CN102816577A - Coal-rock blending method suitable for tamping coking - Google Patents

Abstract

The invention relates to a coal-rock blending method suitable for tamping coking. The technical scheme includes: step one, subjecting single coal for coking to detection of processes and coal-rock properties and calculating an active-idle ratio A/I; step two, matching according to the active-idle ratio A/I, the maximum mean reflectivity of vitrinite and distribution proportion of random reflectivity Re of the vitrinite, and if the A/I of blended coal after blending is 2.0-2.5, 1.00-1.40%, and distribution histogram of the random reflectivity Re of the vitrinite of the blended coal is continuous, then starting step four; step three, repeating the step two if the conditions are not met; step four, taking blended coal samples for detection of the maximum thickness of gelatinous layer Y value, if the Y value ranges from 10mm to 15mm, then completing the coal blending; step five, if the Y value is not between 10mm to 15mm, circulating the step two; and step six, furnacing for coking after tamping, wherein the tamping density is 1.10-1.15g/cm3. The coal-rock blending method suitable for the tamping coking can refine the blended coal after the tamping coking, expand utilization range of coking coal resources and improve coke quality.

Description

A kind of coal petrography blending method that is applicable to tamping coking

Technical field

The invention belongs to coal petrography coal blending technical field, be specifically related to a kind of coal petrography blending method that is applicable to tamping coking.

Technical background

China's coking coal resource is abundant, but is main with high volatile coal (comprising bottle coal, 1/3 coking coal), and rich coal, coking coal, lean coal add together still less than 50% of coking coal reserves.Wherein, it is high sulphur coal that half the rich coal, lean coal are arranged approximately, and it is high-sulfur, dirty coal that 30% coking coal is arranged approximately, and resource situation has determined that China's high-quality caking coal is in short situation for a long time.Tamping coking technique as a kind of can increase high volatile in the coal blending, weak cohesiveness not even the caking coal amount of allocating into enlarge the method for coking feed coal. become a kind of sophisticated coke making process at present, extensively adopted both at home and abroad.

At present; Rely on technical analysis index, cohesiveness and coking property index to instruct and make coal-blending coking firm by ramming; Through study the influence that different blending ratios and different mass mixed coal produce tamping coking (Han Guang comes. tamping coking coal blending Study on Technology [J]. fuel and chemical industry; 2009; 40 (5): 21-23), in conjunction with the coking coal resource situation of day grand coking company, the experiment of design tamping coking has confirmed that tamping coking goes into that the stove moisture content of coal should be controlled at 11.0 ~ 14.0%, the fineness optimum controling range should be about 90%, the volatile matter span of control is 26 ~ 34%, gelatinous layer final contraction value (X value) is not less than 30mm, the Y value suits, and span of control is 11.0 ~ 17.0mm.Yet aforesaid method can not fundamentally solve problems such as unstable and other abnormal phenomenas of production that allocating into of mixed coal and non-traditional " coking coal " cause.

The coal petrography coal blending is exactly a random reflectance of vitrinite index of utilizing coal; Random reflectance of vitrinite distribution histogram and macerals combine other indexs to instruct the method for coal-blending coking, and external representative method has: the Thompson of U.S. Bethlehem Steel Company proposes

With the index of inertia ratio content IC as the prediction coke strenth; The J Marshall of British Steel Corporation utilizes content and these two parameters of reflectivity of total nonreactant, makes the intensity (M of sets of curves prediction coke ₄₀And M ₁₀), if when the coal on high coal rank is arranged in the coal blending, experimental formula capable of using is proofreaied and correct, thereby draws the prediction coke strenth of coal blending.Domestic representative method has: the average coking property index M B (Yao Zhaozhang of inerts e total amount ∑ I and active ingredient in the introducing coal blending; Zheng Mingdong. coking [M]. Beijing: metallurgical industry press, 2008:72-73), this method is an X-coordinate with ∑ I; MB is an ordinate zou; After the coke that obtains with the 200kg test furnace is done Micoud nurse drum test, the abrasive wear resistance curve such as remake out, predict coke strenth with this; Optimize three basic parameters that influence coke strenth---accurate active ingredient V with mathematical statistics method _t, random reflectance MV R _RanAnd standard deviation S (Ye Daomin, Xiao Wenzhao etc. the prediction of coal petrography coal blending and coke strenth [J]. fuel and chemical industry, 1998, (5): 233-236), set up the mathematical model of prediction coke strenth.Prove that through half industry and industrial production test predicated error is within the testing error of regulation.

In recent years; Domestic coal petrography coal blending technology grows a lot; Like " a kind of method of coal petrology coal blending " (CN200810048153.9) patented technology, its concrete steps: the first step, detect each single coking coal of planting, detect and comprise volatile matter, caking index G value, coke microstructure composition; Second goes on foot, designs each single blending ratio of planting coking coal, and satisfy: the coal blending coke: coarse grain is inlayed ﹥ 33%, inerts e 20-27%, and same sex structural constituent ﹤ 6%, the mixed coal volatile matter obtains blending ratio at 25-30%, obtains mixed coal; The 3rd goes on foot, gets coal blending pattern detection coal blending caking index G value; The 4th goes on foot, makes the following choice according to detected result: mixed coal caking index G value is between 75-82, and coal blending is accomplished; Or mixed coal caking index G value is not between 75-82, and circulation second goes on foot.This method can rationally be used each single coking coal of planting of special genetic.

" the coal petrography coal-blending coking method of production low reactivity, high-heat strength coke " be patented technology (ZL201010203653.1); Its concrete steps: 1) the coking coal of variant kind; Carry out index analysis, and the vitrinite reflectance of coal and the test of coal petrography component; 2) carry out proportioning in the interval ratio of the vitrinite reflectance different distributions of coal; 3) get coal blending pattern detection coal blending caking index G value, calculate component concentration V with coal blending vitrinite _tRatio (%); 4) the coal blending fusion is not than between 1.08-1.20, and circulation second goes on foot; 5) shove charge coking.Send the method that the coal blending refining high-heat performance metallurgical coke of blending ratio is recently confirmed in bright introducing fusion elsewhere, can the coking coal of special genetic rationally be used, coking coal resource is rationally used.

Though the method for above-mentioned coal petrography coal blending has many good qualities, only be applicable to top dress coking, not enough below existing for tamping coking, the one, the reasonable control problem that a large amount of low metamorphic grades and high rank coal are allocated into when not considering to make coal blending firm by ramming; The 2nd, do not take into full account the influence of active ingredient and inerts e to coking coal coking process; The 3rd, do not take into full account the random reflectance of vitrinite distribution histogram to the directive function in the coal-blending coking.

Summary of the invention

The purpose of this invention is to provide a kind of coal petrography blending method that is applicable to tamping coking, this method can become more meticulous the coal blending process, enlarge to use coking coal resource and improve coke quality.

For realizing above-mentioned purpose, the technical scheme that the present invention adopts may further comprise the steps:

The first step, coking is detected with macerals with single pit ash, volatile matter, full sulphur, caking index, plastometer indices, random reflectance of vitrinite Re distribution proportion, the maximum average reflectance

of vitrinite of planting, calculate work lazy the compare A/I of coking with single kind coal according to macerals.

Second step, carry out proportioning with single work of planting coal is lazy than A/I, the maximum average reflectance of vitrinite and random reflectance of vitrinite Re distribution proportion according to coking; If satisfy the work of the mixed coal after being mixed lazy than A/I be 2.0 ~ 2.5, the maximum average reflectance of vitrinite

of mixed coal is 1.00 ~ 1.40% continuous with the random reflectance of vitrinite Re distribution histogram of mixed coal, then carried out for the 4th step.

The 3rd step, if the work of the mixed coal of unmet after being mixed lazy than A/I be 2.0 ~ 2.5, the maximum average reflectance of vitrinite

of mixed coal is 1.00 ~ 1.40% continuous with the random reflectance of vitrinite Re distribution histogram of mixed coal, then circulated for second step.

The 4th step, the coal blending pattern detection maximum thickness of plastic layer Y value of getting mixed coal, if the maximum thickness of plastic layer Y value of the coal blending sample that is detected is between 10 ~ 15mm, then coal blending completion.

The 5th step is if the maximum thickness of plastic layer Y value of the coal blending sample that is detected not between 10 ~ 15mm, then circulated for second step.

The 6th goes on foot, makes firm by ramming back shove charge coking, and making density firm by ramming is 1.10 ~ 1.15g/cm ³

The work of the used single kind coal of said coking is lazy than A/I to be:

It is lazy than A/I=active component content/inert component content to live

Wherein: active component content=vitrinite+chitin group+1/3 half vitrinites;

Inert component content=silk quality group+2/3 half vitrinites+mineral group.

The X-coordinate of the random reflectance of vitrinite distribution histogram of the mixed coal after said being mixed is as 1 interval the random reflectance of vitrinite Re distribution range from 0.4% to 2.5% of mixed coal to be divided into 42 intervals with 0.05%; Ordinate zou is that the random reflectance of vitrinite Re of the mixed coal after being mixed is at each interval distribution proportion.

Owing to adopt technique scheme; The present invention is with ash content, full sulphur and the volatile matter controlling index as coal-blending coking; Is coal blending quality index system with single random reflectance of vitrinite Re that plants coal with macerals and maximum thickness of plastic layer Y value, make the random reflectance of vitrinite distribution histogram of mixed coal continuous, the maximum average reflectance of vitrinite

is 1.00 ~ 1.40%, work lazy than A/I be 2.0 ~ 2.5 with the maximum thickness of plastic layer Y value of mixed coal be 10 ~ 15mm.As adopt coal petrography blending method of the present invention; Allocate the weakly caking coal of 10 ~ 30wt%, the bottle coal of 10 ~ 25wt%, 1/3 coking coal of 10 ~ 15wt%, rich coal and coking coal, the lean coal of 10 ~ 25wt% and the meager coal of 0 ~ 5wt% of 20 ~ 35wt% into, the mixed coal after guaranteeing to be mixed make coke cold-performance M firm by ramming ₂₅＞85%, M ₁₀＜8.3%, hot performance CRI about 35%, CSR is about 50%.

Therefore, the present invention has the coal blending process that becomes more meticulous, enlarges the characteristics of using coking coal resource and improving coke quality.

Description of drawings

Fig. 1 is a mixed coal 1 of the present invention ^#The random reflectance of vitrinite distribution histogram;

Fig. 2 is a mixed coal 2 of the present invention ^#The random reflectance of vitrinite distribution histogram;

Fig. 3 is a mixed coal 3 of the present invention ^#The random reflectance of vitrinite distribution histogram;

Fig. 4 is a mixed coal 4 of the present invention ^#The random reflectance of vitrinite distribution histogram;

Fig. 5 is a mixed coal 5 of the present invention ^#The random reflectance of vitrinite distribution histogram;

Fig. 6 is a mixed coal 6 of the present invention ^#The random reflectance of vitrinite distribution histogram;

Fig. 7 is a mixed coal 7 of the present invention ^#The random reflectance of vitrinite distribution histogram;

Fig. 8 is a mixed coal 8 of the present invention ^#The random reflectance of vitrinite distribution histogram.

Embodiment

Below in conjunction with embodiment the present invention is made further detailed description, but these embodiment are the present invention is described and do not constitute limitation of the scope of the invention.

For avoiding repetition, the used single work of planting coal of earlier that this embodiment is related coking lazy than A/I be mixed after the random reflectance of vitrinite distribution histogram unification of mixed coal be described below, repeat no more among the embodiment.

The work of the used single kind coal of said coking is lazy than A/I to be:

It is lazy than A/I=active component content/inert component content to live

Wherein: active component content=vitrinite+chitin group+1/3 half vitrinites;

Inert component content=silk quality group+2/3 half vitrinites+mineral group.

The X-coordinate of the random reflectance of vitrinite distribution histogram of the mixed coal after said being mixed is as 1 interval the random reflectance of vitrinite Re distribution range from 0.4% to 2.5% of mixed coal to be divided into 42 intervals with 0.05%; Ordinate zou is that the random reflectance of vitrinite Re of the mixed coal after being mixed is at each interval distribution proportion.

Embodiment 1

A kind of coal petrography blending method that is applicable to tamping coking, this method may further comprise the steps:

The first step, according to national standard, to satisfying 12 kinds of mass of foundation single coal (coking coals 1 of planting ^#-coking coal 12 ^#) ash content, volatile matter, full sulphur, caking index and plastometer indices detect, detected result is as shown in table 1.

The single technologic properties of coal matter table of planting of table 1

Again to above-mentioned 12 kinds of single coal (coking coals 1 of planting ^#-coking coal 12 ^#) the maximum average reflectance of random reflectance of vitrinite Re distribution proportion, vitrinite

Detect with macerals, calculate coking according to macerals again and use the work of single kind coal lazy than A/I, detection and calculation result (random reflectance of vitrinite Re distribution proportion wherein is because data are numerous and jumbled, so do not enumerate) are as shown in table 2.

The single coal coal petrography property list of planting of table 2

Second step: lazy with the work of single kind coal than A/I, the maximum average reflectance of vitrinite according to the said 12 kinds of coking of the first step

Carry out proportioning with random reflectance of vitrinite Re distribution proportion, obtain the mixed coal 1 that is numbered as shown in table 3 ^#~ 3 ^#Blending ratio.

Table 3 mixed coal 1 ^#~ 3 ^#Blending ratio

Calculate the mixed coal 1 after being mixed respectively through method of weighted mean ^#~ 3 ^#Work lazy than A/I, mixed coal 1 ^#~ 3 ^#The maximum average reflectance of vitrinite And mixed coal 1 ^#~ 3 ^#Random reflectance of vitrinite Re distribution proportion, calculation result (mixed coal 1 wherein ^#~ 3 ^#Random reflectance of vitrinite Re distribution proportion since data numerous and jumbled, so do not enumerate) as shown in table 4.Then according to mixed coal 1 ^#~ 3 ^#Random reflectance of vitrinite Re distribution proportion draw successively like Fig. 1 ~ mixed coal 1 shown in Figure 3 ^#~ 3 ^#The random reflectance of vitrinite distribution histogram.

Table 4 mixed coal 1 ^#~ 3 ^#Work lazy than the maximum average reflectance of A/I and vitrinite

By table 4 and Fig. 1 ~ shown in Figure 3, the mixed coal 1 after being mixed ^#~ 3 ^#Work lazy than A/I satisfy 2.0 ~ 2.5, mixed coal 1 ^#~ 3 ^#The maximum average reflectance of vitrinite

Satisfy 1.00 ~ 1.40% with mixed coal 1 ^#~ 3 ^#Random reflectance of vitrinite Re distribution histogram satisfy condition for continuous, carried out for the 4th step.

The 4th goes on foot, gets mixed coal 1 ^#~ 3 ^#Its maximum thickness of plastic layer of coal blending pattern detection Y value, detected result is as shown in table 5, mixed coal 1 ^#With 3 ^#The Y value between 10 ~ 15mm, mixed coal 1 ^#With 3 ^#Coal blending accomplish mixed coal 1 ^#With 3 ^#Carried out for the 6th step.

Table 5 mixed coal 1 ^#~ 3 ^#Maximum thickness of plastic layer Y value

The 5th step, by shown in the table 5, mixed coal 2 ^#The maximum thickness of plastic layer Y value of coal blending sample not between 10 ~ 15mm, then mixed coal 2 ^#Second step of circulation.

Second step, lazy with the work of single kind coal than A/I, the maximum average reflectance of vitrinite according to coking

Carry out proportioning with random reflectance of vitrinite Re distribution proportion, promptly to mixed coal 2 ^#Former blending ratio adjust, adjusted blending ratio is numbered mixed coal 4 ^#, mixed coal 4 ^#Blending ratio as shown in table 6.

Table 6 mixed coal 4 ^#Blending ratio

Again through calculated with weighted average method mixed coal 4 ^#Work lazy than A/I, mixed coal 4 ^#The maximum average reflectance of vitrinite

With mixed coal 4 ^#Random reflectance of vitrinite Re distribution proportion, calculation result (mixed coal 4 wherein ^#Random reflectance of vitrinite Re distribution proportion since data numerous and jumbled, so do not enumerate) as shown in table 7; Then according to mixed coal 4 ^#The random reflectance of vitrinite Re distribution proportion mixed coal as shown in Figure 44 that draws ^#The random reflectance of vitrinite distribution histogram.

Table 7 mixed coal 4 ^#Work lazy than the maximum average reflectance of A/I and vitrinite

By table 7 and shown in Figure 4, the mixed coal 4 after the weighted mean ^#Satisfy the work of the mixed coal after being mixed lazy than A/I be 2.0 ~ 2.5, the maximum average reflectance of vitrinite of mixed coal

Be 1.00 ~ 1.40% continuous, carried out for the 4th step with the random reflectance of vitrinite Re distribution histogram of mixed coal.

The 4th goes on foot, gets mixed coal 4 ^#The coal blending sample to measure its maximum thickness of plastic layer Y value be 11.3, the Y value that is detected between 10 ~ 15mm, the coal blending completion.

The 6th the step, with mixed coal 1 ^#, mixed coal 3 ^#With mixed coal 4 ^#Make back shove charge coking firm by ramming, making density firm by ramming is 1.10 ~ 1.15g/cm ³, through the tamping coking industrial experiment, the coke number consecutively that obtains is a coke 1 ^#, coke 3 ^#With coke 4 ^#, the coke technological property is as shown in table 8.

Table 8 coke 1 ^#, 3 ^#With 4 ^#The technological property table

Embodiment 2

A kind of coal petrography blending method that is applicable to tamping coking, this method may further comprise the steps:

The first step, according to national standard, to satisfying 12 kinds of mass of foundation single coal (coking coals 1 of planting ^#~ coking coal 12 ^#) ash content, volatile matter, full sulphur, caking index and plastometer indices detect.

The used single technologic properties of coal matter of planting of present embodiment is identical with the first step of embodiment 1, and detected result is shown in the table 1 of embodiment 1.

Again to above-mentioned 12 kinds of single coal (coking coals 1 of planting ^#~ coking coal 12 ^#) the maximum average reflectance of random reflectance of vitrinite Re distribution proportion, vitrinite

Detect respectively with macerals, calculate coking according to macerals again and use the work of single kind coal lazy than A/I, detection and calculation result are shown in the table 2 of embodiment 1 the first step.

Second step: lazy with the work of single kind coal than A/I, the maximum average reflectance of vitrinite according to the said 12 kinds of coking of the first step

Carry out proportioning with random reflectance of vitrinite Re distribution proportion, obtain the mixed coal 5 that is numbered as shown in table 9 ^#~ 7 ^#Blending ratio.

Table 9 mixed coal 5 ^#~ 7 ^#Blending ratio

Calculate the mixed coal 5 after being mixed respectively through method of weighted mean ^#~ 7 ^#Work lazy than A/I, mixed coal 5 ^#~ 7 ^#The maximum average reflectance of vitrinite

And mixed coal 5 ^#~ 7 ^#Random reflectance of vitrinite Re distribution proportion, calculation result (mixed coal 5 wherein ^#~ 7 ^#Random reflectance of vitrinite Re distribution proportion since data numerous and jumbled, so do not enumerate) as shown in table 10.Then according to mixed coal 5 ^#~ 7 ^#Random reflectance of vitrinite Re distribution proportion draw successively like Fig. 5 ~ mixed coal 5 shown in Figure 7 ^#~ 7 ^#The random reflectance of vitrinite distribution histogram.

Table 10 mixed coal 5 ^#~ 7 ^#Work lazy than the maximum average reflectance of A/I and vitrinite

By table 10 and Fig. 5 ~ shown in Figure 7, the mixed coal 5 after being mixed ^#With mixed coal 6 ^#Satisfy to live lazy than A/I be 2.0 ~ 2.5, the maximum average reflectance of vitrinite of mixed coal

Be 1.00 ~ 1.40% with the random reflectance of vitrinite Re distribution histogram condition for continuous of mixed coal, carried out for the 4th step.

The 3rd the step, by shown in the table 10, the mixed coal 7 after being mixed ^#Not satisfying the work of mixed coal lazy is 2.0 ~ 2.5 than A/I, second step of circulation;

Second step, lazy with the work of single kind coal than A/I, the maximum average reflectance of vitrinite according to coking

Carry out proportioning with random reflectance of vitrinite Re distribution proportion, promptly to mixed coal 7 ^#Former blending ratio adjust, adjusted blending ratio is numbered mixed coal 8 ^#, mixed coal 8 ^#Blending ratio as shown in table 11.

Table 11 mixed coal 8 ^#Blending ratio

Again through calculated with weighted average method mixed coal 8 ^#Work lazy than A/I, mixed coal 8 ^#The maximum average reflectance of vitrinite

With mixed coal 8 ^#Random reflectance of vitrinite Re distribution proportion, calculation result (mixed coal 8 wherein ^#Random reflectance of vitrinite Re distribution proportion since data numerous and jumbled, so do not enumerate) as shown in table 12; Then according to mixed coal 8 ^#The random reflectance of vitrinite Re distribution proportion mixed coal as shown in Figure 88 that draws ^#The random reflectance of vitrinite distribution histogram.

Table 12 mixed coal 8 ^#It is lazy than the maximum average reflectance of A/I and vitrinite to live

By table 12 and shown in Figure 8, the mixed coal 8 after being mixed ^#Work lazy than A/I satisfy 2.0 ~ 2.5, mixed coal 8 ^#The maximum average reflectance of vitrinite

Satisfy 1.00 ~ 1.40% with mixed coal 8 ^#Random reflectance of vitrinite Re distribution histogram satisfy condition for continuous, carried out for the 4th step.

The 4th goes on foot, gets mixed coal 5 ^#, mixed coal 6 ^#With mixed coal 8 ^#Its maximum thickness of plastic layer of coal blending pattern detection Y value, detected result is as shown in table 13, mixed coal 5 ^#, mixed coal 6 ^#With mixed coal 8 ^#Maximum thickness of plastic layer Y value between 10 ~ 15mm, coal blending is accomplished, and carries out for the 6th step.

Table 13 mixed coal 5 ^#, 6 ^#With 8 ^#Maximum thickness of plastic layer Y value

The 6th the step, with mixed coal 5 ^#, mixed coal 6 ^#With mixed coal 8 ^#Make back shove charge coking firm by ramming, making density firm by ramming is 1.10 ~ 1.15g/cm ³, through the tamping coking industrial experiment, the coke number consecutively that obtains is a coke 5 ^#, coke 6 ^#With coke 8 ^#, the coke technological property is as shown in table 14.

Table 14 coke 5 ^#, 6 ^#With 8 ^#The technological property table

This embodiment is with ash content, full sulphur and the volatile matter controlling index as coal-blending coking; Is coal blending quality index system with single random reflectance of vitrinite Re that plants coal with macerals and maximum thickness of plastic layer Y value, make the random reflectance of vitrinite distribution histogram of mixed coal continuous, the maximum average reflectance of vitrinite

is 1.00 ~ 1.40%, work lazy than A/I be 2.0 ~ 2.5 with the maximum thickness of plastic layer Y value of mixed coal be 10 ~ 15mm.As adopt the coal petrography blending method of this embodiment; Allocate the weakly caking coal of 10 ~ 30wt%, the bottle coal of 10 ~ 25wt%, 1/3 coking coal of 10 ~ 15wt%, rich coal and coking coal, the lean coal of 10 ~ 25wt% and the meager coal of 0 ~ 5wt% of 20 ~ 35wt% into, the mixed coal after guaranteeing to be mixed make coke cold-performance M firm by ramming ₂₅＞85%, M ₁₀＜8.3%, hot performance CRI about 35%, CSR is about 50%.

Therefore, this embodiment has the coal blending process that becomes more meticulous, enlarges the characteristics of using coking coal resource and improving coke quality.

Claims (3)

1. coal petrography blending method that is applicable to tamping coking is characterized in that this method may further comprise the steps:

The first step, coking is detected with macerals with single pit ash, volatile matter, full sulphur, caking index, plastometer indices, random reflectance of vitrinite Re distribution proportion, the maximum average reflectance

of vitrinite of planting, calculate work lazy the compare A/I of coking with single kind coal according to macerals;

Second step, carry out proportioning with single work of planting coal is lazy than A/I, the maximum average reflectance

of vitrinite and random reflectance of vitrinite Re distribution proportion according to coking; If satisfy the work of the mixed coal after being mixed lazy than A/I be 2.0 ~ 2.5, the maximum average reflectance of vitrinite

of mixed coal is 1.00 ~ 1.40% continuous with the random reflectance of vitrinite Re distribution histogram of mixed coal, then carried out for the 4th step;

The 3rd step, if the work of the mixed coal of unmet after being mixed lazy than A/I be 2.0 ~ 2.5, the maximum average reflectance of vitrinite

of mixed coal is 1.00 ~ 1.40% continuous with the random reflectance of vitrinite Re distribution histogram of mixed coal, then circulated for second step;

The 4th step, the coal blending pattern detection maximum thickness of plastic layer Y value of getting mixed coal, if the maximum thickness of plastic layer Y value of the coal blending sample that is detected is between 10 ~ 15mm, then coal blending completion;

The 5th step is if the maximum thickness of plastic layer Y value of the coal blending sample that is detected not between 10 ~ 15mm, then circulated for second step;

The 6th goes on foot, makes firm by ramming back shove charge coking, and making density firm by ramming is 1.10 ~ 1.15g/cm ³

2. like the right 1 described coal petrography blending method that is applicable to tamping coking, it is characterized in that the used single work of planting coal of said coking is lazy and be than A/I:

It is lazy than A/I=active component content/inert component content to live

Wherein: active component content=vitrinite+chitin group+1/3 half vitrinites;

Inert component content=silk quality group+2/3 half vitrinites+mineral group.

3. like the right 1 described coal petrography blending method that is applicable to tamping coking, the X-coordinate that it is characterized in that the random reflectance of vitrinite distribution histogram of the mixed coal after said being mixed is as 1 interval the random reflectance of vitrinite Re distribution range from 0.4% to 2.5% of mixed coal to be divided into 42 intervals with 0.05%; Ordinate zou is that the random reflectance of vitrinite Re of the mixed coal after being mixed is at each interval distribution proportion.

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