CN103005703B - Cigarette designing method based on smoke perniciousness index - Google Patents
Cigarette designing method based on smoke perniciousness index Download PDFInfo
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Abstract
The invention provides a low-perniciousness cigarette designing method based on a smoke perniciousness index. The method comprises the following steps of: 1) acquiring the perniciousness index based on cigarette paper additive using amount, cigarette paper air permeability, receiving paper air permeability, filter stick pressure drop and swelled stem reference configuration; and 2) designing a cigarette based on the acquired perniciousness index. According to the technical scheme, in the cigarette production process, the smoke perniciousness index of a selected material formula is determined according to a relation model between perniciousness index and the cigarette paper additive using amount, the cigarette paper air permeability, the receiving paper air permeability, the filter stick pressure drop and the swelled stem reference configuration, so that the cigarette production target can be made according to an actual demand; the cigarettes meeting the requirement can be designed by taking the perniciousness index as an authentication index; and effects of reducing harm and tar can be well achieved by rationally adjusting components according to the relevance among parameters counted according to a smoke discharging relation model.
Description
Technical field
The present invention relates to Cigarette design field, particularly relate to a kind of Cigarette design method based on smoke hazard index.
Background technology
How reduce the harmful substance in cigarette smoke by effective means, improve cigarette quality, be the inside and outside common topic be concerned about of industry, be also main task and the focus of industry tackling of key scientific and technical problems always, this be also simultaneously I to cross in cigarette evolution must in the face of and the focal issue that solves.Each tobacco research institution is devoted to the research of this work always and achieves gratifying achievement, but still has achievement greatly to can not get application, reason be more the complexity of flue gas system and people to cigarette special suck requirement.
In existing research field, technical staff reviews 189 sections of open source literatures to people such as Paschke in cigarette, contains the influence research of 300 multiple additives to cigarette smoke character.They find different additive and add the impact of concentration on smoke components there are differences.In most cases, after some additive adds with its maximum addition in commercial cigarettes or excess (one addition is all ppm level), some smoke components has and increases or reduce.
But the design of cigarette also can exist and there is very large impact to the discharge of flue gas, therefore, science differentiates that the Cigarette design index such as cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop, expanded cut stem ginseng proportioning example is to the influence degree of flue gas composition burst size amount exactly, to judgement lowering harm and decreasing coking additive effect, improve cigarette product quality safety and have important practical significance.
In order to evaluate the flue gas composition burst size of kinds of cigarettes product, international ISO tissue establishes the puffing regimens that a set of standard defines smoking machine.But due to the individual difference of different personnel, the frequency of its pneusomete smoking cigarette is different, and therefore ISO organizes and indicates simultaneously, " any suction mode all can not represent the suction behavior of the mankind ".For this reason, ISO/TC126 tissue is drafted " except measuring except cigarette under the smoking machine puffing regimens that specifies at ISO 4387; also should test cigarette under a different puffing regimens ", to evaluate the maximum burst size of flue gas composition burst size under extreme case, and just formulates relevant criterion.According to this situation, many tobacco research workers expand research to this.But current research mainly concentrates on the impact analysis of Smoking regime change to flue gas composition burst size, only has small part research to relate to the impact analysis of cigarette material single index variation.
About Cigarette design indexs such as additive amount, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drops in cigarette paper on the impact of flue gas composition burst size amount, report in existing many research in the past, and have researcher to attempt setting up the regression equation between the adjustment of Cigarette design index parameter and flue gas composition burst size.But major part research is mainly limited to the effect that single index adjustment changes flue gas conventional constituents (tar, nicotine, flue gas), its conspicuousness changed is judged by means of only comparing with the simple, intuitive contrasting cigarette, can not by additive amount, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop in cigarette paper, expanded cut stem ginseng proportioning example waits the change of Cigarette design index to distinguish the fluctuation that impact and the experimental error of Chemical Components in Cigarette Smoke are brought, thus have impact on the accurate judgement of additive lowering harm and decreasing coking effect.Only have small part to research and analyse Cigarette design parameter mainly contains pest burst size impact on flue gas 7 kinds, or the synergistic effect of research multi objective.But existing about the analysis of multi objective synergy to flue gas evil components influence, but there are differences with the result of single index analysis.Therefore, additive amount, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop in cigarette paper is differentiated at present according to analysis result, expanded cut stem ginseng proportioning example is to the unfeasible way of the conventional fume indication influence degree of cigarette, and then have influence on the design of cigarette, make the design of cigarette more effectively cannot reach lowering harm and decreasing coking effect.
Summary of the invention
Goal of the invention of the present invention is the defect overcoming prior art, provides a kind of in production cigarette process, effectively can control the smoke discharge amount in flue gas, improve a kind of Cigarette design method based on smoke hazard index of production of cigarettes efficiency.
The further goal of the invention of the present invention is to provide a kind of Cigarette design method based on smoke hazard index can carrying out Cigarette design according to the harmfulness index of cigarette.
The present invention further goal of the invention is to provide a kind of Cigarette design method based on smoke hazard index that can realize at the control method carrying out providing each material in Cigarette design process according to the harmfulness index of cigarette.
In order to realize above-mentioned goal of the invention, the invention provides:
Based on a Cigarette design method for smoke hazard index, said method comprising the steps of:
1) step based on the harmfulness index chosen in arbitrary cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem ginseng dosage situation is obtained;
2) step of Cigarette design is carried out based on the harmfulness index obtained;
Wherein, the step obtaining harmfulness index comprises:
11) foundation is joined between dosage and harmfulness index based on cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem
relational modelstep;
12) arbitrary cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem ginseng dosage is chosen,
obtainthe step of harmfulness index.
Preferably, when not distinguishing tipping paper air permeability, described harmfulness index
relational model is:
X = 2.7453 + 10.2769 × b1 -(2.8497 × 10
-3)× b3 +(0.2182 × 10
-3)× b5 + 0.0878 × b6;
Wherein, X is harmfulness index, and b1 is additive amount in cigarette paper, and b3 is cigarette tipping paper air permeability, and b5 is filter stick pressure drop, and b6 is expanded cut stem ginseng dosage.
Preferably, during tipping paper air permeability (b3)=150CU:
X = 3.5396 – 15.0000 × b1 – 0.012187 × b2 +(0.3149 × 10
-5)× b4 -(0.6149 × 10
-3)× b5 + 1.1684 × b6;
Wherein b2 is air permeance for cigarette paper, and b4 is forming paper air permeability, and b5 is filter stick pressure drop, and b6 is expanded cut stem ginseng dosage.
Preferably, when tipping paper air permeability=300:
X = -1.4803 + 0.07451 × b2 +(1.5801 × 10
-3)× b5 – 2.9856 × b6;
Wherein b2 is air permeance for cigarette paper, and b5 is filter stick pressure drop, and b6 is expanded cut stem ginseng dosage.
Preferably, when tipping paper air permeability=450:
X = 3.13534 + 201.4085 × b1 - 0.02623 × b2 -(1.3008 × 10
-5)× b4 -(0.7816 × 10
-3)× b5 – 1.5757 × b6;
Wherein b1 is additive amount in cigarette paper, and b2 is air permeance for cigarette paper, and b4 is forming paper air permeability, and b5 is filter stick pressure drop, and b6 is expanded cut stem ginseng dosage.
Preferably, described step 2) in also comprise according to default rule, matching judgment carried out to the harmfulness index obtained, if harmfulness exponent character normally, corresponding parameter is adopted to carry out Cigarette design, if the rule of not meeting, then adjust in cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem ginseng dosage one or more until meet rule.
Preferably, described rule is: preset harmfulness index model value, is compared by harmfulness index and the model value obtained, and when the harmfulness index of acquisition is not more than model value, is then judged as meeting rule.
Preferably, the method of adjustment is obtain according to relational model the relevance that cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem join dosage and harmfulness index, then increases or reduce values one or more in cigarette Paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem ginseng dosage respectively according to described relevance.
Preferably, described method of adjustment is one or more following combinations: reduce cigarette paper additive consumption, raising tipping paper air permeability, reduce filter stick pressure drop, raising expanded cut stem is joined dosage, reduced air permeance for cigarette paper.
Compared with prior art, the invention has the advantages that:
Technical scheme of the present invention is by the production process of cigarette, adopt based on cigarette paper additive consumption, air permeance for cigarette paper, the fume emission relational model of tipping paper air permeability, to the determination of the harmfulness index of selected material formula, realization can formulate production of cigarettes target according to actual needs, index using harmfulness index as qualification, design the cigarette meeting demand, the adjustment of formula of material can also be carried out according to discharge relational model simultaneously, the cigarette designed is made further to meet the target of desired design, fundamentally control the discharge capacity of flue gas in cigarette, and without the need to improving existing process equipment and material, relevance reasonable adjusting component between the parameters that only need count on according to fume emission relational model, just can be good at reaching lowering harm and decreasing coking effect.
accompanying drawing explanation
Fig. 1 is the method flow diagram of embodiments of the invention 1;
Fig. 2 is the method flow diagram of embodiments of the invention 2.
Detailed description of the invention
Below in conjunction with specific embodiment, the invention will be further described.
As shown in Figure 1, the invention provides a kind of Cigarette design method based on smoke hazard index, said method comprising the steps of:
1) step based on the harmfulness index chosen in arbitrary cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem ginseng dosage situation is obtained;
2) step of Cigarette design is carried out based on the harmfulness index obtained;
Wherein, the step obtaining harmfulness index comprises:
11) step of joining the relational model between dosage and harmfulness index based on cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem is set up;
12) choose arbitrary cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem ginseng dosage, obtain the step of harmfulness index.
Embodiment 1
The statistics of data all in the present invention is all adopt from the domestic transformation standard of ISO 4387 with detecting, adopt prepare according to different materials design parameter demand, single-tobacco-typed cigarette cigarette product is laboratory sample.
The measurement standard of sample is: ISO regime scheme is according to GB/T 19609(ISO 4387 domestic transformation standard) regulation set: pumping volume, 35mL; Suction frequencies, 60s/ mouth; Artificially do not close filter stick air penetrability.
The detection of cigarette physical index, performs according to GB/T 22838.The mensuration of N-nitrosamine in flue gas gas phase, performs according to GB/T 23228-2008.
The physical parameter of each cigarette sample is in table 1
the parameter of table 1 cigarette laboratory sample
| Sample number into spectrum | Additive (citrate) consumption in cigarette paper | Air permeance for cigarette paper (CU) | Tipping paper air permeability (CU) | Forming paper air permeability (CU) | Filter stick pressure drop | Expanded cut stem ginseng is joined |
| 1 | 0.7% | 30 | 150 | 12000 | 800Pa | 10% |
| 2 | 0.7% | 60 | 150 | 12000 | 800Pa | 10% |
| 5 | 0.5% | 40 | 150 | 12000 | 800Pa | 10% |
| 6 | 0.7% | 40 | 150 | 12000 | 800Pa | 10% |
| 7 | 0.9% | 40 | 150 | 12000 | 800Pa | 10% |
| 8 | 0.7% | 40 | 300 | 12000 | 800Pa | 10% |
| 9 | 0.7% | 40 | 450 | 12000 | 800Pa | 10% |
| 10 | 0.7% | 40 | 150 | 6000 | 800Pa | 10% |
| 11 | 0.7% | 40 | 150 | 20000 | 800Pa | 10% |
| 12 | 0.7% | 40 | 150 | 32000 | 800Pa | 10% |
| 13 | 0.7% | 40 | 150 | 12000 | 700Pa | 10% |
| 14 | 0.7% | 40 | 150 | 12000 | 900Pa | 10% |
| 17 | 0.7% | 40 | 150 | 12000 | 800Pa | 5% |
| 18 | 0.7% | 40 | 150 | 12000 | 800Pa | 15% |
| 19 | 0.7% | 60 | 450 | 32000 | 700Pa | 5% |
| 20 | 0.7% | 60 | 450 | 20000 | 700Pa | 5% |
| 21 | 0.7% | 60 | 450 | 6000 | 900Pa | 15% |
| 22 | 0.9% | 60 | 450 | 6000 | 700Pa | 15% |
| 23 | 0.7% | 30 | 300 | 20000 | 900Pa | 5% |
| 24 | 0.7% | 30 | 300 | 6000 | 700Pa | 15% |
| 25 | 0.9% | 30 | 300 | 6000 | 900Pa | 5% |
In above-mentioned, based on choosing arbitrary cigarette paper additive consumption, air permeance for cigarette paper, filter stick pressure drop and expanded cut stem ginseng dosage when different tipping paper air permeability, the relational model according to above-mentioned parameters and harmfulness index is measured:
Each cigarette material design parameter affects Analyzing on Size
X = 2.7453 + 10.2769 × b1 -(2.8497 × 10
-3)× b3 +(0.2182 × 10
-3)× b5 + 0.0878 × b6;
Analyze above regression equation can know: 1. cigarette tipping paper air permeability (b3), maximum to smoke hazard exponential effect, improve b3 value and can effectively reduce smoke hazard index.2. reduce additive (citrate) consumption (b1) and filter stick pressure drop (b5) and other pipe tobacco (expanded cut stem) in cigarette paper and join dosage (b6), smoke hazard index can be reduced.3. air permeance for cigarette paper (b2) and forming paper air permeability (b4), little to smoke hazard exponential effect.
Specific embodiment 2
Based on the content described in embodiment 1, when tipping paper air permeability (b3) is different, can described relational model further be improved to optimize acquisition result, particularly in one embodiment, as tipping paper air permeability (b3)=150CU, described relational model can be as follows:
X = 3.5396 – 15.0000 × b1 – 0.012187 × b2 +(0.3149 × 10
-5)× b4 -(0.6149 × 10
-3)× b5 + 1.1684 × b6
Analyze above regression equation can know: 1. as tipping paper air permeability lower (b3=150CU), improve additive (citrate) consumption (b1), air permeance for cigarette paper (b2) and filter stick pressure drop (b5) in cigarette paper, harmfulness exponential quantity can be reduced.2., as tipping paper air permeability lower (b3=150CU), reduce other pipe tobacco (expanded cut stem) and join dosage (b6), harmfulness exponential quantity can be reduced.
Specific embodiment 3
Based on the content described in embodiment 1, when tipping paper air permeability (b3) is different, can described relational model further be improved to optimize acquisition result, particularly in one embodiment, when tipping paper air permeability=300, described relational model can be as follows:
X = -1.4803 + 0.07451 × b2 +(1.5801 × 10
-3)× b5 – 2.9856 × b6
Analyze above regression equation can know: 1. when tipping paper air permeability is medium (b3=300CU), reduce air permeance for cigarette paper (b2) and filter stick pressure drop (b5), harmfulness exponential quantity can be reduced.2., as tipping paper air permeability lower (b3=300CU), improve other pipe tobacco (expanded cut stem) and join dosage (b6), harmfulness exponential quantity can be reduced.
Specific embodiment 4
Based on the content described in embodiment 1, when tipping paper air permeability (b3) is different, can described relational model further be improved to optimize acquisition result, particularly in one embodiment, when tipping paper air permeability=450, described relational model can be as follows:
X = 3.13534 + 201.4085 × b1 - 0.02623 × b2 -(1.3008 × 10
-5)× b4 -(0.7816 × 10
-3)× b5 – 1.5757 × b6
Analyze above regression equation can know: 1. time (b3=450CU) when tipping paper air permeability is higher, reduces additive (citrate) consumption (b1) in cigarette paper, harmfulness exponential quantity can be reduced.2. time (b3=450CU) when tipping paper air permeability is higher, improves air permeance for cigarette paper (b2), forming paper air permeability (b4), filter stick pressure drop (b5) and other pipe tobacco (expanded cut stem) and join dosage (b6), harmfulness exponential quantity can be reduced.
Knowing therefore according to above-described embodiment 1 ~ 3, can intuitively carry out simple to the various components in cigarette simply according to above-mentioned method and reasonably regulate, thus realize in process of production according to productive target design cigarette.
Further, described step 2) in also comprise according to default rule, matching judgment carried out to the harmfulness index obtained, if harmfulness exponent character normally, corresponding parameter is adopted to carry out Cigarette design, if the rule of not meeting, then adjust in cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem ginseng dosage one or more until meet rule.
Further, described rule is: preset harmfulness index model value, is compared by harmfulness index and the model value obtained, and when the harmfulness index of acquisition is not more than model value, is then judged as meeting rule.
If undesirable according to the above-mentioned harmfulness index to obtaining, then test, until the value of harmfulness index meets the requirements from new cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and the expanded cut stem ginseng dosage selected.
Embodiment 5
Further, as shown in Figure 2, if when undesirable at harmfulness index according to above-described embodiment 1 ~ 4, one or more amounts of dosage can be joined by adjusting current cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem.Until harmfulness index meets the requirements.
The method of adjustment is basis
relational model obtainscigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem join the relevance of dosage and harmfulness index, then increase or reduce values one or more in cigarette Paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem ginseng dosage respectively according to described relevance.
Further, described method of adjustment is one or more following combinations: reduce cigarette paper additive consumption, raising tipping paper air permeability, reduce filter stick pressure drop, raising expanded cut stem is joined dosage, reduced air permeance for cigarette paper.
the prediction of cigarette material design parameters harmfulness index under table 2 ISO suction mode
From table 18, apply each regression equation predicting the outcome by cigarette material coaptation smoke hazard index, with ISO suction mode lower to obtain the deviation detecting data less, show that this regression equation predicts the outcome ideal, comparatively accurate to the correlation analysis of cigarette material factor: 1. to predict the outcome less with the overall deviation of actual result, the average of relative standard deviation is only 3.04%, well below 6%; 2., in 21 groups of correction datas, except three groups of correction datas, remaining relative standard deviation is all less than 6%; 3. respectively organize in correction data, maximum one group of deviation, its relative standard deviation only 10.38%, is less than 12%.
In order to compare the impact of kinds of cigarettes material design parameters on harmfulness index, according to the whole range computation of each Cigarette design Parameter adjustable, it affects amplitude to harmfulness index hereby, that is,
The maximum adjustable amplitude of Y() this index regression equation coefficient of bi=ai() this index adjustable range of × △ bi(), wherein ai is the relevance parameter of material parameter bi and harmfulness index, be the parameter that in relevance formula, material parameter bi is corresponding, △ bi is the adjustable range of parameter bi) (maximin of bi is in table 1), X is this flue gas composition weight.
Therefore under ISO pattern each Cigarette design index on harmfulness index to affect amplitude as follows:
table 3 cigarette material design parameter affects amplitude to smoke hazard index
table 4 cigarette material design parameter is on the amplitude that affects 2 of smoke hazard index
As shown in Table 3: 1. improve tipping paper air permeability, effectively can reduce cigarette harmfulness index, the maximum range of decrease can reach 0.8549.2., under different tipping paper air permeability, each cigarette material design parameter adjustment is different on the impact of harmfulness index.3. to the maximum material index of cigarette harmfulness exponential effect successively, b3(tipping paper air permeability) >b2(air permeance for cigarette paper) > b1(citrate addition) pressure drop of >b5(filter stick) other pipe tobacco of >b6(ginseng dosage) >b4(forming paper air permeability).4. can adjust the harmfulness index of cigarette product as required according to table 16.
As shown in Table 4: adopt high ventilative tipping paper effectively can reduce smoke hazard index (being reduced to 0.7632), but due to greatly filter stick dilution rate (reaching 50.73%) can be improved, thus cigarette odor-absorbing is affected, therefore not feasible.And when adopting low tipping paper air permeability, flue gas concentration is protected, but cigarette harmfulness index will significantly improve (reaching 2.4032).Therefore adopt medium tipping paper air permeability the most suitable, now harmfulness index variable (A) is maximum with the ratio of filter stick dilution rate variable (B), the ratio of i.e. harm reduction usefulness and flue gas dilution is maximum, relative to the impact that smoking material adjustment is brought flue gas, the usefulness reducing cigarette harmfulness index is maximum.And now, forming paper can adopt common, non-high-air-permeability forming paper, and flue gas dilution rate is lower, and material cost is also lower.Therefore, Cigarette design is advised: the medium air permeability tipping paper adopting air permeability b3=300CU, reduce air permeance for cigarette paper and filter stick pressure drop (adopting 30CU cigarette paper and 700Pa pressure drop filter stick respectively), improve expanded cut stem pipe tobacco ginseng proportioning (reaching 15%), and principle selection (namely citrate consumption 0.5%, forming paper air permeability select 6000CU) that the factor such as citrate consumption, the selection of forming paper air permeability is low according to cost, can reduce cigarette harmfulness index preferably, and flue gas concentration is higher.
Therefore, low harm cigarette designs, and first determines that tipping paper is breathed freely design load, then according to the needs of adjusting range, adjusts other Cigarette design parameter.
Claims (3)
1., based on a Cigarette design method for smoke hazard index, it is characterized in that, said method comprising the steps of:
1) step based on choosing arbitrary cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem and mix the harmfulness index in dosage situation is obtained;
2) step of Cigarette design is carried out based on the harmfulness index obtained;
Wherein, the step obtaining harmfulness index comprises:
11) step of mixing the relational model between dosage and harmfulness index based on cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem is set up;
12) choose arbitrary cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem and mix dosage, obtain the step of harmfulness index;
When not distinguishing tipping paper air permeability, described harmfulness exponential relationship model is:
X = 2.7453 + 10.2769 × b1 -(2.8497 × 10
-3)× b3 +(0.2182 × 10
-3)× b5 + 0.0878 × b6;
During tipping paper air permeability (b3)=150CU:
X = 3.5396 – 15.0000 × b1 – 0.012187 × b2 +(0.3149 × 10
-5)× b4 -(0.6149 × 10
-3)× b5 + 1.1684 × b6;
When tipping paper air permeability=300:
X = -1.4803 + 0.07451 × b2 +(1.5801 × 10
-3)× b5 – 2.9856 × b6;
When tipping paper air permeability=450:
X = 3.13534 + 201.4085 × b1 - 0.02623 × b2 -(1.3008 × 10
-5)× b4 -(0.7816 × 10
-3)× b5 – 1.5757 × b6;
Wherein, X is harmfulness index, and b1 is additive amount in cigarette paper, and b2 is air permeance for cigarette paper, and b3 is tipping paper air permeability, and b4 is forming paper air permeability, and b5 is filter stick pressure drop, and b6 is that expanded cut stem mixes dosage;
The measurement standard of sample is: ISO regime scheme sets according to the regulation of GB/T 19609;
Described step 2) in also comprise according to default rule, matching judgment carried out to the harmfulness index obtained, if harmfulness exponent character normally, corresponding parameter is then adopted to carry out Cigarette design, if the rule of not meeting, then adjust cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem and mix in dosage one or more until meet rule;
Described rule is: preset harmfulness index model value, is compared by harmfulness index and the model value obtained, and when the harmfulness index of acquisition is not more than model value, is then judged as meeting rule.
2. the Cigarette design method based on smoke hazard index according to claim 1, it is characterized in that, the method of adjustment is obtain according to relational model the relevance that cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem mix dosage and harmfulness index, then increases respectively according to described relevance or reduces cigarette Paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, filter stick pressure drop and expanded cut stem and mix values one or more in dosage.
3. the Cigarette design method based on smoke hazard index according to claim 2, it is characterized in that, described method of adjustment is one or more following combinations: reduce cigarette paper additive consumption, improve tipping paper air permeability, reduce filter stick pressure drop, raising expanded cut stem mixes dosage, reduction air permeance for cigarette paper.
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| 卷烟材料组合对主流烟气中7种有害成份释放量的影响;杨红燕等;《中国烟草学报》;20110228;第17卷(第1期);8-13 * |
| 卷烟纸对卷烟主流烟气中7种有害成分释放量的影响;郑琴等;《烟草科技》;20101231(第12期);49-51 * |
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