel in the instantaneous speed of service of dispensing section, or, described second solid fuel is in dispensing section
The instantaneous speed of service, and the length of default dispensing section, obtain what described first solid fuel ran in described dispensing section
Time Tpα, or, the time T that described second solid fuel runs in described dispensing sectionpβ。
The most according to the method in claim 2 or 3, it is characterised in that obtain described first solid fuel in described burning
The time T that in knot technique, mixing section runsmα, or, obtain described second solid fuel mixing section fortune in described sintering process
The time T of rowmβ, including:
Obtain described first solid fuel or time described second solid fuel runs in each mixer of described mixing section
Between;
The time that cumulative described first solid fuel or described second solid fuel run in described each mixer, obtain
Described first solid fuel is at the time T that described mixing section runsmα, or, described second solid fuel is transported at described mixing section
The time T of rowmβ。
The most according to the method in claim 2 or 3, it is characterised in that obtain described first solid fuel in described burning
The time T that in knot technique, feed bin section is runmbα, or, obtain described second solid fuel feed bin section in described sintering process
The time T runmbβ, including:
When obtaining described first solid fuel or the described second solid fuel described feed bin section of entrance, the first position of expecting of feed bin is high
Degree;
Detect described first solid fuel or the described second solid fuel instantaneous controlling level at described feed bin;
According to described first solid fuel or described second solid fuel at the instantaneous controlling level of described feed bin and described
Initial controlling level, obtains the time T that described first solid fuel runs in described feed bin sectionmbα, or, described second is solid
The time T that fluid fuel runs in described feed bin sectionmbβ。
The most according to the method in claim 2 or 3, it is characterised in that obtain described first solid fuel in described burning
The time T that in knot technique, sintering stage runssα, or, obtain described second solid fuel sintering stage fortune in described sintering process
The time T of rowsβ, including:
Detect described first solid fuel or the described second solid fuel instantaneous speed of service at described sintering stage;
According to described first solid fuel or described second solid fuel in the instantaneous speed of service of described sintering stage, and in advance
If the length of sintering stage, obtain described first solid fuel at the time T that described sintering stage runssα, or, described second is solid
Fluid fuel is at the time T that described sintering stage runssβ。
The most according to the method in claim 2 or 3, it is characterised in that obtain described first solid fuel in described burning
The time T that in knot technique, cooling section runscα, or, obtain described second solid fuel cooling section fortune in described sintering process
The time T of rowcβ, including:
Detect described first solid fuel or the described second solid fuel instantaneous speed of service at described cooling section;
According to described first solid fuel or described second solid fuel in the instantaneous speed of service of described cooling section, and in advance
If the length of cooling section, obtain described first solid fuel at the time T that described cooling section runscα, or, described second is solid
Fluid fuel is at the time T that described cooling section runscβ。
The most according to the method in claim 2 or 3, it is characterised in that obtain described first solid fuel in described burning
The time T that in knot technique, finished product transport section is runcpα, or, obtain described second solid fuel and become in described sintering process
The time T that product transport section is runcpβ, including:
Detect described first solid fuel or the described second solid fuel instantaneous speed of service in finished product transport section;
According to described first solid fuel or described second solid fuel in the instantaneous speed of service of finished product transport section, and in advance
It is set as the length of product transport section, obtains the time T that described first solid fuel runs in described finished product transport sectioncpα, or,
The time T that described second solid fuel runs in described finished product transport sectioncpβ。
10. a measurement apparatus for sintering deposit solid fuel specific consumption, measures output list in sintering process in real time
The solid fuel amount that position sintering deposit is consumed, it is characterised in that including:
Solid fuel consumption amount acquiring unit, for obtaining the solid fuel consumption amount in preset time period;
Sintering deposit quantum of output acquiring unit, for obtaining the burning corresponding with the solid fuel consumption amount in described preset time period
Knot mineral products output;
Solid fuel specific consumption computing unit, is used for utilizing described sintering deposit quantum of output and described solid fuel consumption
The ratio of amount is worth to solid fuel specific consumption;
Solid fuel consumption amount acquiring unit, including:
Measure time period acquiring unit, for obtaining the initial time T of described preset time periodfbWith end time Tfe;
Instantaneous consumption acquiring unit, the instantaneous consumption of solid fuel in detecting described preset time period;
Consumption acquiring unit, for according to described initial time TfbWith described end time Tfe, and the combustion of described solid
The instantaneous consumption of material obtains the solid fuel consumption amount in preset time period;
Sintering deposit quantum of output acquiring unit, including:
First sintering time acquiring unit, is used for obtaining described initial time TfbThe first solid fuel consumed is through described burning
The very first time T that the first sintering deposit of correspondence needs is produced after knot techniqueα;
Second sintering time acquiring unit, is used for obtaining described end time TfeThe second solid fuel consumed is through described burning
The second time T that the second sintering deposit of correspondence needs is produced after knot techniqueβ;
Initial output moment acquiring unit, for according to described initial time TfbWith described very first time Tα, obtain described
The initial output moment T of described first sintering deposit produced by first solid fuelsb, described Tsb=Tfb+Tα;
Terminate output moment acquiring unit, for according to described end time TfeWith described second time Tβ, obtain described
The termination output moment T of described second sintering deposit produced by second solid fuelse, described Tse=Tfe+Tβ;
Instantaneous quantum of output acquiring unit, is used for detecting described initial output moment TsbTo described termination output moment TseBurning
Knot mineral products go out in the time period, the instantaneous quantum of output of sintering deposit;
Quantum of output acquiring unit, is used for utilizing described initial output moment TsbWith described termination output moment Tse, Yi Jisuo
The instantaneous quantum of output stating sintering deposit obtains and the sintering deposit quantum of output in the described sintering deposit output time period.
11. devices according to claim 10, it is characterised in that described first sintering time acquiring unit, including:
First split time acquiring unit, is used for obtaining described first solid fuel dispensing section in described sintering process and runs
Time Tpα, at the time T that mixing section runsmα, at the time T that feed bin section is runmbα, in the time that sintering stage runs
Tsα, at the time T that cooling section runssα, and the time T run in finished product transport sectioncpα;
Very first time acquiring unit, for the time T described dispensing section runpα, mixing section run time Tmα, material
The time T that storehouse section is runmbα, sintering stage run time Tsα, cooling section run time TcαRun with finished product transport section
Time TcpαIt is added, it is thus achieved that described very first time Tα, described Tα=Tpα+Tmα+Tmbα+Tsα+Tcα+Tcpα。
12. devices according to claim 10, it is characterised in that described second sintering time acquiring unit, including:
Second split time acquiring unit, is used for obtaining described second solid fuel dispensing section in described sintering process and runs
Time Tpβ, at the time T that mixing section runsmβ, at the time T that feed bin section is runmbβ, in the time that sintering stage runs
Tsβ, in the running time T of cooling sectioncβ, and the time T run in finished product transport sectioncpβ;
Second time acquisition unit, for the time T described dispensing section runpβ, mixing section run time Tmβ, material
The time T that storehouse section is runmbβ, sintering stage run time Tsβ, cooling section run time TcβRun with finished product transport section
Time TcpβIt is added, it is thus achieved that described second time Tβ, described Tβ=Tpβ+Tmβ+Tmbβ+Tsβ+Tcβ+Tcpβ。
13. according to the device described in claim 11 or 12, it is characterised in that described first split time acquiring unit,
Or, described second split time acquiring unit, including:
Dispensing section velometer, for detecting the described first solid fuel instantaneous speed of service in dispensing section, or, described the
Two solid fuels are in the instantaneous speed of service of dispensing section;
Dispensing section time acquisition unit, for according to described first solid fuel in the instantaneous speed of service of dispensing section, or,
Described second solid fuel is in the instantaneous speed of service of dispensing section, and the length of default dispensing section, obtains described first solid
The time T that fluid fuel runs in described dispensing sectionpα, or, the time that described second solid fuel runs in described dispensing section
Tpβ。
14. according to the device described in claim 11 or 12, it is characterised in that described first split time acquiring unit,
Or, described second split time acquiring unit, also include:
Mixer timer, for obtaining every at described mixing section of described first solid fuel or described second solid fuel
The time run in individual mixer;
Mixing section time acquisition unit, be used for adding up described first solid fuel or described second solid fuel are described each
The time run in mixer, obtain described first solid fuel at the time T that described mixing section runsmα, or, described
Two solid fuels are at the time T that described mixing section runsmβ。
15. according to the device described in claim 11 or 12, it is characterised in that described first split time acquiring unit,
Or, described second split time acquiring unit, also include:
Bin-level metering instrument, is used for obtaining described first solid fuel or described second solid fuel enters described feed bin section
Time the initial controlling level of feed bin and blanking process in the instantaneous controlling level of feed bin;
Feed bin section time acquisition unit, for according to described first solid fuel or described second solid fuel at described feed bin
Instantaneous controlling level, and described initial controlling level, obtain what described first solid fuel ran in described feed bin section
Time Tmbα, or, the time T that described second solid fuel runs in described feed bin sectionmbβ。
16. according to the device described in claim 11 or 12, it is characterised in that described first split time acquiring unit,
Or, described second split time acquiring unit, also include:
Pallet velometer, for detecting described first solid fuel or described second solid fuel at described sintering stage
The instantaneous speed of service;
Sintering stage time acquisition unit, for according to described first solid fuel or described second solid fuel at described sintering
The instantaneous speed of service of section, and the length of default sintering stage, obtain described first solid fuel and run at described sintering stage
Time Tsα, or, described second solid fuel is at the time T that described sintering stage runssβ。
17. according to the device described in claim 11 or 12, it is characterised in that described first split time acquiring unit,
Or, described second split time acquiring unit, also include:
Cooler velometer, for detecting described first solid fuel or the described second solid fuel wink at described cooling section
Time the speed of service;
Cooling section time acquisition unit, for according to described first solid fuel or described second solid fuel in described cooling
The instantaneous speed of service of section, and the length of default cooling section, obtain described first solid fuel and run at described cooling section
Time Tcα, or, described second solid fuel is at the time T that described cooling section runscβ。
18. according to the device described in claim 11 or 12, it is characterised in that described first split time acquiring unit,
Or, described second split time acquiring unit, also include:
Finished product transport velometer, for detecting described first solid fuel or described second solid fuel in finished product transport section
The instantaneous speed of service;
Finished product haulage time acquiring unit, for transporting at finished product according to described first solid fuel or described second solid fuel
The instantaneous speed of service of defeated section, and the length of default finished product transport section, obtain described first solid fuel at described finished product
The time T that transport section is runcpα, or, the time T that described second solid fuel runs in described finished product transport sectioncpβ。
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CN105956404B (en) * | 2016-05-11 | 2018-10-23 | 武汉钢铁有限公司 | A method of calculating the consumption of sinter iron material |
CN110186744B (en) * | 2019-04-12 | 2020-09-15 | 武汉钢铁有限公司 | Sintered solid fuel calorific value online rapid detection method and processing device |
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Non-Patent Citations (1)
Title |
---|
"烧结(火用)耗和烧结焦比计算建模方法研究";王芳;《中国优秀硕士学位论文全文数据库》;20140615(第6期);第19页 * |
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